NZ787256A - Compositions For Treatment of Wet Age-Related Macular Degeneration - Google Patents
Compositions For Treatment of Wet Age-Related Macular DegenerationInfo
- Publication number
- NZ787256A NZ787256A NZ787256A NZ78725617A NZ787256A NZ 787256 A NZ787256 A NZ 787256A NZ 787256 A NZ787256 A NZ 787256A NZ 78725617 A NZ78725617 A NZ 78725617A NZ 787256 A NZ787256 A NZ 787256A
- Authority
- NZ
- New Zealand
- Prior art keywords
- itr
- seq
- eye
- vector
- vegf
- Prior art date
Links
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Abstract
A recombinant adeno-associated virus (rAAV) having an AAV8 capsid which is suitable for intra-retinal injection is provided herein. The rAAV comprises a vector genome packaged within the capsid which contains, operably linked to regulatory elements which direct expression of anti- human vascular endothelial growth factor (VEGF) antigen binding antibody fragment (aVEGF), a coding sequence for aVEGF, wherein the coding sequence is operably linked to regulatory elements which direct expression of the anti -VEGF Fab in the eye. Also provided herein are liquid suspensions containing these rAAV8.aVEGF and methods of using same for treatment of wet AMD and other ocular conditions.
Description
COMPOSITIONS FOR TREATMENT OF WET AGE-RELATED MACULAR DEGENERATION INCORPORATION-BY-REFERENCE OF MATERIAL SUBMITTED IN ELECTRONIC Applicant hereby incorporates by reference the ce Listing material filed in onic form herewith. This file is d "UPN-l6-7683PCT_ST25.txt".
BACKGROUND OF THE INVENTION Age-related macular ration (AMD) is a progressive degenerative macular e attacking the region of highest visual acuity (VA), the macula, and is the leading cause of ess in Americans 60 years or older (NIH Medline Plus (2008), g cause of blindness, NIH Medline Plus 3(2) 14-15. www.nlm.nih.gov/medlineplus/magazine/ issues/ summer08/articles/summer08pgl4—15.html). The neovascular "wet" form of the disease (nAMD or wet AMD) is characterized by choroidal neovascularization which is marked by proliferation of blood vessels and cells including those of the retinal pigment epithelium (RPE) liet (2005) Nature 438: 932—93 6). Ultimately, photoreceptor death and scar formation result in a severe loss of central vision and the inability to read, write, and recognize faces or drive. Many patients can no longer maintain gainful employment, carry out daily activities and consequently report a diminished quality of life (Mitchell and Bradley (2006), Health Qual Life Outcomes 4: 97). Preventative therapies have demonstrated little effect and therapeutic strategies have focused primarily on treating the neovascular lesion.
Some currently available treatments for wet AMD include laser photocoagulation, photodynamic therapy with verteporfin, and intravitreal (IVT) injections with the vascular endothelial growth factor (VEGF) inhibitors such as anib, ranibizumab, bevacizumab or aflibercept (Schmidt-Erfurth, (2014) Guidelines for the management of neovascular age- d macular degeneration by the European Society of Retina Specialists (EURETINA) Br J Ophthalmol 98:1144—1167). While these therapies have some effect on orrected visual acuity (BCVA), their effects may be limited in restoring visual acuity and in duration (Schmidt-Erfurth, cited above, 2014, AAO PPP (2015) Preferred Practice Patterns: Age Related Macular Degeneration. American Academy of Ophthalmology).
Several drugs in market that are used to treat wet AMD rely on a mechanism that inhibits VEGF and must be injected intravitreally. While these treatments are ed to succeed in prohibiting the disease from progressing, they require frequent injections of the drug.
Of specific note, ranibizumab, a recombinant, humanized monoclonal IgGl antigen- binding nt (Fab) is designed to bind and inhibit all active forms of human (VEGF).
Ranibizumab is a humanized monoclonal antibody nt produced in Escherichia coli cells by recombinant DNA logy. The binding of ranibizumab to VEGF-A prevents the interaction of VEGF-A with its receptors VEGFR-l and VEGFR—2 on the surface of endothelial cells. This binding inhibits endothelial cell proliferation and neovascularization, as well as vascular leakage, all of which are thought to contribute to the progression of the neovascular (wet) form of age-related macular degeneration (Wet AMD). The safety and efficacy of ranibizumab tis®) has been established, and ranibizumab is United States (US) Food & Drug Administration (FDA) ed for IVT ion treatment in patients with cular AMD, as well as other retinal diseases (initially approved FDA 2006).
While long term therapy with either monthly ranibizumab or monthly/every 8 week aflibercept may slow the progression of vision loss and improve vision, none of these treatments prevent neovascularization fiom recurring (Brown et al (2006) N Engl J Med, 355: 1432—44, Rosenfeld et al., (2006) N Engl J Med 355: 1419—31, Schmidt-Erfurth, 2014, cited above). Each has to be re-administered to prevent the disease from worsening. The need for repeat treatments can incur additional risk to ts and is inconvenient for both patients and treating physicians.
SUMMARY OF THE INVENTION In one aspect, the ion provides a recombinant adeno-associated virus (rAAV) having an AAV8 capsid which is suitable for sub-retinal and/or intra-retinal inj ection. The AAV8 capsid packages a vector genome that provides for the tion of a soluble antigen-binding fragment (Fab) of a human monoclonal antibody (MAb) that binds and inhibits human ar endothelial growth factor (hVEGF) — the expression product is sometimes referred to herein as hVEGF Fa " or "aVEGF".
The vector genome packaged within the rAAV8 capsid, comprises: (a) an AAV inverted terminal (s) (ITR(s)) flanking an expression construct for the anti- VEGF Fab, (b) the expression construct having regulatory elements comprising a chicken beta-actin promoter or a ubiquitin C promoter that direct expression in the eye of a transgene encoding anti-hVEGF Fab, and (c) the transgene Which encodes the heavy and light chains of the anti-hVEGF Fab, each chain having a heterologous leader sequence added to its amino terminus, and Wherein the coding ces for the heavy and light chains are separated by a coding sequence for a "cleavable" peptide linker or an IRES (internal ribosome entry site) to ensure production of separate heavy and light chain polypeptides, and a polyadenylation signal. The resulting transgene expression products may contain an amino acid residue in addition to those ly found in Fab heavy chains.
In particular ments, codon sequences for the heavy and light chains zed for expression in human cells are used. As rated by the es, these can include but are not limited to AAV2/8.CB7.CI.aVEGFvl.rBG, AAV2/8.CB7.CI.aVEGFerBG, AAV2/8.CB7.CI.aVEGFv3.rBG, AAV2/8.CB7.CI.aVEGFv4.rBG, AAV2/8.CB7.CI.aVEGFv5.rBG, AAV2/8.CB7.CI.aVEGFv6.rBG, AAV2/8.CB7.CI.aVEGFv7.rBG, AAV2/8.CB7.CI.aVEGFv8.rBG, AAV2/8.CB7.CI.VEGFv9.rBG, AAV2/8.CB7.CI.aVEGFvl0.rBG, AAV2/8.CB7.CI.aVEGFvl 1.rBG, AAV2/8.CB7.CI.aVEGFverBG, .CB7.CI.aVEGFvl3.rBG.
As used , "AAV2/8" and "AAV8" are used interchangeably to refer to a recombinant AAV having an AAV8 capsid and vector genome flanked by AAVZ ITRs.
In yet another aspect, a liquid suspension of any of the foregoing rAAV8aVEGF for tinal and/or intra-retinal injection is provided. The composition comprises an aqueous liquid and rAAV8aVEGF as described herein, and optionally one or more excipients, preservatives, and/or surfactants.
In still a further aspect, a method for delivering an anti-hVEGF Fab to a patient having wet age-related related macular degeneration is provided. The method involves subretinally injecting the patient's eye With the liquid suspension comprising the rAAV8 vector ng the expression construct for the anti-hVEGF Fab.
In certain embodiments, the invention provides a rAAV as described herein, or a liquid suspension, administrable subretinally to a patient. In certain embodiments, use of a rAAV or a liquid suspension, for subretinal administration to a t is provided. The patient may have been previously diagnosed with wet age-related macular degeneration, or another ocular condition as defined herein.
In still a further embodiment, a product comprising: (a) a first container comprising an rAAV8anti-hVEGF Fab and an aqueous liquid, (b) optionally a second container comprising a diluent, and (c) a needle for injection. In certain embodiments, the product is an injection kit.
The invention is illustrated by the examples below which demonstrate that subretinal stration of an rAAV8aVEGF vector s in gene transfer throughout the retina, and expression of anti-VEGF Fab throughout the retina and in the vitreous and anterior chamber fluids. This result is surprising in view of prior art gene therapy s that demonstrated that gene transfer spreads laterally outside of the original injection bleb but remains ed to those ed boundaries and did not achieve gene transfer and transgene expression outside this expanded area of injection (the "bleb" formed in the retina at the injection site), and offers an advantage over standard of care treatment for nAMD in that a single administration of the rAAV8aVEGF vector should result in (i) continuous delivery of the effective amounts of the VEGF tor throughout the retina which may in turn improve performance as compared to repeated IVT administrations of high dose boluses of the VEGF inhibitor that ate over time, and (ii) avoidance of repeated ocular injections which pose additional risks and inconvenience to patients. Each aspect may improve therapeutic outcome.
Still other aspects and advantages of the invention will be apparent from the following detailed ption of the invention.
BRIEF DESCRIPTION OF THE FIGURES FIG 1 provides a schematic representation of an AAV8 vector genome containing a gene te flanked by the AAVZ inverted terminal repeat (ITRs) and expressing human anti-vascular endothelial growth factor (anti-VEGF) antigen binding antibody fragment (Fab). Control elements include the CB7 promoter consisting of the chicken B-actin er and CMV enhancer, chicken B-actin and a rabbit B-globin poly A signal. The nucleic acid ces coding for the heavy and light chains of anti-VEGF Fab are separated by a self- cleaving furin (F)/F2A linker. A furin recognition site that consists of arginine-lysine- arginine-arginine amino acid ce was used. In addition, the light and heavy chain each contain a heterologous leader peptide which directs nascent peptide into appropriate cellular compartment where leader peptide is processed away from the mature n by the host cellular machinery. These and the other synthetic anti-VEGF constructs are termed herein; AAV.aVEGF.
FIG 2 es the sion levels and kinetics of AAV8.CB7.aVEGFvl or rAAV8.UbC.aVEGFvl at various time points post-injection of the left eye (os) or right eye (od). AAV8.CB7.aVEGF-va is the top line with the closed circle. AAV8.UBC.aVEGF- va is the bottom line with the closed circle. The middle line with the open circles is AAV8.UBC.aVEGF-va.
FIGs 3A - 3D show expression of anti-VEGF Fab in anterior chamber fluid and blood for animals in Groups 2 and 3 as bed in Example 3 in which lgus monkeys were administered a single dose of 1.00 X 1011 GC/eye of AAV2/8 s into each eye subretinally. Anterior chamber fluid and blood were collected at prespecified timepoints. Expression of the anti-VEGF Fab was determined using enzyme-linked immunosorbent assay. In FIGs 3A and 3B; the results for animals in Group 2. In FIGS 3C and 3D; the results for Group 3 are presented. In FIGS 3B and 3D; the gray area in the panel presenting the results in serum denotes baseline levels. Circles denote females and squares denote males. Samples were analyzed in duplicate. The s are presented as mean :: standard deviation. Abbreviations: Fab = fragment antigen-binding; GC = genome copies; OD = right eye; OS = left eye; VEGF = vascular endothelial growth factor.
FIGs 4A - 4D show sion of anti-VEGF Fab in anterior chamber fluid and blood for animals in Groups 5 and 6 as described in Example 3 in which cynomolgus s were administered a single dose of 1.00 X 1011 GC/eye of AAV2/8 vectors into each eye subretinally. Anterior chamber fluid and blood were collected at prespecified timepoints. Expression of the anti-VEGF Fab was determined using enzyme-linked immunosorbent assay. The results for Group 5 are presented in FIGS 4A and 4B and the results for Group 6 is presented in FIGS 4C and 4D. In FIGS 4B and 4D; the gray area in the panel presenting the results in serum denotes baseline levels. Circles denote females and squares denote males. Samples were ed in duplicate. The results are presented as mean :: standard deviation. iations: Fab = fragment antigen-binding; GC = genome copies; OD = right eye; OS = left eye; VEGF = vascular elial growth factor.
FIGS 5A - 5D provide levels of mRNA for AAV8.aVEGF test vector in retina determined by RT-qPCR. Cynomolgus monkeys were administered a single dose of 1.00 X 1012 GC/eye of a VEGF test vector or FFB-3 14 into the right eye subretinally.
Levels ofmRNA for the AAV8.aVEGF test vector were determined in different portions of the dissected retinas by quantitative reverse transcription polymerase chain reaction (RT- qPCR). In left panels, schematics of ion sites are depicted. In middle panels, retinal dissections are presented. In right , levels ofmRNA for AAV8.aVEGF test vector mRNA (GC per 100 ng of RNA) in 4 sections of retina are depicted. Abbreviations: BV = major blood vessel, F = fovea, GC = genome copies, IB = injection bleb, ID = identification, 0 = optic disk, UD = undetected.
FIGs 6A - 6D e results of expression of anti-VEGF Fab in anterior chamber fluid, us, and retina (Group 2, Example 6). lgus monkeys were administered a single dose of 1.00 X 1011 GC/eye of AAV2/8 vector subretinally. These data represent results from different AAV8.aVEGF s than shown in FIGs 5A - 5D. Concentrations of anti-VEGF Fab were determined in anterior chamber fluid, vitreous, and 4 different parts of retina. Eyes were dissected as described in FIGs 5A - 5D. In FIGS 6A and 6C, infrared spectral domain optical coherence tomography images of the retinas with boundaries of injection site are ed. In FIGS 6B and 6D, graphs of concentrations of anti-VEGF Fab are presented. In this , the s for animals in Group 2 in Example 6 are presented.
Abbreviations: ACF = anterior chamber fluid, BV = major blood vessel, F = fovea, Fab = fragment antigen-binding, FOV =middle section ning fovea, GC = genome copies, IB = injection bleb, ID = identification, INF = inferior retinal section, 0 = optic disk, ODI = middle section containing optic disk, SUP = superior retinal section, VEGF = vascular endothelial growth factor, VIT = vitreous.
FIGs 7A - 7D provide results of expression of anti-VEGF Fab in anterior chamber fluid, vitreous, and retina (Group 3, Example 6). Cynomolgus monkeys were administered a single dose of 1.00 X 1011 GC/eye of AAV2/8 vector subretinally. These data represent results from different AAV8.aVEGF vectors than shown in FIGs 5A - 5D. Concentrations of anti-VEGF Fab were determined in anterior chamber fluid, vitreous, and 4 different parts of retina. Eyes were dissected as described in FIGs 5A - 5D. In FIGS 7A and 7C, infrared spectral domain optical coherence aphy images of the retinas with ries of injection site are depicted. In the graphs of FIGS 7B and 7D, concentrations of anti-VEGF Fab are presented. In this figure; the s for animals in Group 3 in Example 6 are presented. Abbreviations: ACF = anterior chamber fluid; BV = major blood vessel; F = fovea; Fab = fragment antigen-binding; FOV =middle section containing fovea; GC = genome copies; IB = injection bleb; ID = identification; INF = inferior retinal section; 0 = optic disk; ODI = middle section containing optic disk; SUP = superior retinal section; VEGF = ar endothelial growth ; VIT = vitreous.
FIGs 8A - 8D provide s of sion of anti-VEGF Fab in anterior chamber fluid; vitreous; and retina (Group 5; Example 6). Cynomolgus monkeys were administered a single dose of 1.00 X 1011 GC/eye of AAV2/8 vector subretinally. These data represent results from different AAV8.aVEGF vectors than shown in FIGs 5A - 5D. Concentrations of anti-VEGF Fab were determined in anterior chamber fluid; us; and 4 different parts of retina. Eyes were dissected as described in FIGs 5A - 5D. In FIGS 8A and 8C; infrared spectral domain optical coherence tomography images of the retinas with boundaries of injection site are depicted. In the graphs of FIGs 8B and 8D; concentrations of anti-VEGF Fab are presented. In this figure; the results for animals in Group 5 in Example 6 are ted. Abbreviations: ACF = anterior chamber fluid; BV = major blood vessel; F = fovea; Fab = fragment antigen-binding; FOV =middle section containing fovea; GC = genome copies; IB = injection bleb; ID = identification; INF = inferior retinal section; 0 = optic disk; ODI = middle section containing optic disk; SUP = superior retinal section; VEGF = vascular endothelial growth factor; VIT = vitreous.
FIG 9 provides a flow diagram of the manufacturing process.
FIGs 10A - 10D illustrate the results of an rcAAV assay for AAV8. thAV8 is spiked into different GC amounts ofAAV vector and the cap gene copy number per 1 ug of 293 cell DNA is determined after three sive passages of the cell lysate onto fresh cells. 3 different spike levels 8 [one level per panel: 1 x 102 GC; 1 x 103 GC and l x 104 GC] 4 different vector amounts [0 GC (dark square); 1 x 109 GC (gray square) 1 x 1010 GC (triangle) and l x 1011 GC (marked with X)] are shown and background levels are ted (controls).
DETAILED DESCRIPTION OF THE INVENTION Recombinant; replication-defective adeno-associated virus (rAAV) s having an AAV8 capsid and compositions containing same which are suitable for subretinal injections to deliver an anti-VEFG antibody binding nt (Fab). Also provided are compositions containing same, and in particularly, liquid aqueous suspension. Uses of these compositions are also provided.
The rAAV8 vectors are designed to express an EGF antibody binding fragment (Fab) in mammalian, and more particularly, human cells. These anti-VEGF Fabs are particularly well suited for treatment of age-related macular ration (AMD). For convenience, these vectors are terms rAAV8.AMD. As described herein, a series of novel AAV8aVEGF ucts have been developed which have demonstrated high yield, expression levels, and/or ty.
The invention is illustrated by the examples below which demonstrate that subretinal administration of an rAAV8aVEGF vector results in gene transfer throughout the retina, and expression of anti-VEGF Fab throughout the retina and in the vitreous and anterior r fluids. This result is surprising in view of prior art gene therapy studies that demonstrated that gene transfer spreads laterally e of the original injection bleb but remains ed to those expanded boundaries and did not achieve gene er and transgene expression outside this expanded area of injection (the "bleb" formed in the retina at the ion site), and offers an advantage over standard of care treatment for nAMD in that a single administration of the rAAV8aVEGF vector should result in (i) continuous delivery of the effective amounts of the VEGF inhibitor throughout the retina which may in turn improve performance as ed to repeated IVT administrations of high dose boluses of the VEGF inhibitor that dissipate over time, and (ii) avoidance of repeated ocular injections which pose additional risks and inconvenience to patients. Each aspect may improve therapeutic The present invention provides constructs encoding a novel anti-VEGF Fab having, at a minimum, a heavy chain amino acid sequence of SEQ ID NO: 1 and a light chain amino acid sequence of SEQ ID N022, each of which has been engineered to have an exogenous leader sequence for each the heavy chain and light chain. In certain constructs rated herein, the leader sequence is derived from a human IL2 leader. Further, in certain constructs illustrated in the working examples, the heavy and light chains are separated by a furin/F2a linker, which may result may result in one or more extra amino acids being added to the heavy chain [SEQ ID NO: 1]. In one ment, a single arginine [R] is added to the heavy chain. However, in certain embodiments, another linker may be selected and/or a different system may result in no additional amino acid, or one or more extra amino acids [e.g., R, Lys (K), RK, RKR, RKRR among others]. In prior provisional applications, the resulting constructs were termed herein, aVEGF-R. However, for y, these ucts encoding the anti-VEGF Fab transgene product described herein, are referred to as: anti- VEGF Fab, aVEGF, anti-hVEGF, anti-human VEGF, or anti-VEGF Fab transgene product.
In the constructs encoding this transgene product, a numerical designation following the term aVEGF, e.g., aVEGFvl, aVEGFvZ, aVEGFv3, h aVEGFvl3, refers to different nucleic acid coding ces for the open reading frame of the immunoglobulin heavy chain and light chains.
In n embodiments, the amino acid sequence of the EGF Fab has 513 amino acids, including EGF is heavy and light chain separated by extra amino acids as a result of the linker. For example, while each of the following expression cassettes encodes the same anti-VEGF heavy chain and light chain, in one embodiment, there may be one amino acid added to the last position of the heavy chain. In still other embodiments, there may be two, three, four or more extra amino acids attached to the heavy chain. For example, in certain embodiments, the nucleic acid sequences coding for the heavy and light chains of EGF Fab are separated by a self-cleaving furin (F)/F2A linker. A furin recognition site that consists of arginine-lysine-arginine-arginine amino acid sequence may be used. Due to the mechanism of mediated cleavage, vector-expressed anti-VEGF Fab may contain an additional arginine (R) residue added to the last position of the heavy chain [SEQ ID NO: 1]. In other embodiments, the vector-expressed anti-VEGF Fab may contain the dipeptide arginine-lysine at the end of the heavy chain, the tripeptide arginine-lysine-arginine at the end of the heavy chain, or the polypeptide ne-lysine-arginine-arginine at the end of the heavy chain. In certain embodiments, the vector expressed anti-VEGF Fab are a heterogeneous mixture of two or more of these Fab products. Other furin cleavage sites can be used (arginine-X-X-arginine, or arginine-X-lysine or arginine-arginine), which can also generate C-terminal heterogeneity. In other words, other vector expressed anti-VEGF Fabs may be a heterogeneous population of the Fab in which the heavy chain has 0, l, 2, 3, or 4 amino acids at its C-terminus as a result of the linker processing. In addition, the light and heavy chain each contain a heterologous leader peptide which s nascent peptide into appropriate ar compartment where leader peptide is processed away from the mature protein by the host cellular machinery. In certain ments, the anti-VEGF Fab contains no HC or LC leader sequences. See, e.g., SEQ ID NO: 33.
In certain embodiments, the anti-VEGF Fab heavy chain has the amino acid sequence of residues 21 - 252 of SEQ ID NO: 33 With a leader sequence. In other embodiments, the anti-VEGF Fab light chain has the amino acid sequence of residues 300 - 513 of SEQ ID NO: 33 with a leader ce. For example, the leader sequence may be from about 15 to about 25 amino acids, preferably about 20 amino acids. In some embodiments, the leader has the sequence of amino acids 1-20 of SEQ ID NO: 33.
In one embodiment, the coding sequences for the heavy chain and light chain of anti- VEGFvl are provided in SEQ ID NO: 24. More particularly, the heavy chain variable region open reading frame (ORF) is provided in nucleotides (nt) 1843 to 2211 and the heavy chain constant region (CH1) ORF is provided in nt 2212-2532, with reference to SEQ ID NO: 24. Thus, the aVEGFvl heavy chain, Without the leader, has the nucleic acid sequence of nt 1843 to 2532. The light chain variable region (VL) ORF is provided in nt 2680 to 3000 and the light chain constant region (CL) is provided in nt 3001 to 3321 of SEQ ID NO: 24.
Thus, the 2 light chain, Without the leader, has the nucleic acid sequence of nt 2680 to 3321 of SEQ ID NO: 24.
In r ment, the coding sequences for the heavy chain and light chain of anti-VEGFV2 are provided in SEQ ID NO: 3. More particularly, the VH ORF is ed in nt 2059 to 2427 and the CH1 is provided in 2428 to 2748 of SEQ ID NO: 3, the heavy chain Without the leader has the nucleic acid sequence of nt 2059 to 2748 of SEQ ID NO: 3. The VL ORF is provided in nt 2896 to 3216 and CL is provided in nt 3217 to 3536 of SEQ ID NO: 3, the light chain Without the leader sequence has the nucleic acid sequence of nt 2896 to 3536 of SEQ ID NO: 3.
In yet another embodiment, the coding sequences for the heavy chain and light chain of aVEGFv3 are provided in SEQ ID NO: 19. The VH ORF is ed in nt 1842 to 2210 and the CH1 is ed in nt 2211 to 2531 of SEQ ID NO: 19, the heavy chain Without the leader has the nucleic acid sequence of nt 1842 to 2531 of SEQ ID NO: 19. The VL ORF is provided in nt 2679 to 2999 and CL is provided in nt 3000 to 3320 of SEQ ID NO: 19, the light chain Without the leader has the nucleic acid sequence of nt 2670 to 3320 of SEQ ID NO: 19.
In a further embodiment, the coding sequences for the heavy and light chain of 4 are provided in SEQ ID NO: 35. The heavy chain leader sequence is d by nt 1993 - 2052, the VH ORF is at nt 2053 - 2421 and the CH1 is at nt 2422 - 2742 of SEQ ID NO: 35. As in the other constructs described herein, as a result of the location of the F2A cleavage site, sequences encoding additional amino acids may be retained on the VH chain.
The light chain leader sequence is encoded by nt 2830-2889, the VL ORF is provided in nt 2890 - 3210, the CL ORF is located at nt 3211-3531 of SEQ ID NO: 35.
In a further embodiment, the coding sequences for the heavy and light chain of aVEGFv5 is provided Within SEQ ID NO: 36. The heavy chain leader sequence is encoded by nt 1993 - 2052, the VH ORF is encoded by nt 2053 - 2421, and the CH1 is encoded by nt 2422 - 2742 of SEQ ID NO: 36. As in the other constructs described , as a result of the location of the F2A cleavage site, sequences encoding additional amino acids may be retained on the VH chain. The light chain leader sequence is encoded by nt 889, the VL ORF is provided in nt 2890 - 3210, the CL ORF is located at nt 321 1-3531 of SEQ ID NO: 36.
In a further embodiment, the coding sequences for the heavy and light chain of aVEGFv6 is provided Within SEQ ID NO: 37. The heavy chain leader sequence is encoded by nt 1993 - 2051, the VH ORF is encoded by nt 2053 - 2421, and the CH1 is d by nt 2422 - 27420f SEQ ID NO: 37. As in the other constructs described herein, as a result of the location of the F2A cleavage site, sequences ng additional amino acids may be ed on the VH chain. The light chain leader sequence is encoded by nt 2830-2889, the VL ORF is provided in nt 2890 - 3210, the CL ORF is located at nt 321 1-3531 of SEQ ID NO: 37.
In a r embodiment, the coding sequences for the heavy and light chain of aVEGFv7 is provided Within SEQ ID NO: 38. The heavy chain leader sequence is encoded by nt 1993 - 2052 the VH ORF is encoded by nt 2053 - 2421, and the CH1 is encoded by nt 2422 - 2742 of SEQ ID NO: 38. As in the other constructs described herein, as a result of the location of the F2A cleavage site, an onal Arg codon is retained on the VH chain.
The light chain leader sequence is encoded by nt 2830 - 2889, the VL ORF is provided in nt 2890-3210, the CL ORF is located at nt 321 1-353lof SEQ ID NO: 38.
In a further embodiment, the coding sequences for the heavy and light chain of aVEGFv8 is provided Within SEQ ID NO: 39. The heavy chain leader sequence is encoded by nt 1993 - 2052, the VH ORF is encoded by nt 205 - 2421, and the CH1 is encoded by nt 2422 - 2742 of SEQ ID NO: 39. As in the other constructs described herein, as a result of the location of the F2A cleavage site, an onal Arg codon is retained on the VH chain.
The light chain leader sequence is encoded by nt 2830 - 2889, the VL ORF is provided in 2890 - 3210, the CL ORF is located at nt 3211 - 3531 of SEQ ID NO: 39.
In a further embodiment, the coding sequences for the heavy and light chain of aVEGFv9 is provided within SEQ ID NO: 40. The heavy chain leader sequence is encoded by nt 1999 - 2058, the VH ORF is encoded by nt 2059 - 2427, and the CH1 is d by nt 2428 - 2748 of SEQ ID NO: 40. As in the other constructs described herein, as a result of the location of the F2A cleavage site, an onal Arg codon is retained on the VH chain.
The light chain leader sequence is encoded by nt 2836 - 2895, the VL ORF is provided in nt 2896 - 3216, the CL ORF is located at nt 3217 - 3637 of SEQ ID NO: 40.
In a further embodiment, the coding sequences for the heavy and light chain of aVEGFv10 is ed within SEQ ID NO: 41. The heavy chain leader sequence is encoded by nt 1993 - 2052, the VH ORF is encoded by nt 2053 - 2421, and the CH1 is d by nt 2422 - 2742 of SEQ ID NO: 41. As in the other constructs described herein, as a result of the on of the F2A cleavage site, an additional Arg codon is retained on the VH chain.
The light chain leader sequence is encoded by nt 2830 - 2889, the VL ORF is provided in nt 2890 - 3210, the CL ORF is located at nt 3211 - 3231 of SEQ ID NO: 41.
In a further embodiment, the coding sequences for the heavy and light chain of aVEGFvll is provided within SEQ ID NO: 42. The heavy chain leader sequence is encoded by nt 1993 - 2052, the VH ORF is encoded by nt 2053 - 2421, and the CH1 is encoded by nt nt 2422 - 2742 of SEQ ID NO: 42. As in the other constructs described herein, an F2A cleavage site is located between the end of the heavy chain and the ing of the light chain. The light chain leader sequence is encoded by nt 2830 - 2889, the VL ORF is provided in nt 2890 - 3210, the CL ORF is located at nt 3211 - 353 lof SEQ ID NO: 42.
In a further embodiment, the coding sequences for the heavy and light chain of aVEGFv12 is provided within SEQ ID NO: 43. The heavy chain leader sequence is encoded by nt 1993 - 2052, the VH ORF is encoded by nt 2053 - 2421, and the CH1 is encoded by nt 2422 - 2742 of SEQ ID NO: 43. The light chain leader sequence is d by nt 2830 - 2889, the VL ORF is provided in nt 2890 - 3210, the CL ORF is located at nt 3211 - 3531 of SEQ ID NO: 43.
In a further embodiment, the coding sequences for the heavy and light chain of aVEGFv13 is provided within SEQ ID NO: 44. The heavy chain leader sequence is encoded by nt 1993 - 2052, the VH ORF is encoded by nt 2053 - 2421, and the CH1 is encoded by nt 2422 - 2742 of SEQ ID NO: 44. The light chain leader sequence is encoded by nt 2830 - 2889, the VL ORF is nt 2890 - 3210, the CL ORF is located at nt 3211 - 3531 of SEQ ID NO: 44.
Ranibizumab is bed herein as a positive control and is currently marketed under the brand name Lucentis® It is described as a Fab moiety of a high affinity version of recombinant humanized monoclonal antibody rhuMAb vascular elial growth factor (VEGF). It consists of a 214-residue light chain linked by a disulfide bond at its inus to the 231-residue N-terminal segment of the heavy chain. The expected amino acid sequences of the heavy and light chains are provided in SEQ ID NO: 1 and 2. CAS number 1.
As used herein, an "immunoglobulin " refers to a domain of an antibody heavy chain or light chain as defined with reference to a conventional, full-length antibody.
More particularly, a full-length antibody contains a heavy (H) chain polypeptide which contains four domains: one inal variable (VH) region and three inal constant (CH1, CH2 and CH3) regions and a light (L) chain polypeptide which ns two domains: one N- terminal variable (VL) region and one C-terminal constant (CL) region. An Fc region may contain two domains (CH2 - CH3). A Fab region contains one constant and one variable domain for each the heavy and light chains.
In one embodiment, rAAVaVEGF vector has an AAV8 capsid and a vector genome packaged therein which comprises at least one element heterologous to AAV8. In one embodiment, the vector genome contains, from 5’ to 3’: (a) an AAV 5’ ITR, (b) an enhancer, (c) a promoter, (d) an intron, (e) a leader sequence and the anti-VEGF heavy chain coding sequence, (f) a furin-F2a linker, (g) a leader sequence and the anti-VEFG light chain coding sequence, (h) a polyA signal, and (i) an AAV3’ ITR.
In certain embodiments, the processing of anti-VEGF Fab heavy chain and light chains is directed by leader peptides that are derived from human IL2 protein. In one embodiment the leader sequence is an interleukin (IL) IL-2 leader sequence, which may be the wild-type human IL2, MYRMQLLSCIALSLALVTNS [SEQ ID NO: 29], or a d leader, such as MYRMQLLLLIALSLALVTNS [SEQ ID NO: 30] or MRMQLLLLIALSLALVTNS [SEQ ID NO: 31]. In another embodiment, a human serpinFl secretion signal may be used as leader peptides. Other leader ces can be used, or other leaders exogenous to the heavy and light chain.
As used in the following description of the vector genome unless otherwise specified as the light chain or heavy chain, reference to a coding sequence (e.g., aVEGFv2) asses the anti-VEGF heavy chain - F2a linker - anti-VEGF light chain. In one embodiment, a nucleic acid sequence encoding the furin recognition site Arginine-Lysine- Arginine-Arginine is selected. In certain embodiments, nucleic acids encoding a F2A linker which is a 24 amino acid peptide derived from FMDV (GenBank # CAA2436.1) is selected. r, if desired, an IRES sequence, e.g., such as derived from encephalomycarditis virus (EMCV) : SEQ ID NO: 32: TAGTACGTCTCTCAAGGATAAGTAAGTAATATTAAGGTACGGGAGGTAT TGGACAGGCCGCAATAAAATATCTTTATTTTCATTACATCTGTGTGTTGGTTTTTT GTGTGAATCGATAGTACTAACATACGCTCTCCATCAAAACAAAACGAAACAAAA CAAACTAGCAAAATAGGCTGTCCCCAGTGCAAGTGCAGGTGCCAGAACATTTCT CTGGCCTAACTGGCCGGTACCTGAGCTCTAGTTTCACTTTCCCTAGTTTCACTTTC CCTAGTTTCACTTTCCCTAGTTTCACTTTCCCTAGTTTCACTTTCCCCTCGAGGAT ATCAAGATCTGGCCTCGGCGGCCAG], cMyc [Nanbru C, et al (1997). J. Biol. Chem. 272, 32061-32066, Stoneley M, et al., (1998). Oncogene 16, 8.], or foot and mouth disease (FMD) may be selected.
Inverted al repeats (ITR) from AAV2 may be selected. Vectors having ITRs from a different source than its capsid are termed "pseudotyped". In certain embodiments, ITRs from a source other than AAV2 may be selected for this construct to generate r pseudotyped AAV. Alternatively, ITRs from the same source as the capsid may be selected.
In certain embodiments, ITRs may be selected to generate a self-complementary AAV, such as defined infra.
In certain embodiments, the promoter is CB7, a hybrid between a cytomegalovirus (CMV) immediate early enhancer (C4) and the chicken beta actin promoter. In other embodiments, the promoter is a ubiquitin C (UbC) promoter. See, e.g., WO 91800.
See, e.g., k® accession numbers AF232305 (rat) and D6379l (human), respectively.
Still other promoters and/or enhancers may be selected. See, e.g., cytomegalovirus (CMV) immediate early enhancer (260 bp, C4, GenBank # K031041). n beta-actin promoter (281 bp, CB, GenBank # X00182.1). In still other embodiments, multiple enhancers and/or promoters may be included.
In certain embodiments, an intron is included. One le intron is a chicken beta- actin intron. In one embodiment, the intron is 875 bp (GenBank # X00182.1). In another embodiment, a chimeric intron available from Promega is used. r, other suitable introns may be selected.
The vector genomes described herein e a polyadenylation signal (polyA). A variety of suitable polyA are known. In one example, the polyA is rabbit beta globin, such as the 127 bp rabbit beta-globin polyadenylation signal (GenBank # V00882.1). In other embodiments, an SV40 polyA signal is selected. Still other suitable polyA sequences may be selected.
Optionally, other suitable vector elements may be selected Which may include, e.g., a UTR sequence or a Kozak sequence.
In one embodiment, the vector genome contains, ITR-CB7-CI-aVEGFv2-rBG-ITR, [SEQ ID NO: 3]. In another embodiment, the vector genome contains: ITR-UbC-CI- aVEGFv2-SV40-ITR.[SEQ ID NO: 9]. In one embodiment, the vector genome contains, ITR-CB7-CI-aVEGFv3-rBG-ITR [SEQ ID NO: 14]. In another ment, the vector genome contains: ITR-UbC-PI-aVEGFv3-SV40-ITR [SEQ ID NO: 19]. In another embodiment, the vector genome contains: ITR-UbC-PI-aVEGFv1-SV40-ITR [SEQ ID NO: 24].In a further ment, the vector genome contains AAV2-ITR- CB7.CI.aVEGFv4.rBG-AAV2 ITR [SEQ ID NO: 35]. In a further embodiment, the vector genome contains AAV2-ITR-CB7.CI.aVEGFv5.rBG-AAV2 ITR [SEQ ID NO: 36]. In a further embodiment, the vector genome contains AAV2-ITR-CB7.CI.aVEG Fv6.rBG-AAV2 ITR [SEQ ID NO: 37]. In a further embodiment, the vector genome contains AAV2-ITR- CB7.CI.aVEGFv7.rBG-AAV2 ITR [SEQ ID NO: 38]. In a further embodiment, the vector genome contains AAV2-ITR-CB7.CI.aVEGFv8.rBG—AAV2 ITR [SEQ ID NO: 39]. In a further embodiment, the vector genome ns AAV2-ITR-CB7CI.aVEGFv9.rBG—AAV2 ITR [SEQ ID NO: 40]. In a further ment, the vector genome ns AAV2-ITR- CB7.CI.aVEGFv10.rBG—AAV2 ITR [SEQ ID NO: 41]. In a r embodiment, the vector genome contains AAV2-ITR-CB7.CI.aVEGFv11.rBG-AAV2 ITR [SEQ ID NO: 42]. In a further embodiment, the vector genome contains AAV2-ITR-CB7.CI.aVEGFv12.rBG- AAV2 ITR [SEQ ID NO: 43]. In a further embodiment, the vector genome contains AAV2 ITR-CB7.CI.aVEGFvl3.rBG-AAV2 ITR [see, SEQ ID NO: 44]. In a further ment, the vector genome ns AAV2 ITR-CMV.PI.aVEGFv7.eCMVIres.aVEGF.SV40-AAV2 ITR [SEQ ID NO: 45]. In r embodiment, the vector genome contains AAV2 ITR.CMV.PI.aVEGF.FMDVlIRES.SV40 - ITR [SEQ ID NO: 46]. In still a further embodiment, the vector genome contains AAV2 ITR.CMV.PI.aVEGF.cMycIRES.Fab.SV40 - ITR [SEQ ID NO: 47].
For use in producing an AAV viral vector (e.g., a recombinant (r) AAV), the expression cassettes can be carried on any suitable vector, e. g. , a plasmid, which is delivered to a packaging host cell. The plasmids useful in this invention may be ered such that they are suitable for ation and packaging in prokaryotic cells, mammalian cells, or both. Suitable transfection techniques and packaging host cells are known and/or can be readily designed by one of skill in the art.
Methods for generating and isolating AAVs suitable for use as vectors are known in the art. See generally, e. g., Grieger & Samulski, 2005, "Adeno-associated virus as a gene I5 therapy vector: Vector pment, tion and clinical applications," Adv. Biochem.
Engin/Biotechnol. 99: 119-145, Buning er al., 2008, "Recent developments in adeno- associated virus vector technology," J. Gene Med. 10:717-733, and the references cited below, each of which is incorporated herein by reference in its entirety. For packaging a transgene into virions, the ITRs are the only AAV components ed in cis in the same construct as the nucleic acid molecule containing the expression cassettes. The cap and rep genes can be supplied in trans.
In one embodiment, the expression cassettes described herein are engineered into a c element (e.g., a shuttle plasmid) which transfers the immunoglobulin construct sequences carried thereon into a ing host cell for production of a viral vector. In one embodiment, the selected genetic element may be delivered to an AAV ing cell by any suitable method, including transfection, electroporation, liposome delivery, membrane fusion techniques, high velocity DNA-coated pellets, viral infection and protoplast .
Stable AAV packaging cells can also be made. Alternatively, the expression cassettes may be used to generate a viral vector other than AAV, or for production of mixtures of antibodies in vitro. The methods used to make such constructs are known to those with skill in c acid manipulation and include genetic engineering, recombinant engineering, and synthetic techniques. See, e.g., lar Cloning: A tory Manual, ed. Green and Sambrook, Cold Spring Harbor Press, Cold Spring Harbor, NY .
As used herein, "AAV8 capsid" refers to the AAV8 capsid having the amino acid sequence of GenBank accession:YP_077180 (SEQ ID NO: 48) encoded by nucleic acid sequence ofNCBI nce Sequence: NC_006261.1 (SEQ ID NO: 49), both of which are incorporated by reference . Some variation from this encoded sequence is encompassed by the present invention, which may e sequences having about 99% identity to the referenced amino acid sequence in GenBank accession:YP_077180, US Patent 7,282,199, 7,790,449, 8,319,480, 8,962,330, US 8,962,332, (i.e., less than about 1% variation from the nced sequence). In another embodiment, the AAV8 capsid may have the VP1 sequence of the AAV8 variant described in W02014/124282, which is incorporated by reference herein. Methods of generating the capsid, coding sequences therefore, and s for production of rAAV viral vectors have been described. See, e.g., Gao, et al, Proc. Natl. Acad. Sci. USA. 100 (10), 6081-6086 (2003), US 2013/0045186A1, and which shows tropism for the desired target cell, e.g., photoreceptors, RPE or other ocular cells is selected. For example, an AAV8 capsid may have Y447F, Y733F and T494V mutations (also called C&G+T494V)" and "rep2-cap8(Y447F+733F+T494V)"), as described by Kay et al, Targeting Photoreceptors via Intravitreal Delivery Using Novel, Capsid-Mutated AAV Vectors, PLoS One. 2013, 8(4): e62097. Published online 2013 Apr 26, which is incorporated herein by reference. See, e.g., Mowat et al, Tyrosine capsid- mutant AAV vectors for gene delivery to the canine retina fiom a subretinal or intravitreal approach, Gene Therapy 21, 96-105 (January 2014), which is incorporated herein by reference. In another embodiment, the AAV capsid is an AAV8 capsid, which preferentially targets bipolar cells. See, reference.
As used herein, the term "NAb titer" a measurement ofhow much neutralizing antibody (e.g., anti-AAV Nab) is produced which neutralizes the physiologic effect of its targeted epitope (e.g., an AAV). Anti-AAV NAb titers may be measured as described in, e.g., Calcedo, R., et al., Worldwide iology of Neutralizing Antibodies to Adeno- Associated Viruses. l of Infectious Diseases, 2009. 199(3): p. 381-390, which is incorporated by nce herein.
The terms "percent (%) identity", "sequence identity77 (C , percent ce identity", or "percent identical" in the context of amino acid sequences refers to the es in the two sequences which are the same when aligned for correspondence. Percent identity may be readily determined for amino acid sequences over the full-length of a n, polypeptide, about 32 amino acids, about 330 amino acids, or a peptide fragment thereof or the corresponding nucleic acid sequence coding sequencers. A le amino acid fragment may be at least about 8 amino acids in length, and may be up to about 700 amino acids. lly, when referring to "identity", "homology", or "similarity" between two different sequences, "identity", "homology" or "similarity" is determined in reference to "aligned" sequences. "Aligned" sequences or "alignments" refer to multiple c acid sequences or protein (amino acids) sequences, often containing corrections for missing or additional bases or amino acids as compared to a reference sequence. Alignments are performed using any of a variety of publicly or commercially available le Sequence Alignment Programs.
Sequence ent programs are available for amino acid sequences, e.g., the "Clustal Omega", "Clustal X", "MAP", "PIMA", "MSA", "BLOCKMAKER", "M",EME and "Match-Box" programs. Generally, any of these programs are used at default settings, although one of skill in the art can alter these gs as needed. Alternatively, one of skill in the art can utilize another algorithm or computer program which provides at least the level of identity or alignment as that provided by the referenced algorithms and programs. See, e.g., J. D. Thomson et al, Nucl. Acids. Res, "A comprehensive comparison of multiple sequence ents", 27(13):2682—2690 (1999). As used , the term "operably linked" refers to both expression control sequences that are contiguous with the gene of interest and expression control ces that act in trans or at a distance to l the gene of interest.
A "replication-defective virus" or "viral vector" refers to a synthetic or artificial viral particle in which an sion cassette containing a gene of interest is packaged in a viral capsid or envelope, where any viral c sequences also packaged within the viral capsid or envelope are replication-deficient, i.e., they cannot generate progeny virions but retain the ability to infect target cells. In one embodiment, the genome of the viral vector does not include genes ng the enzymes required to replicate (the genome can be engineered to be "gutless" - containing only the transgene of interest flanked by the signals required for amplification and packaging of the artificial genome), but these genes may be supplied during tion. Therefore, it is deemed safe for use in gene therapy since replication and infection by progeny virions cannot occur except in the presence of the viral enzyme required for replication.
The iation "sc" refers to self-complementary. complementary AAV" refers a plasmid or vector having an sion cassette in which a coding region d by a recombinant AAV nucleic acid sequence has been designed to form an intra-molecular double-stranded DNA template. Upon infection, rather than waiting for cell mediated synthesis of the second strand, the two complementary halves of scAAV will associate to form one double stranded DNA (dsDNA) unit that is ready for immediate replication and transcription. See, e.g., D M McCarty et al, "Self-complementary recombinant adeno- associated virus (scAAV) vectors promote efficient transduction independently of DNA synthesis", Gene Therapy, (August 2001), Vol 8, Number 16, Pages 1248-1254. Selfcomplementary AAVs are described in, e.g., US. Patent Nos. 6,596,535, 7,125,717, and 7,456,683, each of which is incorporated herein by reference in its entirety.
The term "heterologous" when used with reference to a protein or a nucleic acid indicates that the protein or the nucleic acid comprises two or more sequences or subsequences which are not found in the same onship to each other in nature. For instance, the nucleic acid is lly recombinantly produced, having two or more sequences from ted genes arranged to make a new functional nucleic acid. For example, in one embodiment, the nucleic acid has a promoter from one gene arranged to direct the expression of a coding sequence from a different gene. Thus, with reference to the coding sequence, the promoter is heterologous.
The term "exogenous" when used with reference to a protein or nucleic acid sequences indicates two or more sequences or subsequences which are from different sources, e.g., an AAV and a human protein.
It is to be noted that the term "a" or "an" refers to one or more. As such, the terms "a" (or "an"), "one or more," and "at least one" are used interchangeably .
The words "comprise , comprises", and "comprising" are to be interpreted inclusively rather than exclusively. The words "consist", "consisting", and its variants, are to be interpreted exclusively, rather than ively. While s embodiments in the ication are presented using "comprising" language, under other circumstances, a d embodiment is also intended to be interpreted and described using "consisting of" or "consisting essentially of" language.
As used herein, the term "about" means a variability of 10% from the reference given, unless otherwise specified.
Unless defined otherwise in this specification, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art and by reference to hed texts, which provide one skilled in the art with a general guide to many of the terms used in the present application. rAAV8.aVEGF ation The rAAV8.aVEGF formulation is a sion containing an effective amount of rAAV8.aVEGF vector suspended in an aqueous solution. In certain embodiments, the suspension contains buffered saline, ally with a surfactant and/or other ents. A buffered saline typically contains a logically compatible salt or mixture of salts, e. g. phosphate buffered , sodium chloride, or a mixture thereof.
In one embodiment, the formulation may contain, e.g., about 1 x 108 GC/eye to about 7 x 1012 GC/eye, or about 5 x 109 GC/eye to about 1 x 1011 GC/eye, or about 1010 GC/eye, or about as measured by quCR or digital t PCR (ddPCR) as described in, e.g., M. Lock et al, Hu Gene Therapy Methods, Hum Gene Ther Methods. 2014 (2):115-25. doi: .1089/hgtb.2013. 131. Epub 2014 Feb 14, which is incorporated herein by reference.
For example, a suspension as provided herein may contain both NaCl and KCl. The pH may be in the range of 6.5 to 8, or 7.2 to 7.6. pH may be assessed using any suitable method, e.g., USP <791> [US Pharmacopeial Convention, reference rds]. A le surfactant, or combination of surfactants, may be selected from among a Poloxamers, i.e., nonionic triblock copolymers composed of a central hydrophobic chain of polyoxypropylene (poly(propylene oxide)) flanked by two hilic chains of polyoxyethylene (poly(ethylene oxide)), SOLUTOL HS 15 (Macrogol-15 Hydroxystearate), LABRASOL (Polyoxy capryllic glyceride), polyoxy 10 oleyl ether, TWEEN (polyoxyethylene sorbitan fatty acid esters), ethanol and polyethylene glycol. In one embodiment, the formulation contains a poloxamer. These copolymers are commonly named with the letter "P" (for poloxamer) followed by three digits: the first two digits x 100 give the approximate molecular mass of the polyoxypropylene core, and the last digit x 10 gives the percentage yethylene content. In one embodiment Poloxamer 188 is selected. The surfactant may be present in an amount up to about 0.0005 % to about 0.001% of the suspension. In one embodiment, the rAAV8.aVEGF ation is a suspension containing at least 1x1011 genome copies L, or greater, e.g., about 1 X 1013 GC/mL as measured by quCR or digital droplet PCR (ddPCR) as described in, e.g., M. Lock et al, Hu Gene Therapy Methods, Hum Gene Ther Methods. 2014 Apr,25(2):115-25. doi: 10.1089/hgtb.2013. 131. Epub 2014 Feb 14, which is incorporated herein by reference. In one ment, the vector is suspended in an s on containing 180 mM sodium chloride, 10 mM sodium phosphate, 0.001% Poloxamer 188, pH 7.3. The formulation is le for use in human subjects and is administered subretinally.
In order to ensure that empty capsids are removed from the dose of AAV8.aVEGF that is administered to patients, empty capsids are separated from vector particles during the vector purification process. In one embodiment, the vector particles containing packaged genomes are purified from empty capsids using the s described in International Patent Application No. PCT/US 16/65976, filed December 9, 2016 and its priority documents, US Patent Appln Nos. 62/322,098, filed April 13, 2016 and 62/266,341, filed on December 11, 2015, and entitled "Scalable Purification Method for AAV8", Which is incorporated by nce herein. Briefly, a two-step purification scheme is described Which selectively captures and isolates the genome-containing rAAV vector particles from the clarified, trated supernatant of a rAAV production cell culture. The process utilizes an affinity capture method performed at a high salt concentration followed by an anion exchange resin method performed at high pH to provide rAAV vector particles Which are substantially free ofrAAV intermediates.
In one embodiment, the pH used is from 10 to 10.4 (about 10.2) and the rAAV particles are at least about 50% to about 90% purified from AAV8 intermediates, or a pH of .2 and about 90% to about 99% purified from AAV8 intermediates. In one embodiment, this is determined by genome copies. A stock or ation of rAAV8 particles (packaged genomes) is "substantially free" of AAV empty capsids (and other intermediates) When the rAAV8 particles in the stock are at least about 75% to about 100%, at least about 80%, at least about 85%, at least about 90%, at least about 95%, or at least 99% of the rAAV8 in the stock and "empty capsids" are less than about 1%, less than about 5%, less than about 10%, less than about 15% of the rAAV8 in the stock or preparation. In one embodiment, the formulation is be characterized by an rAAV stock having a ratio of "empty" to "full" of l or less, preferably less than 0.75, more ably, 0.5, preferably less than 0.3.
In a r embodiment, the average yield of rAAV particles is at least about 70%.
This may be calculated by determining titer (genome copies) in the mixture loaded onto the column and the amount presence in the final elutions. Further, these may be determined based on q-PCR analysis and/or SDS-PAGE ques such as those described herein or those Which have been described in the art.
For example, to calculate empty and full le content, VP3 band volumes for a selected sample (e.g., an iodixanol gradient-purified preparation Where # of GC = # of particles) are plotted against GC particles . The resulting linear equation (y = mx+c) is used to calculate the number of particles in the band volumes of the test article peaks. The number of les (pt) per 20 uL loaded is then multiplied by 50 to give particles (pt) /mL. Pt/mL divided by GC/mL gives the ratio of particles to genome copies (pt/GC). Pt/mL—GC/mL gives empty pt/mL. Empty pt/mL divided by pt/mL and x 100 gives the tage of empty particles.
Generally, methods for assaying for empty eapsids and A AV vector particles with packaged genomes have been known in the art. See, e. g, Grimm et al, Gene Therapy (l 999) 6: l322—l330, Soininer et al.,MoZec. filial", (2003) 7: l22—l28 To test for denatured capsid, the methods include subjecting the treated AAV stock to SDS—polyaeiylamide gel electrophoresis, consisting of any gel capable of separating the three capsid proteins, for example, a gradient gel containing 3—89in —aeetate in the buffer, then mnning the gel until sample material is separated, and blotting the gel onto nylon or nitrocellulose membranes, preferably nylon. Anti—A AV eapsid antibodies are then used as the primary antibodies that bind to red capsid ns, preterably an anti~AAV capsid monoclonal antibody, most preferably the El anti—AAVQ monoclonal antibody (Wobus et al, J. Viral, (2000) 74:928l— 9293). A secondary antibody is then used, one that binds to the primary antibody and contains a means for detecting binding with the y antibody, more preferably an an ti- lgG dy containing a detection molecule covalently bound to it, most preferably a sheep an ti ~rnou st lgG antibody covalently linked to horseradish peroxidase. A method for ing binding is used to semi-quantitatively determine binding between the primary and secondary antibodies, preferably a detection method capable of detecting radioactive isotope emissions, electromagnetic radiation, or colorimetric changes, most preferably a chemiluminescence detection kit. For example, for SDS-PAGE, samples from column fractions can be taken and heated in SDSJ’AGE g buffer containing reducing agent (c.g Eli"), and capsid proteins were resolved on pre—cast nt poly acylaniide gels (cg.
Novex). Silver staining may be performed using SilverXpress (lnvitrogerij CA) according to the manufacturer's instructions. in one embodiment, the tration ol‘AAV vector genomes {vg) in column fractions can be measured by quantitative real time PCR tQ-PCR).
Samples are d and digested with DNase l (or another suitable nuclease) to remove exogenous DNA. Alter inactivation of the nuclease, the samples are er diluted and ied u sing primers and a ’l‘aolvlanl‘M geriie probe specific for the DNA sequence between the primers. The number of cycles required to reach a delined level of iluorescence (threshold cycle? Ct) is measured for each sample on an Applied Biosystems Prism 7700 Sequence Detection System. Plasmid DNA containing identical sequences to that contained in the AAV vector is employed to te a standard curve in the (243th reaction The cycle threshold (Ct) values obtained from the samples are used to ine vector genome titer by nonnalising it to the Ct value of the plasmid standard curve. End—point assays based on the digital PCR can also be used, in one aspect, an optimized q-PCR method is provided herein which utilizes a broad spectrum serine protease, eg proteinase K (such as is commercially available from Qiagen).
More particularly, the zed dl’CR genome titer assay is similar to a standard assay, except that after the DNase l digestion? samples are d with proteinase K buffer and treated with proteinase K followed by heat inactivation. Suitably samples are diluted with proteinase K butler in an amount equal to the sample size. The proteinase K buffer may be concentrated to 2 fold or higher. 'l‘ypically, nase K treatment is about (12 mg/mli, but may be varied from (ll nig/mL to about 1 nig/mL. The treatment step is generally conducted at about 55 CC for about l5 minutes, but may he med at a lower temperature (e.g about 37 0C to about 50 0C) over a longer time period (eg. about 20 minutes to about 30. minutes)? or a higher temperature (egg up to about 60 0C) for a shorter time period (egg about 5 to l0 minutes). Similarly; heat inactivation is generally at about 95 0C for about l5 minutes, but the temperature may be lowered (egg about 70 to about 90 0C) and the time extended (eg. about 20 minutes to about 30 minutes). Samples are then diluted (egg, lOOO fold) and sub} ected to TaqMan analysis as described in the standard assay.
Additionally, or atively, droplet digital l’CR (ddl’CR) may be used. For example, methods for determining single—stranded and sell—complementary A139! vector genome titers by ddl’CR have been described. See, erg, lvl Lock et all llu Gene 'l'herapy Methods, Hum Gene Ther s. 2014 Apr;25(2): l l5-25. doi: ll). lOXQ/hgtblfifl. I31.
Epub 20M Feb l4.
Manufacturing The rAAV8aVEGF vector can be manufactured as shown in the flow diagram shown in FIG 9. Briefly, cells (6. g. HEK 293 cells) are propagated in a suitable cell e system and transfected for vector generation. The rAAV8.aVEGF vector can then be harvested, concentrated and purified to prepare bulk vector which is then filled and finished in a downstream process. Methods for manufacturing the gene y vectors described herein include methods well known in the art such as generation of plasmid DNA used for production of the gene therapy vectors, generation of the vectors, and purification of the vectors. In some embodiments, the gene therapy vector is an AAV vector and the plasmids generated are an AAV cis-plasmid encoding the AAV genome and the gene of interest, an AAV trans-plasmid containing AAV rep and cap genes, and an adenovirus helper plasmid.
The vector generation process can include method steps such as initiation of cell culture, passage of cells, seeding of cells, transfection of cells with the plasmid DNA, post- transfection medium exchange to serum free medium, and the harvest of vector-containing cells and culture media. The harvested vector-containing cells and culture media are referred to herein as crude cell harvest.
The crude cell harvest may fter be subject method steps such as concentration of the vector harvest, diafiltration of the vector t, microfluidization of the vector t, nuclease digestion of the vector harvest, filtration of microfluidized intermediate, purification by chromatography, purification by entrifugation, buffer exchange by tangential flow filtration, and ation and filtration to prepare bulk vector.
In a specific embodiment, the methods used for cturing the gene therapy vectors are described in the es herein.
Patient Population Patients who are candidates for treatment include those with neovascular lated macular degeneration, r edema following retinal vein ion (RVO), diabetic macular edema (DME), diabetic retinopathy (non-proliferative diabetic retinopathy (NPDR), proliferative diabetic retinopathy (PDR) in patients with DME, diabetic retinopathy in patients with diabetic macular edema. These patients are particularly well suited for subretinal treatment with an AAV8aVEGF composition as described herein.
Patients who are candidates for cular, including, e.g., subretinal and/or intravitreal administration, with an AAV8aVEGF as described herein include those with macular degeneration, neovascular/wet/exudative age-related macular degeneration, macular edema following retinal vein occlusion (RVO) (including central retinal vein occlusion (CRVO) and branch l vein occlusion (BRVO)) central/hemi/branch retinal vein occlusion, retinal artery occlusion, retinal neovascularization, diabetic macular edema (DME), ic retinopathy (non-proliferative diabetic retinopathy , proliferative diabetic retinopathy (PDR)) in patients with DME, diabetic retinopathy without macular edema (including pre-treatment of vitrectomy for proliferative ic retinopathy), active photocoagulated diabetic retinopathy, choroidal neovascularization, rare causes of choroidal neovascularization (angioid streaks, choroiditis [including ditis secondary to ocular histoplasmosis], idiopathic degenerative myopia, retinal dystrophies, rubeosis iridis, and trauma), idiopathic choroidal neovascularization, corneal neovascularization, retinopathy of prematurity, optic nerve head perfusion, retrolental fibroplasia, retinal degeneration, vitreomacular on syndrome, retinal detachment, diabetic traction retinal ment, submacular vascularized pigment epithelial detachments, Vogt Koyanagi Harada Disease, pigment epithelial detachment, pigment epithelium rip, vitreoretinopathy erative, vitreoretinal surgery in diabetic tractional retinal detachment, polypoidal choroidal vasculopathy, punctate inner choroidopathy (PIC), multifocal choroiditis, central serous chorioretinopathy (CSC), inous choroiditis, vitreous hemorrhage, pars plana vitrectomy for vitreous hemorrhage, diabetic premacular hemorrhage with active fibrovascular proliferation, Choroidal hemorrhage amblyopia, myopia, myopic choroidal neovascularization, dal subfoveal/juxtafoveal neovascularization in high myopia, choroidal melanoma, ocular histoplasmosis syndrome, tecalcitrant inflammatory ocular neovascularization scularization, tuberculosis, multifocal serpiginous ditis, harada toxoplasmosis), Pseudoxanthoma elasticum, hereditary eye diseases, corneal endothelial cell loss, Vogt Koyanagi Harada Disease, non-arteritic anterior ischemic optic neuropathy, cystoid macular edema, refractory cystoid macular oedema, idiopathic macular iectasia, Coat's e (Coates' disease, also known as exudative retinitis or retinal telangiectasis), glaucoma, neovascular glaucoma, steroid-induced glaucoma, ocular ension, Glaucoma surgery, l of wound healing , uveal ma, uveitis, radiation maculopathy, pattern dystrophy, ion retinopathy, radiation necrosis, Hippel- Lindau Disease; Von Hippel-Lindau Syndrome; endophthalmitis; neuromyelitis optica spectrum disorder; ium; primary pterygium ding as adjunctive therapy for primary pterygium surgery); recurrent pterygium; retinal drusen; eye neoplasms; cular melanoma; cataract; corneal graft failure; trabeculectomy; lipid keratopathy; ating keratoplasty; herpetic keratopathy; rosacea; retinal angioma; retinovascular disease; vision disorders; retinopathy proliferative; iris neovascularization (NV); corneal NV; including ; pars planitis sarcoid or Eale’s e.
Patients Who are candidates for treatment With an AAV8.aVEGF (the anti-VEGF ene product) in a regimen Which involves a combination With; but not limited to 24GyE ; l6GyE; Xylocaine; acaine Hydrochloride; Tetravisc; Acuvail; Zimura; Triamcinolone acetonide; Ranibizumab; or Ozurdex. Examples of suitable indications include those in the preceding paragraph. For example; a combination regimen involving an AAV8.aVEGF With one or more of the drugs listed above; may be used for ent of exudative age-related macular degeneration; central l vein occlusion; idiopathic polypoidal choroidal vasculopathy; and/or diabetic macular edema.
The AAV8.aVEGF composition described herein are also useful in preventing vascularization in a number of cancers; neoplasms and other diseases associated With VEGF.
Such compositions may be administered for any suitable route; including; e.g.; intravenous; intralesional; direct delivery to a tumor or organ; among others. Such patients may include those With Acute blastic Leukemia (ALL); Acute Myeloid ia (AML); Adrenocortical Carcinoma; Adrenocortical Carcinoma; AIDS-Related Cancers; Kaposi Sarcoma; AIDS-Related Lymphoma; Primary CNS Lymphoma; Anal Cancer; Appendix Cancer; Astrocytomas; Atypical Teratoid/Rhabdoid Tumor; Basal Cell Carcinoma of the Skin; Bladder Cancer; Bone Cancer (includes Ewing Sarcoma and Osteosarcoma and Malignant Fibrous Histiocytoma); Brain Tumors; Breast Cancer; Bronchial Tumors; Burkitt Lymphoma; Non-Hodgkin Lymphoma; Carcinoid Tumors; Carcinoma of n Primary; Cardiac Tumors; Central Nervous System Atypical Teratoid/Rhabdoid Tumor; Embryonal Tumors; Germ Cell Tumor; Primary CNS Lymphoma; Cervical Cancer; Unusual Cancers of Childhood; Cholangiocarcinoma; Bile Duct Cancer; Chordoma; Chronic cytic Leukemia (CLL); c Myelogenous ia (CML); Chronic Myeloproliferative Neoplasms; Colorectal Cancer; Craniopharyngioma; Cutaneous T-Cell Lymphoma; Ductal Carcinoma In Situ (DCIS); Central Nervous System Embryonal Tumors; Endometrial Cancer, Ependymoma, Esophageal Cancer, Esthesioneuroblastoma, Ewing Sarcoma , ranial Germ Cell Tumor, Extragonadal Germ Cell Tumor, Eye Cancer, Intraocular Melanoma, Retinoblastoma, Fallopian Tube Cancer, Fibrous Histiocytoma of Bone, Malignant, Osteosarcoma, Gallbladder Cancer, Gastric Cancer, Childhood Gastric Cancer, Gastrointestinal Stromal Tumors (GIST), Germ Cell Tumors, Childhood Central Nervous System Germ Cell Tumors, Childhood Extracranial Germ Cell Tumors, Extragonadal Germ Cell , Ovarian Germ Cell Tumors, Testicular Cancer, Gestational Trophoblastic Disease, Hairy Cell Leukemia, Head and Neck Cancer, Heart Tumors, Hepatocellular Cancer, Histiocytosis, Langerhans Cell, Hodgkin Lymphoma, Hypopharyngeal Cancer, Intraocular Melanoma, Islet Cell Tumors, atic Neuroendocrine Tumors, Kaposi Sarcoma, Kidney Cancer, Langerhans Cell cytosis, Laryngeal Cancer, ood Laryngeal Cancer and Papillomatosis, Leukemia, Lip and Oral Cavity Cancer, Liver Cancer, Lung Cancer (Non-Small Cell and Small Cell), Childhood Lung Cancer, Lymphoma, Male Breast Cancer, Malignant Fibrous Histiocytoma of Bone and Osteosarcoma, Melanoma, cular Melanoma, Merkel Cell Carcinoma, Malignant Mesothelioma, Metastatic Cancer, Metastatic Squamous Neck Cancer With Occult Primary, Midline Tract Carcinoma Involving NUT Gene, Mouth Cancer, Multiple Endocrine Neoplasia Syndromes, Multiple Myeloma/Plasma Cell Neoplasms, s Fungoides, Myelodysplastic Syndromes, Myelodysplastic, Myeloproliferative Neoplasms, Myelogenous Leukemia, Chronic (CML), Acute Myeloid Leukemia (AML), Chronic roliferative Neoplasms, Nasal Cavity and Paranasal Sinus Cancer, Nasopharyngeal Cancer, Neuroblastoma, Non-Hodgkin Lymphoma, Oral Cancer, Lip and Oral Cavity Cancer and Oropharyngeal Cancer, Osteosarcoma and Malignant s Histiocytoma of Bone, Ovarian Cancer, Pancreatic Cancer, Pancreatic Neuroendocrine Tumors, Papillomatosis, Paraganglioma, Paranasal Sinus and Nasal Cavity Cancer, Parathyroid , Penile Cancer, geal Cancer, Pheochromocytoma, Plasma Cell Neoplasm/Multiple Myeloma, Pleuropulmonary ma, ncy and Breast Cancer, Primary l s System (CNS) Lymphoma, y Peritoneal Cancer, Prostate Cancer, Rectal Cancer, Recurrent Cancer, Renal Cell , Retinoblastoma, Salivary Gland , Sarcoma, Childhood Rhabdomyosarcoma, Childhood Vascular Tumors, Ewing Sarcoma, Osteosarcoma, Uterine Sarcoma, Sezary Syndrome, Skin Cancer, Small Cell Lung Cancer, Small ine Cancer, Soft Tissue Sarcoma, Squamous Cell Carcinoma of the Skin, Squamous Neck Cancer With Occult Primary, Metastatic, Stomach Cancer, Cutaneous T-Cell Lymphoma, Testicular Cancer, Throat Cancer, aryngeal Cancer, Oropharyngeal Cancer, Hypopharyngeal Cancer, Thymoma and Thymic Carcinoma, Thyroid Cancer, tional Cell Cancer of the Renal Pelvis and Ureter (Kidney (Renal Cell) Cancer), Carcinoma of Unknown Primary, Childhood Cancer of n Primary, Unusual Cancers of Childhood, Ureter and Renal Pelvis, al Cancer, Endometrial Uterine Cancer, Uterine Sarcoma, Uterine Leiomyosarcomas, Vaginal Cancer, Vascular Tumors, Vulvar , Wilms Tumor and Other Childhood Kidney Tumors, abdominal neoplasms (adenocarcinoma, hepatocellular, papillary serous ian, Lapatinib, colorectal, ovarian, fallopian tube, peritoneal ncer/neoplasms/carcinoma/tumors), lymphoproliferative disorder, small intestine cancer, acoustic neuroma(e.g. vestibular Schwannoma, Neurofibromatosis Type 2), acute myeloid leukemia, acute respiratory distress syndrome (ARDS), head and neck cancer, squamous cell carcinoma, multiple myeloma, nonhodgkin's ma, B-cell lymphoma, a, neuroblastoma, advanced cancer, alignant sms of female genital organs, metastatic or ctable solid tumor, anaplastic astrocytoma, Colon Cancer, Metastatic Melanoma, Malignant Ascites, Renal Cell Carcinoma, Glioblastoma, Gliosarcoma, Colorectal Liver Metastases, Advanced Malignancy, Myeloma, Gestational Trophoblastic Neoplasia, Choriocarcinoma, Placental Site Trophoblastic Tumor, Epithelioid blastic Tumor, Biliary Tract Cancer, Malignant Glioma, Cervical Cancer, Uterine Cancer, Mesothelioma. Candidates thereof are treated With said composition alone or in combination With anti-cancer treatments, for example but not d to paclitaxel, carboplatin, oxaliplatin, radiation, capecitabine, irinotecan, fluorouracil, doxorubin hydrochloride liposome, erlotinib hydrochloride, irinotecan hydrochloride, Irinotecan hydrochloride hydrate (CPT-l l), abine hloride, Pazopanib hloride, topotecan hydrochloride, Trifluridine/tipiracil hydrochloride, Pegylated Liposomal Doxorubicin Hydrochloride, enzastaurin hydrochloride, mitoxantrone hydrochloride, epirubicin hydrochloride, docetaxel, gemcitabine, erlotinib, cisplatin, chemotherapy, cetuXimab, FOLFIRI-Cetuximab, 5-Fluorouracil (5-FU), LVSFUZ, cyclophosphamide, temozolomide, pemetrexed, linate calcium (l-LV), Leucovorin Calcium, FOLFOX, FOLFOX6, mFOLFOX, FOLFOXIRI, FOLFIRI, doxorubicin, mal bicin, doxorubicin HCL liposome, Sorafenib Tosylate, sorafenib, triamcinolone, Triamcinolone acetonide, trastuzumab, imus, sunitinib, dexamethasone, conventional surgery, xeloda, radiotherapy, temsirolimus, nib, Leucovorin (LV), 1- LV, anitumumab, epirubicin, orfin, AMG 655, Amgen 386, AMG 479, AMG 706, AMG 951, AMG 102, Folinic Acid, olinic acid, etoposide, BAY 43-9006, atezolizumab, Interferon Alfa-2b, Interferon alpha-2a, interferon alfa, Gamma-Interferon- 1b, Photodynamic Therapy, vinorelbine tartrate, vinorelbine, topotecan, tarceva, pemetreXed disodium, estramustine phosphate sodium, stat sodium, XELOX, RAD001, pegfilgrastim, paclitaXel albumin-stabilized nanoparticle formulation, umab, Stereotactic Radiosurgery (SRS), Stereotactic Radiation, ozurdeX, letrozole, AG—013736 (aXitinib), filgrastim, inib, cediranib maleate, cediranib, bortezomib, abraXane, vorinostat, vincristine, TRC105, rituXimab, regorafenib, pembrolizumab, methotreXate, imatinib, Herceptin, tecentriq, 0Xaliplatin (OXA), lomustine, iXabepilone, CPT-l 1, CGC- 11047, vinorelbine tartrat, tartrate, prednisone, nivolumab, fulvestrant, enzastaurin, d0Xil, AZD2014, AZD2281, AZD2171, 7, AZD5363, AZD8931, Vitamin B12, Vitamin C, Vitamin D, Valproic acid, mitomycin C, Cediranib Maleate, lenalidomide, lapatinib, HAI AbraXane, HAI Irinotecan, GDC-0941, GDC-0449, GDC-0980, bicalutamide, Xeliri, vandetanib, thalidomide, cin, olaparib, NovoTTF100A, ine, metmab, Imatinib Mesylate (Gleevec), mide, hydr0Xychloroquine, and GM-CSF.
Still other le conditions for treatment may e, e.g., Hemophilia, tis, Hypertension, keloid, inflammation, Radiation Necrosis, and Neoplastic Meningitis. These and the conditions described above may be delivered by any suitable route, except where subretinal or another type of administration to the eye is ied.
In certain embodiments, patients receive a single dose of rAAV8.aVEGF administered subretinally. For example, this is particularly well suited for treatment of neovascular age-related macular degeneration, macular edema following retinal vein occlusion (RVO), diabetic macular edema (DME), diabetic retinophathy (non-proliferative diabetic retinopathy (NPDR), proliferative diabetic retinopathy (PDR) in patients with DME, diabetic retinopathy in patients with ic macular edema.
The dose of rAAV8.aVEGF administered to a patient is at least 1 X 109 GC/eye to 1 X 1013 GC/eye, or at least 1 X 1010 GC/eye to about 7.5 X 1012 GC/eye (as ed by quCR or ddPCR). However, other doses may be ed. For eXample, therapeutically effective subretinal doses of the rAAV8.aVEGF for patients may range from about 6.6 X 109 GC/eye to about 6.6 X 1011GC/eye, most preferably, 6.6 X 1010 GC/eye, in an injection volume ranging from about 0.1 mL to about 0.5 mL, preferably in 0.1 to 0.15 mL (100 — 150 ul). In still other embodiments, therapeutically ive concentrations may be about 1X105 concentration can be 1 X 105 GC/uL to l X109 GC/uL, and the volume of injection for any GC concentration in that range can be from 10 uL to 300 uL.
In certain embodiments, patients may receive an rAAV8.aVEGF by subretinal administration by a retinal surgeon under local anesthesia. The procedure may involve standard 3 port pars plana vitrectomy With a core vitrectomy followed by subretinal ry into the subretinal space by a subretinal cannula (36 to 41 gauge). In certain embodiments, 100 to 150 microliters of rAAV8.aVEGF Will be delivered.
In some embodiments, rAAV8.aVEGF is administered in ation With one or more therapies for the ent of wetAMD or another selected disorder. In some embodiments, rAAVaVEGF is administered in combination With laser coagulation, photodynamic therapy With orfin, and intravitreal With anti-VEGF agent, including but not limited to anib, zumab, aflibercept, or bevacizumab.
In certain embodiments, patients for rAAV8.aVEGF therapy may include those Which have previously responded to conventional anti-VEGF antibody (Fab) ent.
The goal of the gene therapy treatment of the invention is to slow or arrest the progression of l degeneration, and to slow or prevent loss of vision with minimal intervention/invasive ures. In certain embodiments, the efficacy of the gene therapy treatment may be indicated by the elimination of or ion in the number of rescue treatments using standard of care, for example, intravitreal injections With anti-VEGF agents, including but not limited to pegaptanib, ranibizumab, aflibercept, or bevacizumab.
In certain embodiments, cy by measured by one or more of the following: Vision change, visual , including best corrected visual acuity measured by (BCVA) score, Snellen chard or Early Treatment Diabetic Retinopathy (ETDRS) visual acuity score, percentage of subjects losing or gaining measured by ETDRS, distance best corrected visual acuity, reading best corrected visual acuity, change in NEI Visual Functioning Questionnaire-25 (VFQ-25) score of vision-related y of life, contrast , questionnaire sensitivity ed by Pelli-Robson charts, ntrast visual acuity on Electronic Visual Acuity Tester, peripheral visual field as measured by Goldmann visual field, mean angle opening distance and trabecular-iris spur area measured by Heidelberg Slit-Lamp Optical Coherence Tomography, Preferential-Hyperacuity-Perimeter (PHP) testing of Age Related Macular Degeneration (AMD) by characterizing central and paracentral metamorphopsia, retinal sensitivity (meRG, Nidek MP-l microperimetry), Visual Analog Scale (VAS), Macular Mapping Test, electrophysiological changes, including oretinogram (ERG), pattern electroretinography (PERG) and full field (or flash) electroretinography (flERG), multifocal electroretinography (meRG), meRG central ring amplitude density, mean retinal sensitivity (dB) in three concentric rings (4°, 8° & 12°), visual evoked potential (VEP): ECG ters included PR interval, QRS interval, and corrected QT interval using icia's formula (QTcF). Anatomical changes, including regression ofNVE (retinal neovascularization), CNVM (Choroidal Neovascular Membranes), changes measured using optical coherence topography (OCT), including macular volume, macular thickness, l macular d thickness, l volume (inner retinal volume and outer retinal volume), retinal thickness, central retinal thickness, central d retinal thickness (CSRT), subfoveal retinal thickness (SRT), foveal thickness, maximum diameter of foveal lar zone, integrity of l layers, al limiting membrane (ELM) integrity, ellipsoidal line/band integrity, lens status, lens opacity, neovascular membrane regression percentage measured by Optical coherence tomography angiography (OCTA), degree of integrity of the photoreceptors in the inner/outer segments layer in the 1 mm centered in the fovea.
Optionally, during trial, AMD lesion size and leakage may be by fluorescein angiography, change in total lesion size and CNV (choroidal neovascularization) size by fluorescein angiography (FA) and Indocyanine green angiography (ICG), active CNV leakage Which may include subretinal fluid or hemorrhage, area of leakage, area of macular leakage, change in percentage of lesion hemorrhage, change in drusen size, amount of fluid, intra-retinal d changes (IRCs) , vessel density, ce of intra/sub-retinal fluid, tinal fluid (SRF) height and diameter, intraretinal fluid volume, anterior chamber reaction, chorioretinal perfusion (ICG), development of geographic atrophy (GA) as ed by fundus photography (FP) and/or fundus autofluorescence (AF), presence and extension of capillary occlusion, peripheral retinal ischemia, r ivity using microperimetry, neovascularization of the iris, neovascularization of the angle, diabetic retinopathy.
In certain embodiments, subretinal and/or intra-retinal injection of the AAV8.aVEGF results in plasma and serum levels free of the aVEGF.
In certain ments, efficacy may be monitored by measuring BCVA (Best- Corrected Visual Acuity), intraocular pressure, slit lamp biomicroscopy, indirect ophthalmoscopy, SD-OCT (SD-Optical Coherence Tomography). Signs of vision loss, infection, inflammation and other safety events, including retinal detachment may also be SD-OCT is a useful vasive, in vivo cross-sectional retinal microscopy technique. Suitable equipment is commercially available. See, e.g., Spectralis OCT, Heidelberg ering, Carlsbad, CA. In brief, this technique may be performed by dilating pupils. En face retinal imaging can be performed with near infrared (NIR) reflectance (REF) and/or with NIR fundus autofluorescence (FAF) using the scanning laser ophthalmoscope of this imaging system. al domain optical coherence aphy scanning can be performed with 9 mm long horizontal and vertical cross-sections through the fovea and overlapping 30 X 25 mm raster scans extending into the near midperiphery. The parameters may be modified as , or other suitable parameters determined comparable.
Retinal function can be evaluated by a full-field electroretinogram (ERG). An ERG is a mass electrical potential generated by the retina in response to light stimulus. Usually, it is recorded by an electrode in contact with the corneal surface. Electroretinograms can be I5 conducted in accordance with the recommendations set by the International Society for Clinical Electrophysiology of Vision (ISCEV, McCulloch, Doc lmol. 2015 Feb,l30(l): 1-12. 2015). In summary, an electroretinogram (ERG) is usually generated when all retinal cells actively respond to a flash stimulation (a dark-adapted animal, moderate to intense flash). The 2 components are the following: 0 a-wave: comea-negative signal, first after the flash. Origin: eceptor urrent, the most direct signature of photoreceptor function. 0 b-wave: comea-positive signal following the a-wave generated mostly by on- bipolar cells (second order neurons downstream from photoreceptors). In the es described below, the following International y for Clinical Electrophysiology of Vision (ISCEV) standard and additional protocols were used. However, these parameters may be adjusted as needed or required. Dark-adapted rod ERG: Stimulus intensity: 0.01 to 0.02 cd s m'z. Response: b-wave only, no a-wave. : rod "on" bipolar cells (second order neurons driven by input from rods). Meaning: a measure of rod function. Dark- adapted rd flash ERG: Stimulus intensity: 3 cd s m'z. Response: combined rod-cone a- and b-waves, 60% to 70% of the signal being generated by the rod-driven pathway. Source: photoreceptors, both rods and cones (a-wave), higher order neurons driven by both rods and cones. Meaning: a measure of mostly rod function, less ive to the state of dark adaptation and less variable than the "dim flash" response. Dark-adapted bright flash ERG: Stimulus intensity: 10 cd s m'z. Response and meaning: same as for the "standard flash" response, but bright flash response is larger in magnitude and may be less variable. Lightadapted rd flash cone ERG: Stimulus intensity: 3 cd s m'z, delivered in presence of 30 cd m'2 background light after 5 minutes of light adaptation. Response: a- and b-waves generated by cone-driven pathways. Meaning: in presence of background light which completely itizes rods the ERG is produced exclusively by cones and cone-driven secondary retinal neurons and is a measure of the cone function. Light-adapted bright flash cone ERG (in addition to the ISCEV standard): Stimulus intensity: 10 cd s m'z, delivered in presence of 30 cd m'2 background light after 5 minutes of light adaptation. Response and meaning: cone-driven ERG as in case of the "Standard cone ERG", but of greater magnitude and ially less variable. ERG measures (a-wave amplitude, a-wave implicit time, b- wave amplitude, b-wave implicit time) were summarized using mean and standard deviation (SD) for treated eyes and l eye.
Another measure of efficacy may include a lack of thickening of the retina.
As illustrated in the es below, administration of 1 X 1010 GC/eye of an AAV8.aVEFG vector causes no impairment to retinal function. This dose is not a limitation on the therapeutically effective amounts which can be administered.
Measuring Clinical Objectives Safety of the gene therapy vector after administration can be assessed by the number of adverse events, s noted on physical examination, and/or clinical laboratory parameters assessed at multiple time points up to about 36 months post vector administration. Although logical effect may be observed earlier, e.g., in about 1 day to one week, in one embodiment, steady state levels expression levels are reached by about 12 weeks.
Improvement/efficacy resulting from rAAV.aVEGF administration can be assessed as a defined mean change in baseline in visual acuity at about 12 weeks, 12 , 24 months, 36 , or at other desired time points. Other improvements/efficacy can be assessed as mean change from ne in central retinal thickness as measured by spectral domain optical coherence aphy T) at 12, 24 and 36 months.
In some embodiments, treatment with VEGF results in a 5%, 10%, 15%, 20%, 30%, 40%, 50% or more increase in visual acuity from baseline. In some embodiments, ent with rAAV.aVEGF results in a decrease, e.g., about 5%, about 10%, about 15%, about 20%, about 30%, about 40%, about 50% or more decrease in central retinal thickness . In other embodiments, the central retinal thickness is stable, i.e., no increase in central retinal thickness. In certain embodiments, a measure of efficacy includes stabilizing retinal thickness, and/or stabilizing/decreasing) exudate and/or drusen.
In one embodiment, sion may be observed as early as about 8 hours to about 24 hours post-dosing. One or more of the desired al effects described above may be observed within several days to several weeks post-dosing.
The invention is illustrated by the examples below which demonstrate that subretinal stration of an rAAV8.aVEGF vector results in gene transfer throughout the retina, and expression of anti-VEGF Fab throughout the retina and in the us and anterior r fluids. This result is surprising in view of prior art gene therapy s that demonstrated that gene er spreads laterally outside of the original injection bleb but remains confined to those expanded boundaries and did not achieve gene transfer and transgene expression outside this expanded area of injection (the "bleb" formed in the retina at the injection site), and offers an advantage over standard of care treatment for nAMD in that a single administration of the rAAV8.aVEGF vector should result in (i) continuous delivery of the ive amounts of the VEGF inhibitor hout the retina which may in turn improve performance as compared to repeated IVT strations of high dose boluses of the VEGF inhibitor that dissipate over time, and (ii) avoidance of repeated ocular injections which pose additional risks and inconvenience to patients. Each aspect may improve therapeutic outcome.
EXAM PLES: The following abbreviations are used in the specification: AAV refers to Adeno- Associated Virus. ACF refers to Anterior Chamber Fluid. Ad5 refers to Adenovirus type 5.
AE refers to Adverse Event. AMD refers to Age-Related Macular Degeneration. BCA refers to Bicinchoninic Acid. BCVA refers to Best-Corrected Visual . BH refers to Bulk Harvest. BI refers to Bqu Drug Substance ediate. BP refers to Base pairs. CB refers to Chicken Beta Actin Promoter. CB7 refers to a hybrid CMV Enhancer (C4) and Chicken B- Actin Promoter. CBC refers to Complete Blood Count. CI refers to chicken B-Actin Intron.
CMC refers to Chemistry, Manufacturing and Control. CMO refers to Contract Manufacturing zation. CMV refers to galovirus. CNV refers to Choroidal Neovascularization. CS-10 refers to Corning 10-layer CellSTACKs® plates. ddPCR refers to Droplet Digital Polymerase Chain Reaction. DLS refers to Dynamic Light Scattering.
DMEM refers to Dulbecco’s Modified Eagle . DNA refers to deoxyribonucleic Acid. DP refers to Drug Product. ELISA refers to Enzyme-Linked Immunosorbent Assay.
ERG refers to electroretinogram. ELISPOT refers to Enzyme Linked Immunospot. Fab refers to Antigen-Binding Fragment. FBS refers to Fetal Bovine Serum. GC refers to Genome Copies. g refers to gram. GLP refers to Good Laboratory Practices. GMP refers to Good Manufacturing Practices. HEK293 refers to Human Embryonic Kidney Cells. HCP refers to Host Cell Protein. HS-36 refers to Corning 36-layer HYPERStacks® ICH refers to International ence on Harmonization. IND refers to Investigational New Drug. IP refers to In-Process. ITR refers to Inverted Terminal Repeat. IU refers to Infectious Unit.
IV refers to Intravenous. IVT refers to Intravitreal. KDa refers to lton. Kg refers to am. LOQ refers to Limit of Quantification. Lucentis® is a brand name zumab.
MCB refers to Master Cell Bank. MED refers to Minimally Effective Dose. ul refers to microliter. mL refers to milliliter. Mm refers to millimeter. mRNA refers to Messenger I5 RNA. MS refers to Mass Spectrometry. Ng refers to Nanogram. NHP refers to Non-Human Primate. OCT refers to Optical Coherence Tomography. quCR refers to Optimized Quantitative Polymerase Chain Reaction. PCR refers to Polymerase Chain Reaction. PD refers to Pharmacodynamics. popPK refers to Population Pharmacokinetics. PEI refers to Polyethylenimine. PK refers to Pharmacokinetics. POC refers to Proof-Of-Concept. PRN refers to pro re nata (as needed). QA refers to Quality Assurance. qPCR refers to tative Polymerase Chain Reaction. rAAV refers to Recombinant Adeno-Associated Virus. RBG refers to Rabbit Beta-Globin. RPE refers to Retinal Pigment Epithelium. S-36 refers to tack®36-layer. SEND refers to Standards for ge of Nonclinical Data. SOC refers to Standard of Care. SOP refers to Standard Operating Procedure. TCID50 refers to Tissue Culture ious Dose 50%. TFF refers to Tangential Flow Filtration. uL refers to Microliter. VA refers to Visual Acuity. VEGF refers to Vascular Endothelial Growth Factor. WAMD refers to Wet lated Macular Degeneration. YAG refers to Yttrium-aluminum-garnet.
EXAMPLE 1: Treating Human Subjects This Example relates to a gene therapy treatment for patients with neovascular (wet) age-related macular ration (nAMD). In this example, the gene therapy vector, VEGF, a replication deficient adeno-associated viral vector 8 (AAV8) ng a coding ce for a soluble EGF Fab protein is administered to patients with nAMD. The goal of the gene therapy treatment is to slow or arrest the progression of retinal degeneration and to slow or prevent loss of vision with minimal intervention/invasive procedures.
A. Gene Therapy Vector The generation of several rAAV8aVEGF gene y vectors is described in Example 2 herein. Moreover, a schematic representation of the rAAV8aVEGF vector genome is shown in FIG 1. rAAV8.aVEGF is a non-replicating recombinant AAV8 viral vector containing a transgene that leads to the production of a human anti-vascular endothelial growth factor (anti-VEGF) antigen binding dy fragment (Fab). The gene cassette is flanked by the AAVZ inverted terminal repeats (ITRs). Expression from the cassette is driven by a CB7 promoter, a hybrid of a cytomegalovirus immediate-early enhancer and the chicken B-actin promoter. Transcription from this promoter is enhanced by the presence of the chicken B-actin . The enylation signal for the expression cassette is from the rabbit B-globin gene. The nucleic acid sequences coding for the heavy and light chains of anti-VEGF Fab are separated by a self-cleaving furin (F)/F2A linker. The oration of the furin-F2A linker ensures expression of about equal amounts of the heavy and the light chain polypeptides.
The final product is supplied as a frozen solution of the AAV vector active ingredient in a formulation buffer in Crystal Zenith® vials sealed with latex-free rubber stoppers and um flip-off seals. Vials are stored at 360°C.
B. Dosing & Route of Administration A volume of 250 uL of rAAV8aVEGF is administered as a single dose via subretinal ry in the eye of a subject in need of treatment. The subject es a dose of3 X 109 GC/eye, l X 1010 GC/eye, or 6 X 1010 GC/eye. rAAV8aVEGF is administered by a single subretinal delivery by a retinal surgeon with the subject under local anesthesia. The procedure involves a rd 3-port pars plana vitrectomy with a core vitrectomy followed by subretinal delivery of rAAV8aVEGF into the subretinal space by a subretinal cannula (38 gauge). The delivery is automated via the vitrectomy machine to deliver 250 uL to the subretinal space. rAAV8aVEGF can be administered in combination with one or more therapies for the treatment of wet AMD. For example, rAAV8aVEGF is administered in ation with laser coagulation, photodynamic therapy with verteporfin, and intravitreal with anti- VEGF agent, including but not limited to pegaptanib, ranibizumab, aflibercept, or bevacizumab.
Starting at about 4 weeks post- rAAV8aVEGF administration, a patient may receive intravitreal ranibizumab rescue y in the affected eye.
C. Patient Subpopulations Suitable ts may include those: Having a diagnosis of nAMD, Responsive to anti-VEGF therapy, Requiring frequent injections of anti-VEGF therapy, Males or females aged 50 years or above, Having a BCVA 520/100 and 220/400 (:65 and 235 ETDRS letters) in the ed eye; Having a BCVA between 520/63 and 220/400 (:75 and 235 ETDRS letters), Having a documented diagnosis of subfoveal CNV secondary to AMD in the affected eye, Having CNV lesion characteristics as follows: lesion size less than 10 disc areas (typical disc area is 2.54 mmz), blood and/or scar <50% of the lesion size, Having received at least 4 intravitreal injections of an anti-VEGF agent for treatment of nAMD in the affected eye in the 8 months (or less) prior to ent, with anatomical response documented on SD-OCT, and/or Having subretinal or intraretinal fluid t in the affected eye, evidenced on SD- OCT.
Prior to treatment, ts are screened and one or more of the following criteria may indicate this therapy is not suitable for the patient: 0 CNV or macular edema in the affected eye secondary to any causes other than 0 Blood ing 250% of the AMD lesion or blood >10 mm2 underlying the fovea in the affected eye, - Any condition preventing VA improvement in the affected eye, e.g., fibrosis, y, or retinal epithelial tear in the center of the fovea, - Active or history of retinal detachment in the affected eye, 0 Advanced glaucoma in the affected eye, - Any condition in the affected eye that may increase the risk to the subject, require either medical or surgical intervention to prevent or treat vision loss, or ere with study procedures or assessments, 0 History of intraocular surgery in the affected eye within 12 weeks prior to screening (Yttrium aluminum garnet otomy may be permitted if med >10 weeks prior to the screening visit), 0 History of intravitreal therapy in the affected eye, such as intravitreal steroid injection or investigational product, other than anti-VEGF therapy, in the 6 months prior to screening, 0 Presence of an implant in the ed eye at screening (excluding intraocular lens).
°History of malignancy requiring chemotherapy and/or radiation in the 5 years prior to screening (Localized basal cell oma may be permitted), 0 History of y known to have caused retinal toxicity, or concominant therapy with any drug that may affect visual acuity or with known l toxicity, e. g, chloroquine or hydroxychloroquine, ° Ocular or periocular infection in the affected eye that may interfere with the surgical ure, 0 Myocardial infarction, cerebrovascular accident, or transient ischemic attacks within the past 6 months of ent, 0 rolled hypertension (systolic blood pressure [BP] >180 mmHg, diastolic BP >100 mmHg) despite maximal medical treatment, 0 Any concomitant treatment that may interfere with ocular surgical procedure or healing process, - Known hypersensitivity to ranibizumab or any of its components or past hypersensitivity to agents like rAAV8.aVEGF, 0 Any serious or unstable medical or psychological condition that, in the opinion of the igator, would compromise the subject’s safety or successful participation in the study.
° Aspartate aminotransferase (AST)/alanine aminotransferase (ALT) >25 X upper limit of normal (ULN) 0 Total bilirubin >l.5 X ULN unless the subject has a previously known history of Gilbert’s syndrome and a fractionated bilirubin that shows conjugated bilirubin <35% of total bilirubin ° Prothrombin time (PT) >l.5 X ULN - obin <10 g/dL for male subjects and <9 g/dL for female subjects . Platelets <100 x 103/uL 0 Estimated glomerular filtration rate (GFR) <30 mL/min/ 1.73 m2 Starting at about 4 weeks post- rAAV8.aVEGF administration, a patient may receive intravitreal ranibizumab rescue therapy in the affected eye for disease activity if 1 or more of the following rescue criteria apply: 0 Vision loss of 25 letters (per Best Corrected Visual Acuity [BCVA]) associated with accumulation of retinal fluid on al Domain l Coherence Tomography (SD- OCT) 0 Choroidal neovascularization (CNV)-related increased, new, or persistent subretinal or intraretinal fluid on SD-OCT ° New ocular hemorrhage Further rescue injections may be deferred per the igator’s discretion if one of the following sets of findings occur: - Visual acuity is 20/20 or better and central retinal thickness is "normal" as assessed by SD-OCT, or 0 Visual acuity and SD-OCT are stable after 2 utive injections.
If ions are deferred, they are resumed if visual acuity or SD-OCT get worse per the criteria above.
D. Measuring Clinical Objectives Primary clinical objectives include slowing or arresting the progression of retinal ration and slowing or preventing loss of vision. Clinical ives are indicated by the elimination of or reduction in the number of rescue treatments using standard of care, for example, intravitreal injections with EGF agents, including but not limited to pegaptanib, ranibizumab, cept, or bevacizumab. Clinical objectives are also indicated by a decrease or prevention of vision loss and/or a decrease or prevention of retinal detachment.
Clinical objectives are determined by measuring BCVA (Best-Corrected Visual Acuity), intraocular pressure, slit lamp biomicroscopy, indirect ophthalmoscopy, and/or SD- OCT (SD-Optical Coherence Tomography). In particular, clinical objectives are determined by measuring mean change from baseline in BCVA over time, measuring the gain or loss of 215 letters compared to baseline as per BCVA, measuring mean change from baseline in CRT as measured by SD-OCT over time, measuring mean number of ranibizumab rescue injections over time, measuring time to 1St rescue ranibizumab injection, measuring mean change from baseline in CNV and lesion size and leakage area based on FA over time, measuring mean change from baseline in s aVEGF protein over time, performing vector shedding analysis in serum and urine, and/or measuring immunogenicity to rAAVaVEGF, i.e., measuring Nabs to AAV, measuring binding antibodies to AAV, measuring antibodies to aVEGF, and/or ming ELISpot.
Clinical objectives are also determined by measuring the mean change from baseline over time in area of geographic atrophy per fundus autofluorescence (FAF), ing the incidence of new area of geographic atrophy by FAF (in subjects with no geographic atrophy at baseline, measuring the proportion of subjects gaining or losing 25 and 210 letters, respectively, ed with baseline as per BCVA, measuring the tion of subjects who have a reduction of 50% in rescue ions compared with previous year, measuring the proportion of subjects with no fluid on SD-OCT.
Improvement/efficacy ing from rAAVaVEGF administration can be assessed as a defined mean change in ne in visual acuity at about 4 weeks, 12 weeks, 6 months, 12 months, 24 months, 36 months, or at other desired timepoints. Treatment with EGF can result in a 5%, 10%, 15%, 20%, 30%, 40%, 50% or more se in visual acuity from baseline. Improvements/efficacy can be assessed as mean change from baseline in l retinal ess (CRT) as measured by spectral domain optical coherence tomography (SD-OCT) at 4 weeks, 12 weeks, 6 months, 12 months, 24 months and 36 months. Treatment with rAAVaVEGF can result in a 5%, 10%, 15%, 20%, 30%, 40%, 50% or more se central retinal thickness from baseline.
EXAMPLE 2: Generation of AAV8.CMV.aVEGF Each of the aVEGF vectors described herein include an expression cassette including apromoter which drives expression of the anti-VEGF Fab heavy chain and light chain, each of which has an IL2 leader sequence. The Fab coding ce in the vector genomes d by the rAAV in the tested composition (suspension) were designed to be identical.
The expression cassette is flanked by a 5' AAV2 ITR and a 3' AAV2 ITR. Each of the tested vector genomes contains a coding sequence variant for the same anti-VEGF Fab (previously designated aVEGF-Arg or aVEGF-R). In certain embodiments, the expressed aVEGF Fab is a homogenous population. In certain embodiments, the expressed aVEGF Fab has heterogeneity at the heavy chain carboxy terminus. The open reading frames for the IL2- aVEGF heavy chain and IL2-aVEGF light chain were separated by an encoded furin cleavage site/F2A linker to promote equal molar sion of both, heavy and light chains.
This results in expression of an aVEGF heavy chain which optionally further ns 0, 1, 2, 3 or 4 amino acids at its y terminus. an arginine, arginine-lysine, arginine-lysine- arginine, or arginine - lysine - arginine - ne at its carboxy terminus .
Various coding sequences are ated aVEGFvl, v2, etc. These vector genomes are provided in the Sequence Listing, which is incorporated by reference.
The following elements to be included in the transgene cassette in AAV2/8 vector for expression of anti-VEGF Fab in mice were evaluated. 0 7 different promoters (98 male 6 mice, Jackson Laboratories) were assessed using a convenient antibody (F16) expressed from AAV2/8. Expression of FI6 mAb was measured by ELISA against hemagglutinin (HA) protein, 0 2 different leader peptides (28 male C57BL/6 mice, Jackson Laboratories).
Expression of EGF Fab was measured by ELISA against VEGF, o 3 different light-heavy chain separators (42 male 6 mice, Jackson Laboratories) were evaluated using the following vectors.
Group Treatment No. of animals ROA Dose (GC/eye) 1.00x109 5.00x109 1 AAV2/8.CMV.PI.aVEGFv7.EMCVIRES.Fab. 7 7 Subretinal SV40; the sequence of the expression cassette is provided in SEQ ID NO: 45 2 AAV2/8.CMV.PI.aVEGFv7.FMDVlIRES.Fa 7 7 Subretinal b.SV40; the sequence of the expression cassette is ed in SEQ ID NO: 46 3 AAV2/8.CMV.PI.aVEGFv7.cMycIRES.Fab.S 7 7 Subretinal V40; the sequence of the expression cassette is provided in SEQ ID NO: 47 Abbreviation: GC = genome copies; N0. = number; ROA = route of administration. 0 13 different coding sequences (182 male C57BL/6 mice; Jackson Laboratories).
Expression of EGF Fab was measured by ELISA against VEGF.
Vectors were delivered into subretinal space of the mouse eye. Expression of reporter genes was determined by enzyme-linked immunosorbent assay (ELISA).
Seven different promoters were ted in another study: 3 viral (cytomegalovirus [CMV]; thymidine kinase [TK]; simian virus [SV40]); 3 non-viral (phosphoglycerate kinase [PGK]; human elongation factor-10L ; ubiquitin C [UbC]); and 1 hybrid (chicken B-actin [CB7]) promoters.
Two different leader peptides were also evaluated using rAAV8 vectors having identical vector elements and the same coding sequence; i.e.; v3; with the exception of the leader sequence leukin-2 vs the serpin ). AAV2/8 = adeno ated virus (AAV) capsid type 8 with AAV2 inverted terminal repeats flanking the transgene; amd201Lead = EGF Fab with IL2 leader sequence and Furin F2A as light-heavy chain separator; amd201altLead = anti-VEGF Fab with SFl leader sequence and Furin F2A as heavy chain separator; CB7 = chicken B actin promoter; CI = chimeric intron; rBG = rabbit B globin polyadenylation sequence.
Three different al ribosome entry site (IRES) sequences separating heavy and light chains of anti-VEGF Fab were evaluated in another study. These IRES sequences were derived from encephalomyocarditis virus (EMCV); cMyc; and foot-and-mouth e virus 1 (FMDV 1). In this study; the vectors were identical except for the light and heavy chain tors (EMC; FMDVl and cMyc). AAV2/8 = adeno associated virus (AAV) capsid type 8 with AAVZ inverted terminal repeats flanking the transgene; amd201 = codon variant of anti-VEGF Fab with IL2 leader sequence; CMV = cytomegalovirus promoter; EMCV = encephalomyocarditis virus; Fab = fragment antigen-binding region; FMDVl = foot and mouth disease virus 1; IRES = internal ribosome entry site; PI = Promega intron; SV40 = simian virus enylation sequence In another study; thirteen different coding sequences for the anti-VEGF Fab were evaluated. The l coding sequence variance was between approximately 20% and 30 %.
The vectors are described in the following Table.
Vectors with Different Coding Sequences Used. The SEQ ID NO for the expression tes is ed in the following table: Vector SEQ ID NO: (vector genome) AAV2/8.CB7.CI.aVEGFv4.rBG 35 AAV2/8.CB7.CI.aVEGFv5.rBG 36 AAV2/8.CB7.CI.aVEGFv1.rBG 34 AAV2/8.CB7.CI.aVEGFv2.rBG: 3 AAV2/8.CB7.CI.aVEGFv6.rBG 37 AAV2/8.CB7.CI.aVEGFv7.rBG 38 AAV2/8.CB7.CI.aVEGFv8.rBG 39 AAV2/8.CB7.CI.aVEGFv9.rBG 40 AAV2/8.CB7.CI.aVEGFv10.rBG 41 AAV2/8.CB7.CI.aVEGFv11.rBG 42 Vector SEQ ID NO: (vector genome) AAV2/8.CB7.CI.aVEGFv12.rBG 43 AAV2/8.CB7.Cl.aVEGFV3.rBG 14 AAV2/8.CB7.CI.aVEGFv13.rBG 44 Vectors in all studies were d in Dulbecco’s phosphate-buffered saline (DPB S).
Animals were assigned into treatment groups and administered 1.00 X 109 or .00 X 109 genome copies (GC)/eye of AAV2/8 vectors into the right eye. The left eye was used as an untreated control. Vectors were stered subretinally in a total volume of 1 uL.
A. Subretinal Injections Subretinal injections were conducted using c technique and sterile dissecting instruments. s were anesthetized with ketamine/xylazine or 3% to 5% isoflurane and stered meloxicam. Animals were then placed under a dissection microscope with the eye to be injected under view (using a 15 X magnification). The temporal ctiva was grasped with jeweler’s forceps and carefully cut down to the sclera using the tip of Vannas omy scissors. Conjunctival peritomy was conducted by introducing the lower lip of the scissors through the incision and extending ferentially both superiorly and inferiorly of the conjunctiva. Any conjunctival debris was lly removed from the surface of the sclera. The conjunctiva adjacent to the cornea was grasped with the forceps, providing traction to rotate the globe and allow optimal al exposure. Using a 30 1/z-gauge needle, a small incision, large enough to allow the blunt-tip needle to pass through, was made.
The tip of a 33-gauge blunt-tip needle mounted on a Hamilton auto-injector syringe was introduced into the incision tangentially to the surface of the globe. The needle was passed along the inner surface of the sclera with the tip entering approximately 1 mm. The 33-gauge needle passed through the sclera and choroid and then terminated in the subretinal space. Up to 1 uL of vector was delivered. Once the procedure was completed, antibiotic ophthalmic ointment was applied to the eye.
B. Assay Methods The collected eyes were homogenized by placing entire eyeball into a conical tube with ess steel beads and 200 uL of cocktail containing protein lysis and extraction buffer (RIPA) and cOmpleteTM, Mini Protease tor Cocktail tablets (1 tablet/10 mL of RIPA buffer). The eyes were homogenized for at least 2 minutes in a Lyser (Qiagen, USA) or until fully homogenized. Homogenate was centrifuged for 20 minutes at 12000 RPM at 4°C in a cold room. The supematants were transferred into fresh tubes and used in analytical assays.
Determination of Protein Concentrations in Eye Homogenates Protein concentration in eye homogenate was determined using PierceTM BCA Protein Assay Kit (Thermo Fisher Scientific) per the cturer’s instructions. Equal amounts of protein in all samples were used in ELISA.
Enzyme-Linked Immunosorbent Assay -siX-well, round-bottom plates were coated with 2 ug/mL of HA A-Beijing or 1 ug/mL VEGF overnight at 4°C. After coating, the plates were washed 5 times with 200 uL of phosphate-buffered saline (PBS) with 0.05% Tween-20 ) using a 405 TS Washer (BioTek Instruments, Winooski, VT). Plates were then blocked with 200 uL/well of 1% bovine serum n (BSA) at room temperature (RT) for 1 hour. After washing (as described), 100 uL/well of sample was loaded into duplicate wells and incubated at 37°C for 1 hour. Following incubation, the plates were washed (as described) and then blocked with 1% BSA at RT for 1 hour. After washing (as described), 100 uL/well of the primary antibody was added and ted at RT for 1 hour. Wells were then washed (as described) and incubated with 100 uL/well of the secondary antibody at RT for 1 hour. Following a final wash (as described), 150 uL/well of 3,3’,5,5’-tetramethylbenzidine, a detection substrate, was added and incubated at RT for 30 minutes protected from light. The reaction was stopped with 50 uL/well of 2N H2SO4. The plates were then read at the excitation/emission of 450 nm/540 nm using ophotometer SpectraMaX® M3 ular Devices, Sunnyvale, CA).
The following primary dies were used: 1.0 mg/mL Goat Anti-Human IgG H&L (Biotin) preadsorbed at a 1:10000 dilution in PBS (Abcam 0.5 mg/mL), 0.5 mg/mL Goat Anti-Human IgG H&L (Biotin) preadsorbed at a 1:5000 dilution in PBS (Abcam, 1 . The following ary antibody was used: 1 mg/mL Streptavidin (HRP) at a 1:30000 dilution in PBS.
Statistical Analyses e and standard deviation values for concentration of reporter genes for ELISA were calculated using Microsoft Office Excel 2010.
C. RESU LTS AAV2/8 vectors with 7 different ers were evaluated for expression of F16 mAb. Expression of F16 mAb was not observed in any animal when promoter EF l-a was used. sion of F16 mAb was low when promoters SV40.P1, PGK.P1 and TK.P1 were used. Promoters CMV.P1, CB7.C1, and UbC.P1 demonstrated the highest expression of F16 mAb. No expression was observed in the untreated left eye in any animal (data on file).
AAV2/8 vectors with 2 different leader peptides were evaluated for expression of EGF Fab. Compared to aVEGFv7 with an 1L2 leader, expression of anti-VEGF Fab at low dose was greater when leader peptide aVEGFv7 with SF2 leader was used. At high dose, the expression of anti-VEGF Fab was similar for both leader es. No expression was observed in the untreated left eye in any animal (data on file). AAV2/8 vectors with 3 different light-heavy chain separators were evaluated for expression of anti-VEGF Fab.
Expression of anti-VEGF Fab was not observed in any animal when cMyc light-heavy chain separator was used. With EMCV and FMDVl light-heavy chain separators, anti-VEGF Fab was expressed at low . No sion was observed in the untreated left eye in any animal (data on file).
AAV2/8 vectors with 13 different coding sequences were evaluated for expression of anti-VEGF Fab transgene product. When coding sequences aVEGFv4, aVEGFvS, aVEGFv6, aVEGFv7, aVEGFv8, and 9 were used, expression of anti-VEGF Fab was low. Expression was higher with coding sequences aVEGFvl3, aVEGFv 10, aVEGFvl l, and aVEGFle. When coding sequences aVEGFvl, aVEGFv2, and aVEGFv3 were used, expression of EGF Fab was the highest. No expression was observed in the untreated left eye in any animal (data on file).
Each of the vectors encodes the same anti-VEGF transgene product. Based in part on these s, a single replication-defective, recombinant AAV8.aVEGF was selected for further development. This tert vector has an AAV8 capsid and a vector genome in which AAV2 1TRs flank a CB7 promoter, an intron, an anti-VEGF coding sequence selected from the coding sequence as described earlier and a rBG poly A sequence. This is termed the test vector (alternatively AAV2/8.aVEGF test vector or AAV8.aVEGF test vector) in the following es, except where specifically specified otherwise.
EXAMPLE 3: Pharmacokinetic (PK) Study in Non-Human Primates Macaques were used in this study because they are the closest species to humans for studying l diseases. Cynomolgus monkeys and humans have similar eye y, including fovea. The dimensions of the eyes are able, which allows determination of the human dose based on relative retinal areas.
This study was conducted to select AAV2/8 vector for clinical pment and to evaluate toxicity and immunogenicity of AAV2/8 vector and anti-VEGF Fab in cynomolgus monkeys. The study is ongoing. The results presented are based on the data collected at Month 10. tion of toxicity of AAV2/8 vector and anti-VEGF Fab is described. s were administered AAV2/8 vectors subretinally. Toxicity was evaluated based on clinical observations, body weights, indirect ophthalmoscopy, spectral domain optical coherence tomography, hematology, coagulation, al try, and gross pathologic findings. The only adverse finding related to AAV2/8 vector or anti-VEGF Fab was some thinning in outer nuclear layer localized to the injection site observed by al domain optical coherence tomography in several eyes of animals stered 1.00 X 1011 GC/eye of AAV2/8 vectors.
Animals were assigned into 4 treatment groups. Animals were administered a single dose of 1.00 X 1011 genome copies (GC)/eye of AAV2/8 vectors into each eye in a total volume of 100 uL. Vectors were administered subretinally (confirmed visually by appearance of a dome shaped retinal detachment/retinal bleb under microscope) into both eyes. The following table lists the tested vectors.
Group Treatment Dose No. of ROA (GC/eye) animals OD OS 2 AAV2/8.UbC.PI.aVEGFv2.SV40 1.00 x 1011 2 M, 2F Subretinal 3 AAV2/8.UbC.PI.aVEGFv3.SV40 1.00 x 1011 2 M, 2 F Subretinal AAV2/8.CB7.CI.aVEGFvZaVEG 1.00 x 1011 2 M, 2 F Subretinal Fv2.rBG Group Treatment Dose No. of ROA (GC/eye) animals OD OS 6 AAV2/8.CB7.CI.aVEGFv3.rBG 1.00 x 1011 2 M; 2 F Subretinal Abbreviation: F = ; GC = genome copies; M = male; N0. = number; OD = right eye; OS = left eye; ROA = route of administration.
Subretinal Injections For subretinal injections; a needle was inserted through a trocar; introduced by sclerotomy; at the 2 or 10 o’clock position. The needle was advanced through the vitreous to penetrate the retina in the posterior pole. Under the microscopic control; 100 uL of test e was ed into the subretinal space. This was confirmed by appearance of a dome shaped retinal detachment/retinal bleb. If the first injection attempt did not result in retinal detachment; the a was moved to another site in the . The ion site may have resulted in a temporary scotoma. The injected solution was reabsorbed within a few hours by the retina. The retinal detachment was made in the peripheral retina and did not result in permanent blindness. The site of sclerotomy was sutured with able suture and the eye dressed with PredG ointment or lent. Subconjunctival g or equivalent was administered. Animals were observed daily and administered parenteral analgesics as needed. If vitreal inflammation appeared; animals were treated with topical atropine and PredG ointment or equivalent daily until ms resolved.
Collection of Anterior r Fluid Animals were anesthetized and their head stabilized. Betadine 5% antiseptic solution and Proparacaine or equivalent were d to each eye. An eye speculum was placed to allow access to the anterior chamber. The procedure was performed with a tuberculin syringe attached to a 27- to 30-gauge hypodermic needle. The eye was held steady with forceps or a cotton tip applicator on the nasal conjunctiva. The needle was ed bevel up through the paralimbal peripheral clear cornea; anterior to the iris plane. Once the eye was entered; a sampler slowly withdrew the plunger of the syringe to aspirate the aqueous fluid. A maximum of 100 uL of anterior chamber fluid was collected. Once anterior chamber fluid was drained; the needle was withdrawn flom the eye. The anterior chamber fluid was placed on wet ice until use or storage. After the procedure; topical flurbiprofen; PredG ointment; and antibiotic drops were applied to each eye. or chamber fluid was collected on the following Study days (occasionally adjusted due to weekends, holidays or scheduling ) 0 0, 15, 29, 43, 57, 71, 85, 120, 149, 183, 212, 247, 274, and 302.
Spectral Domain Optical Coherence Tomography Retinal structure (at a micron-level resolution) was evaluated by in viva, non- invasive, cross-sectional l copy with SD-OCT (Spectralis OCT, berg Engineering, Carlsbad, CA). Pupils were dilated with phenylephrine 2.5% and tropicamide 1%. En-face retinal imaging was performed with near infrared (NIR) reflectance (REF) and in a subset of animals with NIR fundus autofluorescence (FAF) using the scanning laser ophthalmoscope of this imaging system. Spectral domain optical coherence tomography ng was performed with 9 mm long horizontal and vertical cross-sections through the fovea and overlapping 30 X 25 mm raster scans extending into the near midperiphery. See, Aleman, Invest Ophthalmol Vis Sci. 2007 Oct,48(10):4759-65.
Enzyme-Linked Immunosorbent Assay (ELISA) The ELISA was performed ially as described for the mouse s above.
Ninety-siX-well, bottom plates were coated with l ug/mL ofVEGF for expression of anti-VEGF Fab. Plates were coated overnight at 4°C. After coating, the plates were washed 5 times with 200 uL of phosphate-buffered saline (PBS) with 0.05% Tween-20 (PBS-T) using a 405 TS Washer (BioTek Instruments, Winooski, VT). Plates were then blocked with 200 uL/well of 1% bovine serum albumin (BSA) at room temperature (RT) for 1 hour. After washing (as described), 100 uL/well of sample was loaded into duplicate wells and incubated at 37°C for 1 hour. ing incubation, the plates were washed (as described) and then blocked with 1% BSA at RT for 1 hour. After washing (as described), 100 uL/well of the primary dy was added and incubated at RT for 1 hour. Wells were then washed (as bed) and incubated with 100 uL/well of the secondary antibody at RT for 1 hour.
Following a final wash (as described), 150 uL/well of 3,3',5,5'-tetramethylbenzidine, a detection substrate, was added and incubated at RT for 30 s protected from light.
The reaction was stopped with 50 uL/well of 2N H2SO4. The plates were then read at the excitation/emission of 450 nm/540 nm using spectrophotometer SpectraMax® M3 (Molecular Devices, Sunnyvale, CA). The following primary antibodies were used: 1.0 mg/mL Goat Anti-Human IgG H&L (Biotin) preadsorbed at a 1:10000 dilution in PBS, 0.5 mg/mL Goat Anti-Human IgG H&L (Biotin) preadsorbed at a 1:5000 dilution in PBS. The following secondary antibody was used: 1 mg/mL Streptavidin (HRP) at a 1:30000 dilution in PBS.
Average and standard deviation values for concentrations of the anti-VEGF Fab in anterior chamber fluid and blood were ated using Microsoft Office Excel 2010.
A Pharmacology Results Four AAV vectors with different promoters and coding sequences were evaluated as described earlier in this example. Vectors were administered subretinally. sion of anti-VEGF Fab was determined by enzyme-linked immunosorbent assay.
Expression of Anti-VEGF Fab in Anterior Chamber Fluid In anterior chamber fluid of animals in all groups, similar expression kinetics was observed (FIG 3A-3D, FIG 4A-4D). Onset of expression of the anti-VEGF Fab was rapid, generally within 7 days. Steady-state expression levels were ed within 1 month. All except 2 animals continued to express the anti-VEGF Fab at steady-state levels until the last evaluated timepoint.
One animal in Group 2 (FIG 3B) and 1 animal in Group 5 (FIG 4A) lost expression of the anti-VEGF Fab. Loss of expression coincided with appearance of antibodies against the anti-VEGF Fab. No difference in expression of the EGF Fab between males and females and between the right and the left eye was ed.
Generally, vectors controlled by the CB7.CI er (FIG 4A-4D) expressed the anti-VEGF Fab at higher levels than s controlled by the UbC.PI promoter (FIG 3).
Vector AAV2/8.CB7.CI.aVEGFv3aVEGFv3.rBG was selected as a y vector for clinical development. This selection was based on expression level of ene, better translatability of relative expression levels from mice to cynomolgus monkeys for aVEGFv3 coding ce, and greater level of experience with CB7.CI promoter.
Expression of Anti-VEGF Fab in Blood In some patients administered a single IVT injection of Lucentis, ranibizumab was observed in serum (Xu, 2013). To determine if subretinal administration of AAV2/8 vector s in systemic exposure to the anti-VEGF Fab, its concentrations were measured in serum.
Expression of the anti-VEGF Fab was around the baseline levels in blood of all s (FIGs 3A-3D, FIGs 4A-3D).
B. Toxicology Evaluation of toxicity of AAV2/8 vector and anti-VEGF Fab is bed in this subpart B. Animals were administered AAV2/8 vectors subretinally. Toxicity was evaluated based on clinical observations, body weights, ct ophthalmoscopy, spectral domain optical coherence tomography T), hematology, coagulation, al chemistry, and gross pathologic gs.
For each variable in each treatment group, the measurements at each time point were compared to the corresponding baseline values using Wilcoxon rank-sum test. The Wilcoxon rank-sum test is a nonparametric alternative to the two-sample t-test, which is based solely on the order in which the observations from the 2 samples fall. It is a preferable test for dataset with small sample size. Statistical significance was declared at the 0.05 level without the adjustment for multiple testing. The analysis was done using R m on 3.3.1, cran.r-proj ect.org/) with function "wilcox.test".
The study is ongoing. The results presented are based on the data collected by Month . There were no mortalities in this study. No adverse clinical observations related to AAV2/8 vector or anti-VEGF Fab were noted in any animal. No clinically meaningful changes in body weight during the study were observed for any animal. No adverse observations related to AAV2/8 vector or anti-VEGF Fab were noted during ct ophthalmoscopy in any animal.
Spectral Domain Optical Coherence Tomography All 4 animals (8 eyes) in Group 6 were imaged by SD OCT. Injected regions in the eyes that received the intermediate dose level of AAV8.aVEGF test vector (1.00 X 1011 ) showed intermediate outcomes as compared to 1.00 X 1010 and 1.00 X 1012 dose levels described in Example 7 (esp., subpart B). In two s (Animal C71896 and Animal C65936), some thinning of ONL was observed (data on file). In addition, in 2 animals (Animal C74422 and Animal ), minimal s were ed (data on file). No clinically significant changes in hematology, coagulation, or clinical chemistry parameters were observed in any animal.
No findings related to AAV2/8 vector or anti-VEGF Fab were observed in 2 animals sacrificed at Month 10. In Animal C65936, a liver mass was observed, which microscopically was focal chronic grade 3 inflammation. In Animal C744l4, bilateral grade 3 lymphoid hyperplasia was observed. These finding were not related to AAV2/8 vector or anti-VEGF Fab. At a dose level of 1.00 X 1011 GC/eye of AAV2/8 vector, the only findings related to AAV2/8 vector or anti-VEGF Fab were minimal vacuolation of the lens of the right eye of Animal C65 926. Minimal perivascular mononuclear cell infiltrates around the ature of the right optic nerve in Animal C744l4 were observed. In the same animal, a minimal mononuclear cell infiltrate in the subconjunctiva of the left eye and a l perivascular exocular clear cell infiltrate in right eye were also noted.
The only adverse finding related to AAV2/8 vector or anti-VEGF Fab was some thinning in ONL localized to the injection site observed by SD OCT in several eyes of animals administered 1.00 X 1011 GC/eye of AAV2/8 vectors.
C. Immunology In this section, evaluation of immunogenicity of AAV2/8 vector and anti-VEGF Fab is described. Vectors were administered subretinally as described r in this example.
Immunogenicity was assessed by the presence of IgM and IgG antibodies t anti-VEGF Fab, neutralizing antibodies against AAV8 capsid, and cellular immune response against AAV2/8 vector and anti VEGF Fab.
To summarize, one animal each in Groups 2 and 5 had antibodies against anti-VEGF Fab, high levels of NAbs to AAV8 capsid, and T-cell responses. Both animals lost expression of anti-VEGF Fab. Animals with pre-existing NAbs to AAV8 capsid generally had increased response after administration of AAV2/8 vector when compared to animals without isting NAbs. In some animals sacrificed at approximately Study day 300, NAbs to AAV8 capsid were observed in vitreous fluid. No antibodies against EGF Fab and no T-cell responses were observed in animals in Group 6. Only mild fluctuations in the levels ofNAbs were ed in animals in Group 6 after administration of AAV2/8 vector.
EGF Fab was sed in all animals administered AAV2/8 vectors (Part A of this Example). Two animals l C74440 and Animal C68127) lost expression of the anti-VEGF Fab. Loss of expression coincided with appearance of antibodies against the anti- VEGF Fab.
Overall, levels of IgM and IgG against anti-VEGF Fab were below baseline levels in anterior chamber fluid and serum. Increases above the baseline levels at some ints were observed in some animals. In 1 animal each in Groups 2 (Animal C74440) and 5 (Animal C68127), levels of IgG against anti-VEGF Fab in anterior chamber fluid increased above baseline levels approximately at approximately 6 months . The levels generally increased thereafter. In both animals, IgG against anti-VEGF Fab increased above the baseline levels in serum. These increases in IgG coincided with loss of expression of anti- VEGF Fab. Importantly, IgM and IgG t anti-VEGF Fab in animals in Group 6 were not detected or were below the baseline levels for the duration of the study.
In brief, the animal immune system permitted continued localized expression of anti- VEGF transgene product, despite the fact that the transgene product is a human antibody.
Presence of Neutralizing Antibodies Against AAV8 Capsid Baseline levels of NAbs against AAV8 capsid were determined in serum from blood samples collected on Study day 0. The limit of detection was a 1:5 dilution, titers of < 5 were considered undetectable. In 2 of 16 animals (Animal C63 1 l6 and Animal C66122), pre- existing NAbs in serum were not ed. The levels ofNAbs in these 2 s following administration of AAV2/8 s remained below the limit detection or were low. In 14 of 16 animals, pre-existing NAbs were observed. In 11 of these animals, levels of NAbs ted throughout the study. In 1 animal each in Groups 2 l C74440) and 5 (Animal C68 127), levels ofNAbs following administration of AAV2/8 vector increased up to 256 and 128 two-fold dilutions respectively at two months. These increases in NAbs ded with loss of expression of anti-VEGF Fab. In 6 sacrificed animals from Groups 2, 3 and 5, the presence ofNAbs was ted in vitreous fluid. In 2 animals l C63 1 l6 and Animal C66122), with undetectable NAb in serum time of sacrifice, NAbs were not present in vitreous fluid at sacrifice. In the remaining animals, levels ofNAbs at sacrifice did not correlate with levels in serum at time of sacrifice. In all animals in Group 6, pre-existing NAbs were observed. The levels ofNAbs in these animals fluctuated mildly throughout the study.
T-Cell Responses to AAV2/8 Vector and Anti-VEGF Fab In 1 animal l C74440) in Group 2, elevated T-cell responses were observed at a single time point. In this animal, antibodies against anti-VEGF Fab and NAbs against AAV8 capsid were also observed. This animal lost expression of anti-VEGF Fab. In 1 animal (Animal C65 873) in Group 5, yed sustained T-cell responses to the pool B es of AAV8 capsid were ed including pre-injection baseline sample. The same animal had the highest levels ofNAbs after administration of AAV2/8 vector. Another animal (Animal C68 127) in the same group developed T-cells to all peptide pools ofAAV8 capsid which were not sustained over time. This animal had antibodies against anti-VEGF Fab and the second t level ofNAbs. The animal lost expression of EGF Fab.
No other sustained T-cell responses to the transgene product were ed. No sustained T-cell responses were observed in animals in Group 6.
EXAMPLE 4 - Animal Models Useful For Evaluating AAV2/8.aVEGF and EGF Transgene t VEGF transgenic mice are used as animal models of Wet AMD. Two such models include the Rho/VEGF mouse model and the sin/VEGF model.
A. Rho/VEGF Mouse Model GF mice are transgenic mice in which the rhodopsin promoter drives expression of human ar endothelial growth factor (VEGF165) in photoreceptors, causing new vessels to sprout fiom the deep capillary bed of the retina and grow into the subretinal space, starting at postnatal Day 10. The production of VEGF is sustained and therefore the new vessels continue to grow and e and form large nets in the subretinal space similar to those seen in humans with neovascular age-related macular degeneration.
See Tobe, Takao, et al. "Evolution of neovascularization in mice with overexpression of vascular endothelial growth factor in photoreceptors." Investigative ophthalmology & visual science 39.1 (1998): 180-188.
An enzyme-linked immunosorbent assay (ELISA) can be performed as follows.
Briefly, plates are coated with lug/mL ofVEGF overnight at 4°C. 1% BSA is used as blocking buffer and is allowed to incubate at room temperature for 1 hour at 200uL per well.
Samples are loaded in duplicate at 100uL per well and incubated for 1 hour at 37°C, followed by a second blocking buffer tion. The primary antibody is a goat Anti- Human IgG H&L conjugated with Biotin which is left to incubate for 1 hour at room temperature at 100uL per well. Secondary antibody is a 130,000 dilution of Streptavidin, loaded at 100uL per well and incubated at room temperature for 1 hour. TMB solution is used as detection substrate (0.1M NaOAc Citric Buffer (pH 6.0), Hydrogen Peroxide, 100X TMB Stock), loaded at 150 uL per well and incubated at room temperature for 30 minutes without exposure to light. 50uL of stop solution (2N H2SO4) is added to each well, and each plate was then read at 450nm-540nm.
In one study performed using this model and a test AAV8.aVEGF as described in the preceding examples, the ELISA s were as follows: AAV8> Dose Eye 1R Eye 1L Eye 2R Eye 2L Eye 3R Eye 3L aVEGF GC/e e -—m-m-m-m_m_m- "MM-mum- WWW-"MEE- AAV8.aVEGF 1.00E+09 0.00 530.45 0.00 0.00 324.01 0.00 AAV8.aVEGF 3.00E+09 0.00 0.00 0.00 0.00 208.71 0.00 mum-m- Vector Dose Eye 4R Eye 4L (GC/eye) Empty 1,005+1o 0.00 0.00 m—mm- —_EE__EE_EEE- Anti-VEGF FAb levels are shown in .
B. Tet/opsin/VEGF Mouse Model Tet/opsin/VEGF mice are transgenic mice that are normal until given doxycycline in drinking water. Doxycycline induces very high photoreceptor expression of vascular endothelial growth facto ), leading to massive vascular leakage, culminating in total exudative retinal detachment in 80-90% of mice within 4 days of induction. See, Ohno- Matsui, Kyoko, et al. "Inducible expression of vascular endothelial growth factor in adult mice causes severe proliferative retinopathy and retinal detachment." The American journal of pathology 160.2 : 711-719.
The ELISA can be performed as described in Part A of this Example. In one study performed using this model and a test AAV8.aVEGF as bed in the preceding examples, the ELISA results were as follows. Results are shown in the tables below as the average :: standard deviation (Std).
Mouse Eye lD's 1R 1L 2R 2L Sample Vector Avg:Std Empty Empty 1.00E+10 0.00:0.00 0.00:0.00 0.00:0.00 .00 1.00E+11 AAV8.aVEGF 1.00E+08 0.00:0.00 216.34i14.85 .00 0.00:0.00 3.00E+11 AAV8.aVEGF 3.00E+08 88.23i0.10 106.54i1.01 0.00:0.00 0.00:0.00 1.00E+12 VEGF 1.00E+09 424.07i19.26 0.00:0.00 344.51i30.67 0.00:0.00 3.00E+12 AAV8.aVEGF 3.00E+09 581.28i50.45 175.23i20.45 254.13i21.33 477.85i34.54 1.00E+13 VEGF 10 366.10i20.76 i2.45 234.42i4.78 173.46i1.86 Mouse Eye lD's 3R 4R 5L Sample Dose Avg: Avg: Avg : GC/e e Std Std Std Std Std Empty Empty 1.005+10 0.00: 0.00: 0.00 0.00 0.00 0.00 0.00 0.00 1.005+11 AAV8.aVEGF 1.00E+08 0.00: 0.00: 322.39: 0.00 0.00 0.00 0.00 23.43 3.005+11 AAV8.aVEGF 3.00E+08 0.00: 88.25: 444.96: 0.00 1.96 0.00 26.63 54.45 1.005+12 AAV8.aVEGF 1.005+09 0.00: 537.61: 0.00: 0.00 17.07 0.00 0.00 0.00 3.005+12 AAV8.aVEGF 09 270.15: .85 1.005+13 AAV8.aVEGF 1.005+10 301.23: 21.10 C. Other Animal Models Other animal models of Wet AMD are utilized. In the laser trauma model, high- powered, focused laser energy is used to induce a break in Bruch's membrane. Subretinal injection of matrigel, VEGF, macrophages, lipid hydroperoxide, and/or polyethylene glycol induces choroidal neovascularization (CNV), a wet AMD pathology. See Pennesi, Mark E., Martha Neuringer, and Robert J. Courtney. "Animal models of age related macular degeneration." Molecular aspects of medicine 33.4 : 487-509.
Optimized rAAV.aVEGF vectors are generated, diluted and delivered into subretinal space of the enic mice eye with dosage described in the previous examples.
Expressions of reporter genes, VEGF and anti-VEGF antibodies in the eye and/or plasma are determined by PCR, qPCR, ddPCR, quCR, Western Blot and ELISA as described in previous Examples. Electron Microscopy and Immunohistochemical analysis are also performed to evaluate the retinal cularization. The number of lesions per retina, area per lesion, neovascularization area per retina and traction l detachment Histopathological Evaluation of s are quantified.
EXAMPLE 5 - Assessment of Expression of Anti-VEGF Fab gene Product) in Cynomolgus Monkeys This study was conducted to assess the expression of the EGF Fab (transgene t) and to evaluate toxicity, immunogenicity, and biodistribution of an AAV8 vector sing the anti-VEGF Fab following its administration in cynomolgus monkeys. In this report, expression of the transgene product and immunogenicity of the vector are described.
Animals were stered an AAV2/8.aVEGF vector as bed in these Examples or FFB-3 14 (control article) subretinally. Expression of transgene product in anterior chamber fluid and blood was ined by enzyme linked immunosorbent assay (ELISA).
Immunogenicity was assessed by the presence of neutralizing antibodies (NAbs) against AAV8 capsid before and after administration. The transgene product is expressed in anterior chamber fluid of all animals administered the . The transgene product is not sed in blood. Increase in levels ofNAbs was observed in 1 animal (C73723) administered AAV8.aVEGF, this animal had pre-existing NAbs.
Animals in this study were administered a single dose of 1.00 X 1012 genome copies (GC)/eye of AAV8.CB7.CI.aVEGFv3.rBG or formulation buffer, FEB-314.
AAV8.CB7.CI.aVEGFv3.RBG and FEB-3 14 were administered subretinally into the right eye (confirmed visually by appearance of a dome shaped retinal detachment/retinal bleb under microscope) in a total volume of 100 uL.
Animals were randomized using www.j amestease.co.uk/team-generator. One of 4 animals was selected using www.randomizer.org/ by random and assigned to Group 2. The remaining 3 animals were assigned to Group 1. Group ation and dose levels for this study are presented in the ing Table.
Group Treatmenta Dose No. of animals Follow-up (GC/eye) 1 AAV8.aVEGF 1.00 x 1012 1 M; 2 F 7 days 2 FFB-314 NA 1 M Abbreviation: F = female; GC = genome copies; M = male; NA = not applicable; N0. = number. a Test and control articles were administered subretinally into the right eye.
Animals were euthanized on Study day 7. Samples of anterior chamber fluid and blood were collected for determination of expression of the anti-VEGF FAb transgene product and/or the presence ofNAbs against AAV8 .
Subretinal injections were performed as bed in the earlier examples.
Collection of anterior chamber fluid was as described in r examples. For the ELISA; ninety-six-well; round-bottom plates were coated with 1 ug/mL ofVEGF for expression of the anti-VEGF Fab transgene product; or 0.5 ug/mL of a commercial anti-VEGF Fab for expression of IgM and IgG against the Anti-VEGF Fab transgene product. The ELISA methods were as described in the earlier examples.
The following y antibodies were used: 1.0 mg/mL Goat Anti-Human IgG H&L (Biotin) preadsorbed at a 1:10000 dilution in PBS; 0.5 mg/mL Goat Anti-Human IgG H&L (Biotin) preadsorbed at a 1:5000 on in PBS. The following secondary antibody was used: 1 mg/mL Streptavidin (HRP) at a 1:30000 dilution in PBS.
Neutralizing Antibody Assay Neutralizing dy ses to AAV8 capsid were analyzed as follows. A Poly D lysine-coated 96-well black-walled/clear-bottom plate was seeded with human embryonic kidney 293 (HEK293) cells at 1 X 105 cells/well (referred to as a cell plate); the plate was incubated at 37°C overnight. The following day; the serum sample was heat-inactivated at 56°C for 35 minutes. The heat-inactivated sample and a recombinant vector (AAV8.CMV.LacZ at 1 X 109 l; provided by the Penn Vector Core at the University of Pennsylvania) were used to ate a serum-vector plate. The inant vector was diluted in serum-free Dulbecco’s Modified Eagle Medium (DMEM) and incubated with 2- fold serial dilutions (starting at 1:5) of the heat inactivated samples at 37°C for 1 hour. Prior to combining the serum vector plate with the cell plate, the HEK293 cells (now at 2 X 105 cells/well) were ed with wild type HAdV5 (90 particles/cell) and incubated at 37°C for 2 hours. After the incubation, the serum—vector plate and the cell plate were combined and incubated at 37°C for 1 hour. Following the incubation, an equal volume of 20% fetal bovine serum (FBS) with DMEM was added to each well and the combined plate was ted at 37°C for additional 18 to 22 hours. The next day, the combined plate was washed with PBS and the HEK293 cells were lysed, and the lysate was developed using a mammalian B- galactosidase bioluminescence assay kit per the manufacturer’s instructions. As a control, mouse serum was used instead of serum sample. The resulting luminescence was measured using a SpectraMax® M3 microplate luminometer. The resulting NAb titer was reported as the serum dilution that ts transduction of vector by at least 50% compared to the mouse serum.
Statistical Analyses Average and standard deviation values for concentrations of the Anti-VEGF Fab transgene product in anterior chamber fluid and blood were calculated using Microsoft Office Excel 2010.
RESU LTS Expression of Anti-VEGF Fab transgene product in Anterior Chamber Fluid The Anti-VEGF Fab ene product was not expressed in anterior chamber fluid of the animal administered FFB-3 14. The anti-VEGF Fab transgene product was expressed in anterior chamber fluid collected from the right eye of all animals administered AAV8. aVEGF test vector. No expression was observed in the left eye. No difference in expression of the Anti-VEGF Fab transgene product between males and females was observed.
Expression of Anti-VEGF Fab transgene product in Blood In some patients administered a single IVT injection of Lucentis, ranibizumab was ed in serum (Xu, Invest lmol Vis Sci, 54: l6l6-24(2013)). To ine if subretinal stration of AAV8.aVEGF test vector results in systemic exposure to the Anti-VEGF Fab transgene t, its concentrations were measured in serum.
Expression of the Anti-VEGF Fab transgene product was below nonspecific background levels in blood of the animal stered FFB-3 l4 and all animals administered the AAV8.aVEGF vector as compared to matched pre-inj ection level.
Presence of Neutralizing Antibodies Against AAV8 capsid Baseline levels of NAbs against AAV8 capsid were determined in serum from blood samples ted on Study day 0. The limit of detection was a 1:5 dilution, titers of < 5 were considered undetectable.
Treatment Animal NAb titer Identification Study day 7 C65027 40 10 Abbreviations: GC = genome copies; NAb = neutralizing antibody.
Note: the NAb titer values reported are the reciprocal dilutions of serum at which the relative luminescence units (RLUs) were reduced for 50% ted to control wells (without sample). The limit of detection was 1:5 on of sample.
Animal administered FFB-3 14 had pre-existing NAbs t AAV8 capsid (see preceding Table). One animal (C7443 1) administered AAV8.aVEGF test vector did not have detectable NAbs to AAV8 capsid. In 2 s (C73723, C65027) administered AAV8.aVEGF test vector, pre-eXisting NAbs against AAV8 capsid were observed, which persisted on Day 7 (see preceding Table).
Toxicity was evaluated based on clinical observations, body weights, indirect l5 ophthalmoscopy, hematology, coagulation, clinical chemistry, and gross pathologic findings.
There were no mortalities or unscheduled ces in this study. No e clinical ations related to AAV8.aVEGF test vector or the Anti-VEGF Fab transgene product were noted for any animal. Several animals exhibited intermittent transient bouts of diarrhea with no impact to the e of the animals because body weights remained stable. No clinically meaningful changes in body weight during the study were observed for any animal. No adverse observations related to AAV8.aVEGF Test vector or the Anti-VEGF Fab transgene product were noted during ct ophthalmoscopy in any animal. No clinically significant changes in hematology, coagulation, or clinical chemistry parameters were observed in any . All clinical pathology ters were within normal ranges in all animals. There were no gross finding in animals C64956 and C7443 l. The surfaces of the right and left kidney of C73 723 were pale. There was a focal lesion on the liver in . In conclusion, there were no major logy findings.
The test vector in Examples 6-11 is rAAV8.CB7.CI.aVEGFrv3.rBG.
EXAMPLE 6 - Expression of AAV2/8.aVEGF Vector in Cynomolgus Monkeys This study was ted to assess expression of the anti-VEGF transgene product and to evaluate toxicity, immunogenicity, and effect on normal retinal on of AAV2/8.aVEGF and the anti-VEGF transgene product, and shedding of VEGFin cynomolgus monkeys. The study is ongoing.
An AAV2/8.aVEGF described earlier in the examples is used this study. The vector is diluted in Dulbecco’s phosphate-buffered saline (DPBS) with 0.001% Pluronic F-68. As a control article, FEB-3 l4 (DPBS with 0.001% Pluronic F-68) was used. The study is ongoing.
The results presented are based on the data collected at Month 3.
Macaques were used because they are the closest species to humans for studying retinal diseases. These monkeys and humans have similar eye anatomy, including fovea. The dimensions of the eyes are comparable, which allows determination of the human dose based on relative retinal areas.
Animals in this Example were administered a single dose of 1.00 X 1010 genome copies (GC)/eye ofAAV8.aVEGF, or 1.00 x 1012 GC/eye ofAAV8.aVEGF, or FFB-314.
AAV8.aVEGF and FEB-3 14 were administered subretinally into the right eye (confirmed visually by appearance of a dome-shaped retinal detachment/retinal bleb under microscope) in a total volume of 100 uL.
Animals were randomly ed to 6 sets of 4 animals per set using mestease.co.uk/team-generator. After assigning the sets, 1 of 4 animals from each of the 6 sets was selected using www.randomizer.org/ at random and assigned to groups administered FEB-3 14 for each given administration date (Groups 2, 4, 6, 8, 10, and 12). The ing 3 animals were assigned to groups administered 1 X 1012 GC/eye or 1 x 1010 GC/eye VEGF (Groups 1, 3, 5, 7, 9, and 11). Group designation and dose levels for es 6 and 7 are presented below.
Group Designation and Dose Levels Group Treatmenta Dose Number (#) Follow-up (GC/eye) of animals 1 VEGF test vector 1.00 x 1012 1 V1, 2 F 3 months 2 FFB-314 \A 1 v1 3 AAV8.aVEGF test vector 1.00 x 1010 2 V1, 1 F 4 FFB-314 \A 1 VI AAV8.aVEGF test vector 1.00 x 1012 2 V1, 2 Fb 1 year 6 FFB-314 \A 1 F 7 AAV8.aVEGF test vector 1.00 x 1010 1 V1, 2 F 8 4 \A 1 F 9 AAV8. aVEGF test vector 1.00 x 1012 2 V1, 1F 7 days FFB-314 \A 1 v1 11 AAV8.aVEGF test vector 1.00 x 1010 2 V1, 1 F 12 FFB-314 \A 1 F Abbreviation: F = female, GC = genome copies, M = male, NA = not applicable, N0. = number. a Test and control es were administered inally into the right eye. 1’ One female animal was euthanized during the study because of severe eye infection. The animal was replaced.
Samples of anterior chamber fluid and blood were collected for determination of expression of the Anti-VEGF Fab transgene product Subretinal injections were performed as bed in earlier examples.
A. cology The results presented are based on the data collected at Month 3. In this report, sion of the anti-VEGF Fab transgene product is described. 1. Methods Animals were administered AAV8.aVEGF test vector or FFB-3 14 (control article) subretinally. Expression of anti-VEGF transgene product in anterior chamber fluid and blood was determined by enzyme linked immunosorbent assay (ELISA) which was performed as described in previous examples. 2. Pharmacology Results (a) Expression of Transgene Product in Anterior Chamber Fluid: The transgene product was not expressed in anterior chamber fluid of any animal administered 4. The transgene product was expressed in anterior chamber fluid of all animals administered AAV8.aVEGF test vector. Onset of expression was rapid, generally within 7 days. Steady-state expression levels were achieved within 1 month. All animals continued to express the transgene product at steady-state levels until the last evaluated timepoint. However, overall expression levels of the anti- transgene product were greater in animals administered 1.00 X 1012 GC/eye of AAV8.aVEGF test vector. No difference in expression of the transgene product between males and females was ed. (b) Expression of Transgene Product in Blood In some patients administered a single IVT injection of Lucentis, ranibizumab was observed in serum (Xu, Invest Ophthalmol Vis Sci. 2013 Mar 5,54(3):1616-24). To determine if subretinal administration of an AAV2/8aVEGF test vector bed in these examples s in systemic exposure to the EGF Fab transgene product, its concentrations were measured in serum. Expression of the anti-VEGF Fab transgene product was below nonspecific ound levels in blood of all animals administered AAV8.aVEGF test vector compared to matched pre-injection levels. 3. sion: Anti-VEGF Fab ene product is expressed in anterior chamber fluid of all animals stered AAV8.aVEGF test .
Anti-VEGF Fab transgene product is not expressed in blood of any animal administered AAV8.aVEGF test vector.
B. Toxicology In this report, evaluation of ty of an AAV2/8aVEGF test vector is described.
Animals were stered AAV8.aVEGF test vector or FFB-314 (control article) subretinally. Toxicity was evaluated based on clinical observations, body weights, ocular pressure, indirect ophthalmoscopy, spectral domain optical coherence tomography, hematology, ation, clinical try, and gross pathologic findings, and histopathologic gs.
Ocular pressure was evaluated via rebound tonometry (TonoVet). This method is easy to use and does not require topical anesthesia. Rebound tonometry estimates OP by using an induction coil to magnetize a small, plastic-tipped metal probe that is launched against the cornea. As the probe rebounds back to the instrument, it creates an induction current from which the OP is calculated. Up to 2 readings were taken, from which an average OP was determined, and accuracy of the results was indicated. Application with the device was performed according to the manufacturer’s instructions.
Retinal structure (at a micron-level resolution) was evaluated by in viva, non- invasive, cross-sectional l microscopy with SD-OCT (Spectralis OCT, Heidelberg ering, Carlsbad, CA). Pupils were dilated with phenylephrine 2.5% and tropicamide 1%. En-face retinal imaging was performed with near infrared (NIR) reflectance (REF) and in a subset of animals with NIR fundus autofluorescence (FAF) using the scanning laser ophthalmoscope of this imaging system. Spectral domain optical coherence tomography scanning was performed with 9 mm long horizontal and vertical cross-sections through the fovea and overlapping 30 X 25 mm raster scans extending into the near midperiphery.
The only adverse AAV8.aVEGF test vector - related finding was significant l thinning and loss of photoreceptors observed by spectral domain optical nce tomography in animals administered 1.00 X 1012 GC/eye of test vector.
C. Electroretinogram (ERG) In this subpart, assessment of effects of AAV8.aVEGF test vector and the anti-VEGF Fab transgene product on normal retinal function is described. Animals were administered AAV8.aVEGF test vector or 4 (control article) subretinally. Retinal on was evaluated by the full-field oretinogram (ERG). The ield ERG is a widely used electrophysiologic test of retinal function. Electroretinogram is a mass electrical potential generated by the retina in response to light stimulus. y, it is recorded by an electrode in contact with the corneal e. Electroretinograms in this study were conducted in accord with the recommendations set by the International Society for Clinical Electrophysiology of Vision (ISCEV, McCulloch, Doc Ophthalmol. 2015 Feb,130(1):1-12. 2015). The results presented are based on the data collected at Month 3. In this report, assessment of effects of AAV8.aVEGF test vector and the anti-VEGF Fab ene t on normal retinal function is described. Animals were administered AAV8.aVEGF test vector or FFB-314 (control article) subretinally. Retinal function was ted by the full- field electroretinogram. In y, administration of 1.00 X 1010 genome copies (GC)/eye ofAAV8aVEGF test vector do not impair retinal function. In contrast, administration of 1.00 X 1012 GC/eye ofAAV8aVEGF test vector impairs retinal function. 1. Electroretinogram (ERG) ters An electroretinogram (ERG) generated usually when all retinal cells are active respond to a flash stimulation (a dark-adapted animal, moderate to intense flash). The 2 components are the following: 0 a-wave: comea-negative signal, first after the flash. Origin: photoreceptor photocurrent, the most direct signature of photoreceptor function. 0 b-wave: comea-positive signal following the a-wave generated mostly by on- bipolar cells (second order neurons downstream from eceptors).
In this study, the following International Society for al Electrophysiology of Vision (ISCEV) standard and additional protocols were used: 0 Dark-adapted rod ERG: Stimulus intensity: 0.01 to 0.02 cd s m'z. Response: b- wave only, no a-wave. Source: rod "on" bipolar cells (second order neurons driven by input from rods). Meaning: a measure of rod function. ation in data sheets: "Dim flash". 0 Dark-adapted standard flash ERG: Stimulus intensity: 3 cd s m'z. Response: combined rod-cone a- and b-waves, 60% to 70% of the signal being generated by the rod- driven pathway. Source: photoreceptors, both rods and cones (a-wave), higher order neurons driven by both rods and cones. Meaning: a measure of mostly rod function, less sensitive to the state of dark adaptation and less variable than the "dim flash" response. Designation in data sheets: "Standard flash". 0 Dark-adapted bright flash ERG: us intensity: 10 cd s m'z. Response and meaning: same as for the "standard flash" response, but bright flash se is larger in magnitude and may be less variable. Designation in data sheets: "Bright flash". 0 Light-adapted standard flash cone ERG: us intensity: 3 cd s m'z, delivered in presence of 30 cd m'2 background light after 5 minutes of light adaptation. Response: a- and b-waves generated by cone-driven pathways. g: in presence of background light which completely desensitizes rods the ERG is produced exclusively by cones and cone- driven secondary retinal neurons and is a measure of the cone function. Designation in data : ard cone ERG".
° Light-adapted bright flash cone ERG (in addition to the ISCEV standard): Stimulus intensity: 10 cd s m'z, red in presence of 30 cd m'2 background light after 5 minutes of light adaptation. Response and meaning: cone-driven ERG as in case of the "Standard cone ERG", but of r magnitude and potentially less variable.
ERG measures (a-wave amplitude, a-wave implicit time, b-wave amplitude, b-wave implicit time) were summarized using mean and standard deviation (SD) for treated eyes and control eye, and for each treatment (FEB-314 (vehicle) , AAV8aVEGF test vector 1.00 X 1010 GC/eye groups, AAV8aVEGF test vector 1.00 X 1012 GC/eye groups). The paired t-test was used for comparing the ERG measures between AAV8aVEGF test vector (treated) eye and FFB-314 (control eye), and for comparison between post-injection vs. pre- injection. The two-sample t-test was used for comparing the ERG measures n AAV8aVEGF test vector 1.00 X 1010 GC/eye groups vs. FFB-314 (vehicle) groups, AAV8aVEGF test vector 1.00 X 1012 GC/eye groups vs. FFB-314 (vehicle) , and AAV8aVEGF test vector 1.00 X 1012 GC/eye groups vs. AAV8aVEGF test vector 1.00 X 1010 GC/eye groups. The t-test is appropriate even when the sample size is small [Winter JCF. Using the Student’s t-test with eXtremely small sample sizes. Practical Assessment, Research and Evaluation. 2013,18 (10). ble : line.net/- getvn.asp?v=18&n=10] 1 or the data are not normally distributed. See, Shuster JJ.
Diagnostic for tions in moderate to large simple clinical trials: do they really help? Statist. Med. 2005;24:2431-2438, Ganju J. D. Comment on "Diagnostic for assumptions in moderate to large simple clinical trials: do they really help?" Statist. Med. 2006,25: 1798- 1800.] All the statistical analyses were performed in SAS v9.4 (SAS Institute Inc., Cary, NC), and two-sided p-value 5 0.05 is considered as tically significant. 2. s Anti-VEGF Fab transgene product was sed in all animals administered AAV8aVEGF test vector (see pharmacology results in Part A of this EXample). Retinal function 3 months following administration of AAV8aVEGF test vector or FFB-314 inj ection) was compared to retinal function before administration (pre-inj ection) for treated and untreated eyes. An animal in Group 8 was eXcluded from data analyses due to an unobtainable ERG following administration of FFB-314.
FFB- Low High p-value 314 dose dose ERG Parameter Stimulus Mean Mean Mean Low High High test intensity (SD) (SD) (SD) dose dose dose (ed - s- m'z) vs. vs. vs.
FFB- FFB- Low 314 314 dose Dark- a-wave 3 68.2 58.4 31.3 0.4 0.003 0.01 d amplitude (10.0) (17.4) (12.4) (uv) 10 113.8 109.8 54.1 0.8 0.002 0.002 (0.9) (25.6) (21.0) Light- a-wave 3 19.9 18.7 9.8 0.65 0.007 0.002 adapted amplitude (4. 1) (3.5) (3.7) (uv) 10 36.1 33.3 19.5 0.61 0.02 0.01 (7.1) (7.4) (8.6) Abbreviations: ERG = electroretinogram, GC = genome copies; SD = standard ion.
Low dose: 1.00 X 1010 GC/eye of AAV8.aVEGF test vector High dose: 1.00 x 1012 GC/eye of AAV8.aVEGF test . a. Comparison of Retinal Function Between Treatment Groups For treated eyes, retinal function post-inj ection was able between animals in low-dose group (1.00 X 1010 GC/eye of AAV8.aVEGF test vector) and FFB-314 group (see preceding Table). For treated eyes, retinal function post-injection in animals in ose group (1.00 X 1012 GC/eye of AAV8.aVEGF test vector) was icantly reduced compared to animals in FFB-314 group (see preceding Table). For treated eyes, retinal function post- injection in animals in high-dose group was icantly reduced compared to animals in low-dose group (see preceding Table). For untreated eyes, l function post-injection was comparable to pre-inj ection for all groups. b. Comparison of Retinal Function Within Treatment Groups For treated eyes, in animals in low-dose and FFB-314 groups, retinal function post-injection was comparable to matched pre-injection baseline. For treated eyes, in animals in high-dose group, retinal function post-injection was significantly reduced compared to matched pre-injection ne. For untreated eye, l function nj ection was able to matched pre-injection baseline.
E. VHusSheddMg Shedding of AAV8.aVEGF test vector was determined by quantitative PCR analysis targeting transgene-specific sequence in samples of tears, nasal secretion, serum, saliva, urine, and feces. Samples were collected before and after stration of AAV8.aVEGF test vector or FFB-3 l4. AAV8.aVEGF test vector DNA was readily detectable in most samples collected from animals administered AAV8.aVEGF test vector. The presence of AAV8.aVEGF DNA was dose-dependent, transient, and decreased over time.
F. Inununogenmfly In this study, genicity of AAV8.aVEGF test vector and the anti-VEGF Fab transgene product is bed. Immunogenicity was assessed by the following: o The presence of IgM and lgG antibodies against the anti-VEGF Fab transgene product using enzyme linked immunosorbent assay ), ° The presence of neutralizing antibodies (NAbs) against AAV8 capsid using NAb assay, 0 T-cell responses to VEGF test vector and the anti-VEGF Fab transgene product using enzyme linked immunospot (ELISPOT) assay.
Animals were administered AAV8.aVEGF test vector or FFB-3 14 (control article) subretinally as described earlier in this Example. No sustained IgM, IgG, or T-cell responses to the anti-VEGF Fab transgene product were observed in any animal. s administered 1.00 X 1012 GC/eye AAV8.aVEGF test vector developed a higher neutralizing antibody (Nab) response to AAV8 capsid than animals administered 1.00 X 1010 GC/eye AAV8.aVEGF test vector. The NAb se was higher in animals with pre-eXisting NAbs.
Slightly increased T-cell responses against AAV8 capsid were observed in 2 of 6 animals administered 1.00 X 1012 GC/eye test vector.
Resufls Anti-VEGF Fab transgene product was expressed in all animals administered AAV8.aVEGF test vector (Example 6). There was no significant IgM against the Anti- VEGF Fab transgene product in serum or in anterior chamber fluid of animals administered FFB-3 l4. lgG against the Anti-VEGF Fab transgene product above baseline level was not observed in animals administered FFB-3 14.
IgM against the anti-VEGF Fab transgene product was elevated above the baseline level in or chamber fluid of 1 animal administered 1.00 X 1010 GC/eye of EGF test . However, as there was no corresponding elevation in the serum, ore this observation was not ally significant. IgG against the anti-VEGF Fab transgene product above baseline level was not observed in this treatment group.
IgM against the anti-VEGF Fab transgene t above baseline level was observed in anterior chamber fluid of 1 animal administered 1.00 x 1012 GC/eye of VEGF test vector. However, as there was no corresponding elevation in the serum, this observation was not clinically meaningful. IgG t the anti-VEGF Fab transgene product above baseline level was observed in serum and anterior chamber fluid from another animal and in anterior chamber fluid only of a third animal in this treatment group. However, as neither was preceded by any detectable IgM, these observations were not clinically meaningful. The presence of IgG in these animals was not associated with loss of expression of the anti- VEGF Fab transgene product.
Baseline levels of NAbs against AAV8 capsid were determined in serum from blood s collected on Study day 0. The limit of detection was a 1:5 dilution, titers of < 5 were considered undetectable.
In 4 of 6 animals administered FFB-3 l4, isting NAbs were not observed. Two animals that were followed by Study day 90 did not develop NAbs. In 2 animals administered FFB-3 l4, pre-existing NAbs were observed. The levels ofNAbs in these 2 animals ted no more than 2 two-fold serial dilutions during the study.
In 2 of 9 animals administered 1.00 x 1010 GC/eye of AAV8.aVEGF test vector, pre- existing NAbs were not observed. In 1 animal that was followed by Study day 90, NAbs were not observed following administration ofAAV8aVEGF test vector. In animals with pre-existing NAbs, their levels increased by no more than 4 two-fold serial dilutions following administration ofAAV8aVEGF test vector.
In 4 of 9 animals administered 1.00 x 1012 GC/eye of AAV8.aVEGF test vector, pre- ng NAbs were not observed. Regardless of status of isting NAbs, in most animals, an increase in NAb response of up to 9 two-fold serial dilutions was observed following administration of AAV8aVEGF. This response was sustained through the Study day 90.
T-cell responses to AAV8aVEGF test vector were ed in 1 animal administered FFB-3 14 at a single timepoint. In 1 animal, non-specific T cell responses were observed at all timepoints.
Sustained T-cell responses to AAV8aVEGF test vector were not observed in animals administered 1.00 X 1010 GC/eye of test vector.
In 4 of 6 animals administered 1.00 x 1012 GC/eye ofAAV8aVEGF test vector, low- level immune se against AAV8aVEGF test vector was observed. In 2 of 4 animals with low-level immune response, a ned (more than 2 consecutive time points) response was observed. Sustained T-cell responses to the anti-VEGF Fab transgene product were not ed in any animal.
No sustained IgM, IgG, or T-cell responses to the Anti-VEGF Fab transgene product were observed in any animal.
Animals administered 1.00 X 1012 GC/eye AAV8aVEGF test vector developed a higher NAb response to AAV8aVEGF test vector than animals administered 1.00 X 1010 GC/eye of the same test . The NAb response was higher in animals with pre-existing NAbs. Slightly increased T-cell responses against this EGF test vector were observed in 2 of 6 animals administered 1.00 X 1012 GC/eye the EGF test vector.
EXAMPLE 7 - Evaluation of Distribution of AAV2/8 Vector mRNA and Anti-VEFG Fragment Antigen-Binding Following Subretinal Administration of AAV2/8 Vectors in Cynomolgus Monkeys This study was conducted to evaluate retinal bution of AAV2/8 vector mRNA and distribution of anti-VEGF Fab throughout the eye following subretinal administration of AAV2/8 vector utilizing tissues from Example 3, Example 5 and e 6. Levels of mRNA in different parts of retina were assessed by quantitative reverse transcription- rase chain reaction and by in situ hybridization. Concentrations of anti-VEGF Fab were determined in retinal ns, anterior chamber fluid and vitreous humor by enzyme- linked immunosorbent assay. mRNA for AAV2/8 vector is distributed throughout the entire retina following subretinal administration. Similarly, anti-VEGF Fab is distributed throughout the entire retina and is detected in both, vitreous and anterior chamber fluid.
Vector AAV2/8.UbC.PI.aVEGFv2. SV40 AAV2/8.UbC.PI.aVEGFv3 . SV40 AAV2/8.CB7.CI.aVEGFerBG AAV2/8.CB7.CI.aVEGFV3.rBG Site of subretinal administration is denoted by a retinal bleb, which can be Visualized by SD OCT. In all SD OCT images, retinal blebs are Visible.
Levels of mRNA for AAV2/8.aVEGF Test Vector in Retina Determined by RT-qPCR mRNA for AAV8aVEGF test vector was not detected in the retina of the animal administered FFB-3 l4. mRNA for the AAV8aVEGF test vector was detected in s of all animals administered the AAV8aVEGF test vector. The highest level ofmRNA was detected in the retinal sections that incorporated the site of the subretinal injection. However, mRNA for the AAV8aVEGF test vector was also detected in sections outside of the injection bleb. mRNA levels in these sections were lower than those in the bleb. The levels were up to 4 logs lower in sections most peripheral to the ion blebs. In ns immediately adjacent to the ion bleb, the levels ofmRNA were intermediate. sion of mRNA for AAV2/8 Vectors in Retina Determined by In Situ Hybridization (ISH) Expression ofmRNA for the AAV2/8 vector determined by ISH was high at the injection site. The transduced cells within retinal layers included RPE cells, eceptors, and ganglion cells. Expression ofmRNA was lower when moving away from the injection site, disappearing almost completely in the areas most distal to the injection site.
Concentrations of Anti-VEGF Fab in Anterior Chamber Fluid, us, and Retina Anti-VEGF Fab was sed in retinas, Vitreous, and anterior chamber fluid of eyes of all animals administered AAV2/8 vector (FIGs 6-8) . Expression in the Vitreous was 3- to 9-fold higher than in the anterior chamber fluid. With the exception of 1 animal (C65 873) in Group 5 (FIG 8), maximal expression in the retinal segments was 1.2- to 3.6- fold higher than in the Vitreous. This concentration gradient is likely a reflection of the mechanism of distribution of anti-VEGF Fab. Anti-VEGF Fab is ed into vitreous by transduced retina and then diffuses form vitreous to the anterior chamber fluid. Of note, expression of anti-VEGF Fab throughout the retina is more uniform than expression of mRNA. l, onal AAV2/8 vector is surprisingly distributed throughout the entire retina following subretinal administration as evidenced by the expression of the vector mRNA by the transduced cells, instead of being limited to the ion bleb. Anti-VEGF Fab is also surprisingly distributed throughout the entire retina including retinal segments that are peripheral to the injection bleb, and is detected in both, vitreous and anterior chamber fluid.
EXAMPLE 8 - Determination Of Affinity For Binding OF Anti-VEGF Transgene Product To Recombinant Human VEGF This study was conducted to determine ty for binding of the Anti-VEGF Fab heavy and line chains t to recombinant human VEGF. Binding affinity was determined using Biacore 3000 system, based on surface plasmon resonance (SPR) technique. This que is based on the plane-polarized light hitting a sensor chip under the conditions of total al reflection. Interaction between immobilized s (e.g., VEGF) and interacting molecules (e.g., Anti-VEGF Fab transgene product) on the sensor chip causes a change in angle of reflectivity of plane-polarized light. This change is ately detected by sensogram in real time as response units (Daghestani, Theory and applications of surface plasmon resonance, resonant mirror, resonant waveguide g, and dual polarization interferometry biosensors. Sensors (Basel). 2010,10(l 1): 9630-46.). The equilibrium binding affinity constant for binding of the Anti-VEGF Fab transgene product is consistent with published range for ranibizumab.
EXAMPLE 9: Tissue Cross-Reactivity Study The objective of this study was to assess using immunohistochemical techniques, the potential cross-reactivity of the Sponsor supplied dy Fab fragment aVEGF ene product with histologically prepared cryo-sections from a selected panel of human s.
Anti-VEGF Fab transgene product (1 mg/mL) ("Test product") and ranibizumab (0.97 mg/mL) were used for this study. Natural Human lgG Fab Fragment Protein (the "Control Article") was supplied at a protein tration of 14.64 mg/mL. To facilitate immunohistochemical detection the Test ene product, natural human lgG Fab fiagment protein and ranibizumab were ated with biotin. The respective protein concentrations were 2.79 mg/mL, 2.88 mg/mL and 2.89 mg/mL. Cryo-sections from the control material and the human tissues for examination were prepared. The assessment of tissue viability indicated that the panel of human s was viable. Following slide evaluation of the control titration the following three concentrations of Test transgene product-Biotin: 5, 2.5 and 1.25 ug/mL, and the following concentration of ranibizumab-Biotin: 2.5 ug/mL, were selected for use in the tissue titration. In the tissue titration no ic positive staining was observed with anti-VEGF transgene product-Biotin or ranibizumab-Biotin in any of the tissues examined. All other observed staining was le and considered to be non-specific.
Under the conditions of this study, antigen-specific binding of Test transgene product-Biotin and ranibizumab-Biotin was demonstrated in the positive control materials (human glioblastoma and VEGF protein spots). No similar staining was observed with Natural human lgG Fab fiagment protein-Biotin or the antibody diluent at the concentrations examined in the tissue titration.
EXAMPLE 10 - Clinical Study A VEGF vector was selected for further study which provides the advantage of single sub-retinal administration, y reducing the burden of ed injections. Continued sion of anti-VEGF Fab in NHP for over 6 months and reduction in neovascularization in an animal model ofWAMD d with an rAAV8.aVEGF vector have been demonstrated in pre-clinical studies, and safety of tinal injection is evaluated in non-human primates. The initial clinical study evaluates the safety and transgene expression after a single sub-retinal injection of an aVEGF test vector as described above. Once injected sub-retinally, these vectors are expected to continue to release an anti-VEGF Fab transgene product and block the angiogenic signal thereby protecting the retina from further damage.
Each dosing cohort includes 3 subjects. The first 3 subjects enrolled start with the lowest dose and each group escalates. After each first rAAV8.aVEGF dose, there is a 4 week observation period for safety prior to the next patient being dosed. The primary safety endpoint is at 6 weeks post administration of rAAV8.aVEGF.
Primary endpoints Ocular and non-ocular safety assessment at 6 weeks, 24 weeks, 6 and 12 months post procedure.
Secondary endpoints o Ocular and non-ocular safety over 106 weeks 0 Mean change from baseline in aqueous rAAV8.aVEGF protein over time 0 Mean change from baseline in BCVA over time 0 Proportion of subjects gaining or losing 215 letters compared to baseline as per BCVA at Week 26, Week 54, and Week 106 0 Mean change from baseline in CRT as measured by SD-OCT over time 0 Mean number of ranibizumab rescue injections over time 0 Time to 1st rescue ranibizumab injection 0 Mean change from ne in CNV and lesion size and leakage area based on FA over time o Immunogenicity measurements (NAb to AAV8, binding antibodies to AAV8, antibodies to aVEGF n, and -Linked lmmunoSpot [ELISpot]). 0 Vector shedding is in serum and urine.
Exploratory endpoints: 0 Mean change from baseline over time in area geographic atrophy per fundus rescence (FAF) Incidence of new area of geographic y by FAF (in subjects with no geographic atrophy at baseline) 0 Proportion of subjects gaining or losing 2 and 210 letters, respectively, compared with baseline as per BCVA 0 tion of subjects who have a reduction of 50% in rescue injections compared with previous year 0 Proportion of subjects with no fluid on SD-OCT For the present study, patients must have a diagnosis of neovascular age-related macular degeneration (wet AMD) and meet the following criteria.
Inclusion Criteria: In order to be eligible to participate in this study, a subject must meet all of the following criteria. It is understood that one or more of these criteria may not be required for further studies and for treatment of other populations. 1. Males or females aged 50 years or above. 2. Sentinel subject for each dose cohort must have a BCVA 520/100 and 220/400 (:65 and 235 ETDRS s) in the study eye. a. Following the sentinel subject evaluation, the rest of the subjects in the dose cohort must have a BCVA between 520/63 and 220/400 (:75 and 235 ETDRS letters). 3. In the case both eyes are eligible, study eye must be the subject’s worse-seeing eye, as determined by the Investigator. 4. Must have a nted diagnosis of subfoveal CNV secondary to AMD in the study eye. a. CNV lesion characteristics: lesion size needs to be less than 10 disc areas I5 (typical disc area is 2.54 mm2), blood and/or scar <50% of the lesion size.
. Must have ed at least 4 intravitreal injections of an anti-VEGF agent for treatment ofnAMD in the study eye in the 8 months (or less) prior to Visit 1, with anatomical response documented on SD-OCT. 6. Must have subretinal or intraretinal fluid t at Visit 1 in the study eye, evidenced on SD-OCT. 7. Must be pseudophakic (status post cataract surgery) in the study eye. 8. Must be willing and able to comply with all study procedures and be available for the on of the study. 9. Females of childbearing potential must have a negative urine pregnancy test at the ing visit, have negative serum results by Day 8, and be willing to have additional pregnancy tests during the study.
. Sexually active subjects (both female and male) must be willing to use a medically accepted method of barrier contraception (e. g., , agm, or ence) from screening visit until 24 weeks after vector administration. Cessation of birth control after this point should be discussed with a responsible physician. 11. Must be willing and able to provide written, signed informed consent.
Exclusion Criteria: Subjects who meet any of the following exclusion criteria are not eligible to participate in the study. It is understood that future studies and ent of other t populations may not include any or all of these criteria. 1. CNV or macular edema in the study eye ary to any causes other than 2. Blood occupying 250% of the AMD lesion or blood >10 mm2 underlying the fovea in the study eye. 3. Any condition preventing VA improvement in the study eye, eg, fibrosis, atrophy, or retinal epithelial tear in the center of the fovea. 4. Active or history of retinal detachment in the study eye.
. Advanced glaucoma in the study eye. 6. Any condition in the study eye that, in the opinion of the Investigator, may increase the risk to the subject, require either medical or surgical ention during the course of the study to prevent or treat vision loss, or interfere with study procedures or assessments. 7. History of intraocular surgery in the study eye within 12 weeks prior to the ing visit. Yttrium aluminum garnet capsulotomy is permitted if performed >10 weeks prior to the screening visit. 8. History of intravitreal therapy in the study eye, such as intravitreal steroid injection or investigational product, other than anti-VEGF therapy, in the 6 months prior to screening. 9. Presence of an implant in the study eye at screening (excluding intraocular lens).
. History of malignancy requiring chemotherapy and/or ion in the 5 years prior to screening. Localized basal cell carcinoma is permitted. 11. Receipt of any investigational product within the 30 days of enrollment or 5 half- lives of the investigational t, whichever is longer. 12. Participation in any other gene y study. 13. History of therapy known to have caused retinal toxicity, or concominant therapy with any drug that may affect visual acuit or with known retinal toxicity, eg, chloroquine or hydroxychloroquine. 14. Ocular or ular infection in the study eye that may ere with the surgical procedure. . dial infarction, cerebrovascular accident, or transient ischemic attacks within the past 6 months. 16. Uncontrolled hypertension (systolic blood pressure [BP] >180 mmHg, lic BP >100 mmHg) despite maximal medical treatment. 17. Any concomitant treatment that, in the opinion of the Investigator, may interfere with ocular surgical procedure or healing process. 18. Known hypersensitivity to zumab or any of its components or past hypersensitivity (in the Investigator’s opinion) to agents like rAAV8.aVEFG test vector. 19. Any s or unstable medical or psychological ion that, in the opinion of the Investigator, would compromise the subj ect’s safety or successful participation in the study.
Criteria for uing Study After Receiving Ranibizumab At Visit 2, subjects are assessed for initial anti-VEGF response to ranibizumab.
Subjects undergo both SD-OCT and BCVA, which are ed by the Investigator with the Visit 1 values: 1. Responsive (subjects continue in the study): Response is d as reduction in CRT >50 microns or >30% improvement in fluid by SD-OCT. 2. Non-responsive (subjects exit the study as early withdrawals): Non-response is defined as not meeting the criteria above. Additional subjects continue to be enrolled until up to 6 subjects in each cohort receive a single dose of rAAV8.aVEFG test vector.
At this visit central lab results are reviewed. Any subjects with the ing values are withdrawn: 3. Aspartate aminotransferase (AST)/alanine aminotransferase (ALT) >2.5 X upper limit of normal (ULN) 4. Total bilirubin >1.5 X ULN unless the subject has a previously known history of Gilbert’s syndrome and a fractionated bilirubin that shows conjugated bilirubin <35% of total bilirubin 5. Prothrombin time (PT) >1.5 X ULN 6. Hemoglobin <10 g/dL for male subjects and <9 g/dL for female subjects 7. Platelets <100 X 103/uL 8. Estimated glomerular filtration rate (GFR) <30 mL/min/1.73 m2 In the initial study, ranibizumab (LUCENTIS, Genentech) 0.5 mg is stered by itreal injection on Visit 1, 14 days prior to rAAV8.aVEGF test vector subretinal delivery. The rAAV8.aVEGF is given by subretinal administration by a retinal n under local anesthesia. The procedure involves rd 3 port pars plana vitrectomy with a core vitrectomy followed by a single subretinal administration into the subretinal space by a subretinal cannula (36 to 41 gauge). 100 — 150 microliters of rAAV8.aVEGF is delivered. ts receive one of 3, 4 or 5 doses. Three dose levels: 3 X 109 genome copies (GC)/eye, 1 X 1010 GC/eye, and 6 X 1010 GC/eye. Starting at 4 weeks post-rAAV8.aVEGF test vector administration, the subject may e intravitreal ranibizumab rescue therapy in the study eye for disease activity if 1 or more of the ing rescue criteria apply: Vision loss of 25 letters (per Best Corrected Visual Acuity [BCVA]) associated with accumulation of retinal fluid on Spectral Domain Optical Coherence Tomography (SD-OCT). Choroidal neovascularization (CNV)-related increased, new, or persistent subretinal or intraretinal fluid on SD-OCT. New ocular hemorrhage.
Further rescue injections may be deferred per the clinician's discretion if one of the following sets of findings occur: Visual acuity is 20/20 or better and central retinal thickness is "normal" as assessed by SD-OCT, or Visual acuity and SD-OCT are stable after 2 consecutive injections. If ions are deferred, they are resumed if visual acuity or SD- OCT get worse per the ia above.
EXAMPLE 11 - Dose Escalation Study This Phase I, open-label, multiple-cohort, dose-escalation study is designed to evaluate the safety and tolerability of rAAV8.aVEGF gene therapy in subjects with previously treated neovascular AMD (nAMD). Three doses are studied in approximately 18 subjects. Subjects who meet the inclusion/exclusion criteria and have an anatomic response to an initial anti VEGF injection receive a single dose of rAAV8.aVEGF stered by subretinal delivery. rAAV8.aVEGF uses an AAV8 vector that contains a gene that encodes for a monoclonal antibody fragment which binds to and neutralizes VEGF activity. Safety is the primary focus for the initial 24 weeks after rAAV8.aVEGF stration (primary study period). In certain embodiments, the study includes administering an anti-VEGF antibody, e.g., ranibizumab, and response is measured at week 1 (Visit 2) by SD-OCT. For patients responsive to this treatment, rAAV8.aVEGF may be stered at Visit 3 (week 2), post- anti-VEGF antibody administration and safety is then assessed through week 26 (24 weeks post-rAAV8.aVEGF administration). Following completion of the primary study period, subjects continue to be assessed until 104 weeks following treatment with rAAV8.aVEGF.
Subjects who meet the inclusion/exclusion criteria are enrolled and receive a 0.5 mg intravitreal injection of ranibizumab in the study eye (Visit 1). At Visit 2 (7 days after zumab injection), subjects are ted by SD-OCT to confirm anatomic response to the initial anti-VEGF activity associated with the ranibizumab injection compared with their baseline assessment. Subjects who do not have an ic response are withdrawn from the study. For withdrawn subjects, anyone who has an AB associated with the ranibizumab injections on Visit 1 is followed until the AE resolves (up to 30 days post-injection). At Visit 3 (Week 2), subjects receive a single dose of rAAV8.aVEGF Fab administered in an operating room by subretinal delivery. The sentinel subject in each cohort has vision of 520/100 and 220/400 (:65 and 235 ETDRS letters). After rAAV8.aVEGF Fab administration to the sentinel subject, there is a 4-week observation period for safety. Up to 5 additional subjects (with expanded vision criteria of 520/63 and 220/400 [:75 and 235 ETDRS letters]) may be ed in parallel with a minimum of 1 day between each enrollment. If no safety review triggers (SRTs) are observed, then 4 weeks after the last t is dosed. Subjects have 3 visits within the first 4 weeks after treatment with rAAV8.aVEGF Fab. Starting 4 weeks after aVEGF Fab administration, subjects may receive intravitreal zumab rescue therapy if they meet predefined rescue ion criteria. Immunogenicity to the vector and transgene of rAAV8.aVEGF Fab is assessed hout the study.
Safety is the primary focus for the initial 24 weeks after rAAV8.aVEGF administration (primary study period). Following completion of the primary study period, subjects continue to be assessed until 104 weeks following treatment with rAAV8.aVEGF (Week 106). At the end of the study, subjects are invited to participate in a long-term - up study. The safety and tolerability of aVEGF are assessed in each dosed subject and are monitored through assessment of ocular and non-ocular ABS and SAEs, chemistry, logy, coagulation, ysis, immunogenicity, ocular examinations and imaging (BCVA, intraocular pressure, slit lamp biomicroscopy, indirect ophthalmoscopy, and SD- OCT), and vital signs.
A. Arms and Interventions Arms Assigned Intervention Dose 1 Biological/Vaccine: rAAV8aVEGF 3XMPGCof is a recombinant associated rAAV8aVEGF virus (AAV) gene therapy vector carrying a coding sequence for a e anti-VEGF protein Experimental: Dose 2 Biological/Vaccine: rAAV8aVEGF 1x1d°GCof is a recombinant associated rAAV8. aVEGF virus (AAV) gene therapy vector carrying a coding sequence for a soluble anti-VEGF protein Experimental: Dose 3 Biological/Vaccine: rAAV8aVEGF 6x1d°GCof is a recombinant adeno-associated rAAV8. aVEGF virus (AAV) gene therapy vector carrying a coding sequence for a soluble anti-VEGF protein B. Endpoints: Primary outcome e: 1. Safety: Incidence of ocular adverse events (AE) and non-ocular serious adverse events (SAE) over 26 weeks ary outcome measure: 2. Safety: Incidence of ocular and non-ocular ABS and SAEs over 106 weeks 3. Change in best corrected visual acuity (BCVA) over 106 weeks 4. Change in central retinal thickness (CRT) as measured by SD-OCT over 106 weeks.
. Rescue injections: mean number of rescue injections over 106 weeks 6. Change in choroidal neovascularization and lesion size and leakage area CNV changes as measured by FA over 106 weeks Criteria: Inclusion Criteria: 1. Patients 2 50 years with a sis of subfoveal CNV secondary to AMD in the study eye receiving prior intravitreal anti-VEGF therapy. Selected patient population is not gender based (males and females included). 2. BCVA between 320/100 and 220/400 (£65 and 235 Early Treatment Diabetic Retinopathy Study [ETDRS] letters) for the first patient in each cohort followed by BCVA between 320/63 and 220/400 (£75 and 235 ETDRS letters) for the rest of the cohort. 3. History of need for and response to anti-VEGF therapy. 4. Response to anti-VEGF at trial entry (assessed by SD-OCT at week 1 Wisit 2) . Must be pseudophakic (status post cataract surgery) in the study eye. 6. Aspartate aminotransferase (AST)/ Alanine aminotransferase (ALT) <25 >< upper limit of normal (ULN), Total Bilirubin (TB) < 1.5 X ULN, ombin time (PT) < 1.5 X ULN, Hemoglobin (Hb) > 10 g/dL (males) and > 9 g/dL (females); Platelets > 100 X 103/ u L, estimated glomerular filtration rate (eGFR) > 30 /1.73 m2 7. Must be willing and able to provide written, signed informed consent.
Exclusion Criteria: 1. CNV or r edema in the study eye secondary to any causes other than AMD. 2. Any condition preventing visual acuity improvement in the study eye, eg, fibrosis, atrophy, or retinal epithelial tear in the center of the fovea. 3. Active or history of retinal ment in the study eye. 4. ed glaucoma in the study eye.
. History of intravitreal therapy in the study eye, such as intravitreal d injection or investigational t, other than anti-VEGF therapy, in the 6 months prior to screening. 6. Presence of an implant in the study eye at screening (excluding intraocular lens). 7. Myocardial infarction, cerebrovascular nt, or transient ic attacks within the past 6 months. 8. Uncontrolled hypertension (systolic blood pressure [BP] >180 mmHg, diastolic BP >100 mmHg) despite maximal medical treatment.
EXAMPLE 12 - Vector Production and Manufacturing A. Description of the Manufacturing Process Cell Seeding: A ied human embryonic kidney 293 cell line is used for the production process. Cell e used for vector production is initiated from a single thawed MCB vial, and expanded per a Master Batch Record Document (MBR). Cells are expanded to 5 x 109 — 5 x 1010 cells using Corning T-flasks and CS-10, which allow sufficient cell mass to be generated for seeding up to 50 HS-36 for vector production per BDS lot. Cells are cultivated in medium composed of Dulbecco’s Modified Eagle Medium (DMEM), mented with 10% gamma irradiated, US-sourced, Fetal Bovine Serum (FBS). The cells are anchorage dependent and cell disassociation is accomplished using TrprETM Select, an animal product-free cell dissociation reagent. Cell seeding is accomplished using sterile, single-use disposable bioprocess bags and tubing sets. The cells are ined at 37°C (:: 2°C), in 5% (:: 0.5%) C02 here.
Transient Transfection: Following imately 3 days of growth (DMEM media + % FBS), HS-36 cell culture media are replaced with fresh, serum free DMEM media and transfected with the 3 production plasmids using an optimized PEI-based transfection method. All plasmids used in the production process are produced in the context of a CMO quality system and infrastructure utilizing controls to ensure traceability, document control, and materials segregation.
Sufficient DNA plasmid transfection complex are prepared in the BSC to transfect 50 HS-36 (per BDS batch). Initially a DNA/PEI mixture is prepared containing 7.5 mg of the nt vector genome plasmid) 150 mg of pAdDeltaF6(Kan), 75 mg of pAAV2/8Kan AAV helper plasmid and GMP grade PEI (PElPro, PolyPlus Transfection SA). This plasmid ratio is determined to be optimal for AAV production in small scale optimization studies.
After mixing well, the on is allowed to sit at room temperature for 25 min. and then added to free media to quench the reaction and then added to the HS-36’s. The transfection e is equalized n all 36 layers of the HS-36 and the cells are ted at 37°C (:: 2°C) in a 5% (:: 0.5%) C02 atmosphere for 5 days.
Cell Media Harvesting: Transfected cells and media are harvested from each HS-36 using disposable bioprocess bags by aseptically ng the medium out of the units.
Following the harvest of media, the ~ 200 liter volume is supplemented with MgClz to a final concentration of 2 mM (co-factor for ase) and Benzonase nuclease (Cat#: 1.0167970001, Merck Group) is added to a final concentration of 25 units/mL. The product (in a disposable bioprocess bag) is incubated at 37°C for 2 hr in an incubator to provide sufficient time for enzymatic digestion of residual cellular and plasmid DNA present in the t as a result of the ection procedure. This step is performed to minimize the amount of residual DNA in the final vector DP. After the incubation , NaCl is added to a final concentration of 500 mM to aid in the recovery of the product during filtration and downstream tangential flow filtration.
Clarification: Cells and cellular debris is removed from the product using a depth filter capsule (12/022 um) connected in series as a sterile, closed tubing and bag set that is driven by a peristaltic pump. Clarification assures that downstream filters and chromatography s are protected fiom g and den reduction filtration ensures that at the end of the filter train, any bioburden potentially introduced during the upstream production process is removed before downstream purification. The harvest material is passed through a Sartorius Sartoguard PES capsule filter (12/022 um) (Sartorius Stedim Biotech Inc.).
Large-scale Tangential Flow Filtration: Volume reduction ld) of the ed product is achieved by tial Flow Filtration (TFF) using a custom sterile, closed bioprocessing tubing, bag and ne set. The principle of TFF is to flow a solution under pressure parallel to a membrane of suitable porosity (100 kDa). The pressure differential drives molecules of smaller size through the membrane and effectively into the waste stream while retaining molecules larger than the membrane pores. By recirculating the solution, the parallel flow sweeps the membrane surface preventing membrane pore fouling.
By choosing an appropriate membrane pore size and surface area, a liquid sample may be rapidly reduced in volume while retaining and concentrating the desired molecule.
Diafiltration in TFF applications involves addition of a fresh buffer to the ulating sample at the same rate that liquid is passing through the membrane and to the waste stream.
With increasing volumes of ration, increasing s of the small molecules are removed from the recirculating sample. This results in a modest purification of the clarified product, but also achieves buffer exchange compatible with the subsequent affinity column chromatography step. Accordingly, a 100 kDa, PES membrane is used for concentration that is then diafiltered with a m of 4 diavolumes of a buffer composed of: 20 mM Tris pH 7.5 and 400 mM NaCl. The diafiltered product is stored overnight at 4°C and then r clarified with a 1.2/0.22 um depth filter e to remove any itated material.
Affinity Chromatography: The diafiltered product is d to a PorosTM Capture SelectTM AAV8 affinity resin (Life Technologies) that efficiently captures the AAV8 serotype. Under these ionic conditions, a significant percentage of residual cellular DNA and proteins flow through the , while AAV particles are efficiently captured. Following application, the column is washed to remove additional feed impurities followed by a low pH step elution (400 mM NaCl, 20 mM Sodium e, pH 2.5) that is immediately neutralized by collection into a 1/10th volume of a neutralization buffer (Bis Tris Propane, 200 mM, pH .2).
Anion Exchange Chromatography: To achieve further reduction of in-process impurities ing empty AAV particles, the Poros-AAV8 n pool is diluted 50-fold (20 mM Bis Tris Propane, 0.001% Pluronic F68, pH 10.2) to reduce ionic strength to enable binding to a CIMultusTM QA monolith matrix (BIA Separations). Following a low-salt wash, vector product is eluted using a 60 CV NaCl linear salt gradient (10-180 mM NaCl). This shallow salt gradient effectively separates capsid particles without a vector genome (empty particles) from particles containing vector genome (full les) and results in a preparation enriched for full capsids. Fractions are ted into tubes ning 1/ 100th volume of 0.1% pluronic F68 and 1/27th volume of Bis Tris pH 6.3 to minimize non-specific binding to tubes and the length of re to high pH respectively. The appropriate peak fiaction is collected, and the peak area assessed and compared to previous data for determination of the approximate vector yield.
Final Formulation and Bioburden Reduction Filtration to yield the BDS: TFF is used to achieve final formulation on the pooled AEX fiactions with a 100 kDa membrane. This is accomplished by diafiltration of formulation buffer (PBS with NaCl and 0.001% Pluronic or PBS with 0.001% Pluronic to be selected following tion of stability studies) and concentrated to yield the BDS Intermediate at a desired target Samples are removed for BDS Intermediate testing (described in the section below). The BDS Intermediate is stored in sterile polypropylene tubes and frozen at 360°C in a quarantine location until release for Final Fill. Stability studies are underway to assess stability following storage at <-60°C.
Final Fill: The frozen BDS is thawed, pooled, adjusted to the target concentration (dilution or concentrating step via TFF) using the final formulation buffer (PBS with NaCl and 0.001% Pluronic or PBS with 0.001% Pluronic to be selected ing completion of stability studies). The product is then be terminally filtered through a 0.22 pm filter and filled into either West Pharmaceutical’s "Ready-to-Use" (pre-sterilized) glass vials or l Zenith (polymer) vials (vial type pending the outcome of comparability studies) and stoppers with crimp seals at a fill volume 2 0.1 mL to 5 0.5 mL per vial. Vials are individually labeled according to the specifications below. Labeled vials are stored at 5 -60°C. All doses require dilution in the ation buffer prior to administration. The on is conducted by the cy at the time of dosing.
B. Assay Methods Sterility and Bacteriostasis/ Fungistasis: This procedure is performed once according to United States Pharmacopeia (USP) <7l>, to ensure that the sample matrix does not cause inhibition of the assay. Included in the test is the suitability test.
Particle Aggregation: Drug product le aggregation is assessed using a c light scattering (DLS) assay. DLS measures fluctuations in scattered light intensity due to diffusing particles and is used to characterize the size of various les in the sample.
DLS instrument software typically displays the particle population at different diameters. If the system is monodisperse, only one population is detected and the mean effective er of the particles can be determined. In a polydisperse system, such as in the case of ation, multiple particle populations are ed and sized using CONTIN analysis.
Residual plasmid DNA: Detection of d DNA sequences is accomplished using qPCR and primer probe sets specific for the kanamycin gene present in the plasmid backbone but not in vector genomes. The assay is performed in both the presence and absence of DNase digestion such that the amount of free plasmid and the amount packaged into vector particles can be determined.
El DNA: iral El DNA is a host cell contaminant and is detected by qPCR specific for the gene. The assay is performed in both the presence and absence of DNase digestion such that both free and packaged El DNA can be quantified.
Residual Host Cell DNA: Levels of residual host cell DNA (HCDNA) are quantified using qPCR directed against the human 18s rDNA gene which is a high copy number DNA sequence and thus confers sensitivity. In addition to total residual HCDNA levels, the amount of DNA at various size ranges is also ined.
Residual Host Cell Protein: Residual 293 host cell protein (HCP) is detected using commercially available ELISA kits such as that sold by Cygnus Technologies.
Poros-AAV8 Leachable Ligand: An Enzyme-Linked Immunosorbent Assay (ELISA) kit supplied by Life Technologies, the maker of the Poros-AAV8 resin, is used to detect leached camelid antibody in the drug product. asma Detection: Mycoplasma testing is performed according to USP <63>.
Bioburden Testing: This test is med according to USP <6l>. xin g: This assay is performed according to USP <85>.
In vitro Assay for itious Agents: The purpose of the in vitro assay for viral contaminants is to detect possible adventitious s introduced during AAV8.AMD vector production and is based upon CBER’s 1993 Points to Consider and ICH Q5A. The in vitro assays use 3 indicator cell lines - human diploid lung (MRC-S) cells, African green monkey kidney (Vero) cells, and human foreskin fibroblast (Hs68) cells. Assay endpoints are observation of cytopathic effects (CPE) over a course of at least 28 days as well as hemadsorption at the end of the assay period, which facilitates the detection of a broad range of viruses.
Vector Genome Identity: DNA Sequencing: Viral Vector genomic DNA is isolated and the sequence determined by 2-fold sequencing coverage using primer g. Sequence alignment is performed and compared to the expected sequence.
Vector Capsid Identity: AAV Capsid Mass spectrometry of VPl: Confirmation of the AAV2/8 serotype of the drug product is achieved by an assay based upon is of peptides of the AAV capsid protein.
Genomic Copy (GC) Titer: A droplet digital PCR (ddPCR)-based technique for determining the genome copy (GC) titer for AAV vectors is described in Lock et al. Human Gene Therapy Methods 25: 115—125. The assay utilized involves digestion with DNase I, ed by digital PCR analysis to measure encapsulated vector genomic copies. DNA detection is accomplished using sequence specific s targeting the RBG polyA region in combination with a fluorescently tagged probe hybridizing to this same region. A number of standards, tion samples and controls (for background and DNA contamination) have been introduced into the assay.
Empty to Full Particle Ratio: The total particle content of the drug product is determined by SDS-PAGE analysis. A reference vector preparation purified on an iodixanol gradient is analyzed by various methods (analytical ultracentrifugation, on microscopy and absorbance at 260/280 nm) to established percentage of full les in the preparation.
This reference material is serially diluted to known genome copy s (and thus by extension, le numbers) and each dilution is run on an SDS PAGE gel along with a similar dilution series of the drug product. Peak area volumes of both the reference material and drug product VP3 protein bands are determined by densitometry and the reference material volumes are plotted versus particle number. The total particle concentration of the drug product is determined by extrapolation from this curve and the genome copy (GC) titer is then subtracted to obtain the empty particle titer. The empty to full particle ratio is the ratio of the empty particle titer to the GC titer.
Infectious Titer: The infectious unit (IU) assay is used to determine the productive uptake and replication ofAAV8.AMD vector in RC32 cells (rep2 expressing HeLa cells). A 96-well end-point format has been employed similar to that previously published. Briefly, RC32 cells are co-infected by serial dilutions of AAV8.AMD BDS and a uniform dilution of Ad5 with 12 replicates at each dilution of rAAV. Seventy-two hours after infection the cells are lysed, and qPCR performed to detect rAAV vector amplification over input. An end- point dilution Tissue e Infectious Dose 50% 0) calculation (Spearman-Karber) is performed to determine a replicative titer expressed as IU/mL. Since "infectivity" values are dependent on particles coming into contact with cells, receptor g, alization, transport to the nucleus and genome replication, they are influenced by assay geometry and the presence of riate receptors and post-binding pathways in the cell line used.
Receptors and post-binding ys are not usually maintained in immortalized cell lines and thus infectivity assay titers are not an absolute measure of the number of "infectious" les present. However, the ratio of encapsidated GC to "infectious units" (described as GC/IU ratio) can be used as a measure of product consistency from lot to lot.
Host Cell DNA: A qPCR assay is used to detect residual human 293 DNA. After g with a "non-relevant DNA", total DNA (non-relevant, vector and residual genomic) is extracted from ~l mL of product. The Host Cell DNA is quantified using qPCR targeting the 188 rDNA gene. The quantities of DNA detected are normalized based on the recovery of the spiked non-relevant DNA.
Host Cell n: An ELISA is performed to measure levels of contaminating host HEK293 cell proteins. The Cygnus Technologies HEK293 Host Cell Proteins 2nd Generation ELISA kit is used according to instructions.
Replication-competent AAV (rcAAV) Assay: A sample is analyzed for the presence of replication competent AAV2/8 (rcAAV) that can potentially arise during the production process.
An example of this type of assay is shown in (FIGs lOA-lOD), Where thAV8 is spiked into different GC amounts ofAAV8 vector and the cap gene copy number per 1 ug of 293 cell DNA is determined after 3 successive passages of the cell lysate onto fresh cells.
The details of the assay development are included in the CTA submission. These results indicate that the minimum detectable amount 8 using this assay is 104 GC. This number is lent to approximately 1 TCID50 IU and reflects the lack of infectivity of AAV8 for 293 cells as evidenced by the high GC:IU ratios obtained compared to AAV2.
The low ivity appears unavoidable With the current assay system but might be overcome in future by engineering a cell line With a yet to be discovered AAV8 ar receptor or other protein ant in post-entry pathways. Spiking the thAV8 into AAV8 vector concentrations of up to 1011 GC had little effect on detection and indicates a lack of interference of the vector on thAV8 replication at this vector level. While Wildtype AAV has been used extensively as a ate in the past for rcAAV2 and in our own rcAAV assay development efforts for AAV8 the best surrogate is a AAV8 capsid containing AAV2 ITRs, an AAV2 rep gene and an AAV8 cap gene. ical Method Acceptance Criteria1 Final Drug Clear to slightly Opaque, Product in colorless to faint White vials Appearance Visual Inspection solution, free of non- product related foreign particulates USP<791> Test Analytical Method Acceptance Criteria1 GC Titer ddPCR 21x10"GC/mL** AAV Vector Genome Sequencing(S anger) m expected sequence Identity Final Drug Total Protein Micro BCA Report result Product in Content Vials Osmolality USP<785> < 400 mOsm Content Empty/Full Particle PT(by SDS-PAGE)/GC ratio Report result Ratio Purity Empty: Full particle ratio OD260/280 Report result Purity Viral Capsid Purity Report result SDS-PAGE Purity ation Characterization Dynamic Light Scattering Report result Purity In Vitro potency HEK293transduction/ ms to nce Potency ranibizumab ELISA standard Transgene expression In Vitro expression and Characterization Positive for ranibizumab ELISA Identity Infectious Titer Characterization TCIDSO/qPCR Report results Potency Analytical Method Acceptance Criteria1 rcAAV by triple passage HEK293 + Ad5 Cell e/qPCR Report s terization Safety AAV-8 signature peptide Capsid Identity detected. Signature Characterization UPLC/Mass Spectrometry peptides for AAV1,2,6,9 hu37 and Rth not detected <0.80 EU/mg* Endotoxin USP<85> 6 the safety limit based on Safety Kinetic Chromogenic dose calculations, pending the verification of total protein) Safety Container Closure Integrity (for stability study Dye Ingress Test Container is Integral only and not for lot release) 1The acceptance criteria is determined upon completion of the first GMP campaign.
*Endotoxin limit calculation is based on dose in Mass. Once the total protein concentration is confirmed from the GMP run, the limit can be recalculated. The current limit is based on the protein concentration from the Tox materials in relation to GC titer. The value is an approximation and not a definitive value. The dual acceptance criteria presented here.
** DP GC Titer ia may change depending on the final selected dose levels for the study The clinically suitable surfactant Pluronic F68 is added to the final formulation buffer ofAAV8.AMD and is anticipated to minimize this type of loss. The interaction of the drug product with both the storage vial and the clinical delivery device is investigated to determine the amount of vector loss h binding to surfaces. GC titers (quCR) of the engineering run drug product are determined before and after vialling and storage at 3 -60°C.
For the delivery device, the DP is thawed, diluted in the appropriate clinical t to the correct dosing concentration and passed through the . GC titrations are performed on the DP directly after thaw, after dilution and after passage through the device, and the appropriate number of replicates is included to assure statistical significance. Comparison of GC titers in this manner enables an assessment of DP loss during storage and administration to the patient. Parallel s are also performed in a similar way to assess the activity of the drug product after passing through the delivery device. For this purpose the in vitro zumab expression-based potency assay is employed. nce Listing Free Text) The following information is provided for sequences containing free text under c identifier <223>.
SEQ ID NO: (containing free text) Free text under <223> l <223> Humanized EGF Fab heavy chain <220> <221> MISC_FEATURE <222> (28)..(39) <223> complementarity determining region MISC_FEATURE (54). . (8 3) complementarity determining region 2 Humanized anti-VEGF Fab MISC_FEATURE (26)..(37) complementarity determining region MISC_FEATURE (107)..(117) complementarity determining region <223> 5'ITR.CB7.CI.aVEGFV2.rBG.3'ITR <220> <221> repeat_region <222> (1)..(130) <223> 5' ITR <220> <221> promoter <222> (198)..(579) <223> CMV IE promoter <220> <221> enhancer <222> (279)..(538) <223> C4 enhancer with 2 mismatches <220> <221> misc_feature <222> (279)..(538) <223> C4 enhancer <220> <221> er <222> (582)..(862) CB promoter TATA_signal .(839) misc_feature (955)..(1829) chicken beta-actin intron Intron (956)..(1928) chicken beta-actin intron Intron (956)..(1928) chicken beta-actin promoter 'UTR (1946)..(1993) c-myc 5' UTR <220> <221> misc_feature <222> (1994)..(1999) <223> kozak sequnce <220> transit_peptide (1999)..(2058) (2059)..(2427) aVEGFvZ VH (2428)..(2748) eature (2752)..(2763) Furin cleavage site (2764)..(2835) F2A linker transit_peptide (2836)..(2895) (2896)..(3216) aVEGFvZ VL <220> <221> CDS <222> (3217)..(3537) <223> CL <220> <221> polyA_signal <222> (3613)..(3739) <223> rabbit globin polyA <220> <221> repeat_region <222> (3828)..(3957) <223> 3'ITR \DOO\]O\Ul-l> <223> Synthetic Construct <223> Synthetic Construct <223> Synthetic uct <223> tic Construct <223> Synthetic Construct <213> Artificial Sequence <220> <223> AAVZS‘ITRUbC.Ci.aVEGFV2.rBG.AAV23'ITR <220> <221> repeat_region <222> (17)..(146) <223> 5' ITR <220> <221> promoter <222> (207)..(1435) <223> UbC With C insertion at 289 and G insertion at 990 <220> <221> Intron <222> (1529)..(1661) <223> chimeric intron <220> <221> 5'UTR <222> (1736)..(1783) <223> c-myc 5'UTR <220> <221> misc_feature <222> (1784)..(1789) <223> kozak <220> <221> misc_feature <222> (1789)..(1848) <223> kozak <220> <221> CDS <222> ..(2217) <223> aVEGFv2 VH <220> <221> CDS <222> (2218)..(2538) misc_feature (2542)..(2553) furin cleavage site misc_feature (2554)..(2625) F2a linker misc_feature (2626)..(2685) Leader (2686)..(3006) <220> <221> CDS <222> (3007)..(3327) <223> CL <220> <221> polyA_signal <222> (3345)..(3576) <223> SV40 late polyadenylation signal <220> <221> repeat_region <222> (3641)..(3770) <223> 3' ITR <223> Synthetic Construct 11 <223> Synthetic Construct 12 <223> tic Construct 13 <223> Synthetic Construct 14 <223> ITR.CB7.CI.aVEGRV3.rBG.ITR <220> <221> repeat_region <222> (1)..(130) <223> 5'ITR <220> <221> er <222> (198)..(579) <223> CMV IE promoter <220> <221> enhancer <222> (279)..(538) <223> C4 enhancer with 2 mismatches <220> <221> promoter <222> (582)..(862) <223> CB promoter <220> TATA_signal (836)..(839) Intron (956)..(1928) chicken beta-actin intron 'UTR (1940)..(1987) misc_feature (1988)..(1993) Kozak misc_feature ..(2052) leader (2053)..(2421) aVEGFv3 VH (2422)..(2742) misc_feature (2746)..(2757) furin ge site misc_feature (2758)..(2829) F2a linker misc_feature (2830)..(2889) leader (2890)..(3210) aVEGFv3 VL (3211)..(3531) <220> <22 l> polyA_signal <222> (3607)..(3733) <223> rabbit globin polyA repeat_region <222> (3822)..(3951) <223> 3' ITR 18 <223> tic Construct 19 <223> ITR.UbC.PI.aVEGFV3.SV40.ITR <220> <22 1> repeat_region <222> (17)..(146) <223> AAVZ 5' ITR <220> <22 1> promoter <222> (207)..(1434) <223> UbC, With C insert at 289 and G insert at <220> <22 1> Intron <222> (1528)..(1660) <223> chimeric intron 'UTR (1729)..(1776) c-myc 5'UTR misc_feature <222> (1777)..(1782) <223> kozak <220> <221> misc_feature <222> (l782)..(l84l) <223> leader <220> <221> CDS <222> (1842)..(2210) <223> aVEGFV3 VH (2211)..(2531) misc_feature ..(2546) furin cleavage site misc_feature (2547)..(2618) F2a linker misc_feature (26 l9)..(2678) leader <220> <221> CDS <222> (2679)..(2999) <223> aVEGFV3 VL <220> <221> CDS <222> (3000)..(3320) <223> CL <220> <221> polyA_signal <222> (3338)..(3569) <223> SV40 late polyA <220> <221> repeat_region <222> (3634)..(3763) <223> AAV2 3'ITR <223> Synthetic Construct 21 <223> Synthetic Construct 22 <223> Synthetic Construct 23 <223> tic Construct 24 <223> ITR.UbC.PI.aVEGFV1.SV40.ITR <220> <221> repeat_region <222> (17)..(146) <223> ITR <220> <221> promoter <222> (207)..(1435) <223> UbC <220> <221> Intron <222> (1529)..(1661) <223> Promoga chimeric intron <220> <221> 5'UTR <222> (1730)..(1777) <223> c-myc 5'UTR <220> <221> misc_feature <222> (1778)..(1783) <223> kozak <220> <221> misc_feature <222> (1783)..(1842) <223> leader ..(2211) aVEGFvl VH (2212)..(2532) misc_feature (2536)..(2547) furin cleavage site misc_feature (2548)..(2619) F2A linker misc_feature ..(2679) leader <220> <221> CDS <222> (2680)..(3000) <223> aVEGFvl VL <220> <221> CDS <222> (3001)..(3321) <223> CL <220> <221> polyA_signal <222> (3339)..(3570) <223> SV40 polyadenylation signal <220> <22 l> repeat_region <222> (3635)..(3764) <223> ITR <223> Synthetic Construct 26 <223> Synthetic Construct 27 <223> Synthetic Construct 28 <223> Synthetic Construct <223> tic leader 31 <223> synthetic leader 2 32 <223> d from encephalomycarditts Virus 33 <223> aVEGF <220> <22 l> MISC_FEATURE <222> (1)..(20) <223> leader <220> <22 l> MISC_FEATURE <222> (21)..(252) <223> aVEGF Heavy Chain <220> <22 l> MISC_FEATURE <222> (280)..(299) <223> leader <220> <22 l> MISC_FEATURE <222> .(513) <223> aVEGF Light Chain 34 <223> ITR.CB7.CI.aVEGFV1.rBG.ITR <220> <221> repeat_region <222> (1)..(130) <223> 5' ITR <220> <221> promoter <222> (204)..(584) <223> CMV IE promoter <220> <221> promoter <222> (585)..(862) <223> CB promoter <220> <221> TATA_signal <222> (836)..(839) <220> <221> Intron <222> (956)..(1928) <223> chicken beta-actin intron <220> <221> 5'UTR <222> (1940)..(1987) <223> c-myc 5'UTR <220> <221> misc_feature <222> (1988)..(1993) <223> kozak <220> <221> misc_feature <222> (1993)..(2052) <223> leader <220> <221> misc_feature <222> (2053)..(2421) <223> aVEGFvl VH <220> <221> misc_feature <222> (2422)..(2742) <223> CH1 misc_feature (2746)..(2757) furin ge site misc_feature (2758)..(2829) F2A linker misc_feature (2830)..(2889) leader misc_feature ..(3210) aVEGFvl VL misc_feature (3211)..(3531) <220> <221> misc_feature <222> (3532)..(3537) <223> stop cassette <220> <221> polyA_signal <222> (3607)..(3733) <223> Rabbit globin poly A <220> <221> misc_feature <222> (3785)..(3821) <223> part ofAAV <220> <221> repeat_region <222> (3822)..(3951) <223> 3'ITR <223> ITR.CB7.CI.aVEGFV4.rBG.ITR <220> <221> repeat_region <222> (1)..(130) <223> 5'ITR <220> <221> promoter <222> (198)..(579) <223> CMV IE promoter <220> <221> enhancer <222> (279)..(538) <223> C4 er <220> <221> promoter <222> (582)..(862) <223> CB promoter <220> <221> Intron <222> (956)..(1928) <223> chicken beta-actin intron <220> <221> 5'UTR <222> (1940)..(1987) <223> c-myc 5'UTR <220> <221> misc_feature <222> (1988)..(1993) <223> kozak <220> <221> misc_feature <222> (1993)..(2052) <223> leader misc_feature (2053)..(2421) aVEGFV4 VH misc_feature (2422)..(2742) eature (2746)..(2757) furin cleavage site misc_feature (2758)..(2829) F2A linker misc_feature <222> (2830)..(2889) <223> leader <220> <22 1> misc_feature <222> (2890)..(3210) <223> aVEGFV4 VL <220> <22 1> misc_feature <222> (3211)..(3531) <223> CL misc_feature (3532)..(3537) stop cassette <220> <22 1> polyA_signal <222> (3607)..(3733) <223> Rabbit globin poly A <220> <22 1> repeat_region <222> (3822)..(3951) <223> 3'ITR 36 <223> ITR.CB7.CI.aVEGFV5 TR <220> <22 1> repeat_region <222> (1)..(130) <223> 5'ITR <220> <221> promoter <222> (198)..(579) <223> CMV IE promoter <220> <221> enhancer <222> (279)..(538) <223> C4 enhancer <220> <221> promoter <222> (582)..(862) <223> CB er <220> <221> Intron <222> (956)..(1928) <223> chicken beta-actin intron <220> <221> 5'UTR <222> (1940)..(1987) <223> c-myc 5'UTR <220> <221> misc_feature <222> (1988)..(1993) <223> kozak misc_feature (1993)..(2052) leader misc_feature (2053)..(2421) aVEGFvS VH misc_feature (2422)..(2742) misc_feature (2746)..(2757) furin cleavage site eature (2758)..(2829) F2A linker misc_feature (2830)..(2889) leader misc_feature (2890)..(3210) aVEGFVS VL misc_feature (3211)..(3531) misc_feature (3532)..(3537) stop cassette <220> <22 1> polyA_signal <222> ..(3733) <223> rabbit globin poly A <220> <22 1> repeat_region <222> (3822)..(3951) <223> 3'ITR 37 <223> ITR.CB7.CI.aVEGFV6.rBG.ITR <220> <22 1> repeat_region <222> (1)..(130) <223> 5'ITR <220> <221> promoter <222> (198)..(579) <223> CMV IE promoter <220> <221> enhancer <222> (279)..(538) <223> C4 enhancer <220> <221> promoter <222> (582)..(862) <223> CB promoter Intron (956)..(1928) chicken beta-actin intron 'UTR ..(1987) c-myc 5'UTR misc_feature (1993)..(2052) leader misc_feature (2053)..(2421) aVEGFV6 VH misc_feature (2422)..(2742) misc_feature (2746)..(2757) furin cleavage site misc_feature (2758)..(2829) F2A linker misc_feature (2830)..(2889) leader eature (2890)..(3210) aVEGFV6 VL misc_feature (3211)..(3531) <220> <221> eature <222> (3532)..(3537) <223> stop cassette <220> <221> polyA_signal <222> (3607)..(3733) <223> Rabbit globin poly A <220> <221> repeat_region <222> (3822)..(3951) <223> 3'ITR 38 <223> ITR.CB7.CI.aVEGFV7.rBG.ITR <220> <221> repeat_region <222> (1)..(130) <223> 5'ITR <220> <221> promoter <222> (198)..(579) <223> CMV IE promoter <220> <221> enhancer <222> (279)..(538) <223> C4 enhancer <220> <221> promoter <222> (582)..(862) <223> CB promoter Intron (956)..(1928) chicken beta-actin intron <220> <221> 5'UTR <222> (1940)..(1987) <223> c-myc 5'UTR <220> <221> misc_feature <222> ..(1993) <223> kozak <220> <221> misc_feature <222> (1993)..(2052) <223> leader misc_feature (2053)..(2421) aVEGFV7 VH misc_feature (2422)..(2742) misc_feature (2746)..(2757) furin ge site misc_feature (2758)..(2829) F2A linker misc_feature (2830)..(2889) leader misc_feature (2890)..(3210) aVEGFV7 VL misc_feature (3211)..(3531) misc_feature (3532)..(3537) stop cassette <220> <221> polyA_signal <222> (3607)..(3733) <223> rabbit globin poly A <220> <221> repeat_region <222> (3822)..(3951) <223> 3'ITR <223> ITR.CB7.CI.aVEGFV8.rBG.ITR <220> <221> repeat_region <222> (1)..(130) <223> 5'ITR <220> <221> promoter <222> (198)..(579) <223> CMV IE promoter <220> <221> enhancer <222> (279)..(538) <223> C4 er <220> <221> promoter <222> (582)..(862) <223> CB promoter Intron (956)..(1928) chicken beta-actin intron <220> <221> 5'UTR <222> (1940)..(1987) <223> c-myc 5'UTR <220> <221> misc_feature <222> (1988)..(1993) <223> kozak <220> <221> eature <222> (1993)..(2052) <223> leader misc_feature (2053)..(2421) aVEGFv8 VH misc_feature (2422)..(2742) misc_feature (2746)..(2757) furin cleavage site misc_feature (2758)..(2829) F2A linker eature (2830)..(2889) leader misc_feature (2890)..(3210) aVEGFV8 VL misc_feature (3211)..(3531) misc_feature (3532)..(3537) stop cassette <220> <221> polyA_signal <222> (3607)..(3733) <223> rabbit globin poly A <220> <221> repeat_region <222> (3822)..(3951) <223> 3'ITR <223> ITR.CB7.CI.aVEGFV9.rBG.ITR <220> <221> _region <222> (1)..(130) <223> 5'ITR <220> <221> promoter <222> (198)..(579) <223> CMV IE promoter <220> <221> enhancer <222> (279)..(538) <223> C4 enhancer <220> <221> promoter <222> (582)..(862) <223> CB promoter <220> <221> Intron <222> (956)..(1928) chicken beta-actin intron 'UTR (1946)..(1993) c-myc 5'UTR <220> <221> misc_feature <222> (1994)..(1999) <223> kozak <220> <221> misc_feature <222> ..(2058) <223> leader misc_feature (2059)..(2427) aVEGFV9 VH misc_feature (2428)..(2748) misc_feature (2752)..(2763) furin cleavage site misc_feature (2764)..(2835) F2A linker misc_feature (2836)..(2895) leader misc_feature (2896)..(3216) aVEGFV9 VL misc_feature (3217)..(3537) misc_feature (3538)..(3543) Stop Cassette <220> <221> polyA_signal <222> ..(3739) <223> rabbit globin poly A repeat_region <222> (3828)..(3957) <223> 3'ITR 41 <223> ITR. CB7. CI.aVEGFV 1 0.rBG.ITR <220> <221> repeat_region <222> (1)..(130) <223> 5'ITR <220> <221> promoter <222> (198)..(579) <223> CMV IE promoter <220> <221> er <222> (279)..(538) <223> C4 enhancer <220> <221> promoter <222> (582)..(862) <223> CB promoter <220> <221> Intron <222> (956)..(1928) <223> chicken beta-actin intron <220> <221> 5'UTR <222> (1940)..(1987) <223> c-myc 5'UTR <220> <22 l> misc_feature <222> (1988)..(1993) <223> kozak <220> <22 l> misc_feature <222> (1993)..(2052) <223> leader misc_feature (2053)..(2421) aVEGFle VH misc_feature ..(2742) misc_feature (2746)..(2757) furin cleavage site misc_feature (2758)..(2829) F2A linker misc_feature (2830)..(2889) leader misc_feature (2890)..(3210) aVEGFle VL misc_feature (3211)..(3531) eature (3532)..(3537) stop cassette <220> <221> polyA_signal <222> (3607)..(3733) <223> rabbit globin poly A repeat_region (3822)..(3951) 3'ITR <223> ITR.CB7.CI.aVEGFV11.rBG.ITR <220> <221> repeat_region <222> (1)..(130) <223> 5'ITR <220> <221> promoter <222> (198)..(579) <223> CMV IE promoter <220> <221> enhancer <222> (279)..(538) <223> C4 enhancer <220> <221> promoter <222> (582)..(862) <223> CB er Intron (956)..(1928) chicken beta-actin intron 'UTR (1940)..(1987) c-myc 5' UTR <22 l> misc_feature <222> (1988)..(1993) <223> kozak <220> <22 l> misc_feature <222> (1993)..(2052) <223> leader <220> <22 l> misc_feature <222> (2053)..(2421) <223> aVEGFvll VH misc_feature (2422)..(2742) misc_feature (2746)..(2754) furing cleavage site misc_feature (2755)..(2829) F2A linker eature (2830)..(2889) misc_feature (2890)..(3210) aVEGFvl 1 VL misc_feature (3211)..(3531) misc_feature (3532)..(3537) stop cassette signal (3607)..(3733) rabbit globin poly A repeat_region (3822)..(3951) 3' ITR <223> ITR.CB7.CI.aVEGFV12.rBG.ITR <220> <221> repeat_region <222> (1)..(130) <223> 5'ITR <220> <221> promoter <222> (198)..(579) <223> CMV IE promoter <220> <221> enhancer <222> .(538) <223> C4 enhancer <220> <221> promoter <222> (582)..(862) <223> CB promoter Intron (956)..(1928) chicken beta-actin intron <220> <221> 5'UTR <222> (1940)..(1987) <223> c-myc 5'UTR <220> <221> misc_feature <222> (1988)..(1993) <223> kozak misc_feature (1993)..(2052) leader misc_feature (2053)..(2421) aVEGFV 12 VH misc_feature (2422)..(2742) misc_feature ..(2757) furing cleavage site misc_feature (2758)..(2829) F2A linker misc_feature (2830)..(2889) leader misc_feature <222> (2890)..(3210) <223> aVEGFle VL <220> <22 1> misc_feature <222> (3211)..(3531) <223> CL <220> <22 1> eature <222> (3532)..(3537) <223> stop cassette <220> <22 1> polyA_signal <222> (3607)..(3733) <223> rabbit globin poly A repeat_region (3822)..(3951) 3'ITR 44 <223> ITR. CB7. CI.aVEGFV 1 3 .rBG.ITR <220> <22 1> repeat_region <222> (1)..(130) <223> 5'ITR <220> <22 1> misc_feature <222> (131)..(167) <223> part ofAAV <220> <221> promoter <222> (198)..(579) <223> CME IE promoter <220> <221> misc_feature <222> (204)..(233) <223> promoter start enhancer .(538) C4 enhancer With 2 mismatches <220> <221> misc_feature <222> (561)..(584) <223> CMV promoter end <220> <221> promoter <222> (582)..(862) <223> CB promoter <220> <221> misc_feature <222> (585)..(615) <223> begin promoter TATA_signal (836)..(839) Intron (956)..(1928) chichen ctin intron <220> <221> misc_feature <222> (1814)..(1830) <223> end of intron <220> <221> 5'UTR <222> (1940)..(1987) <223> c-myc 5'UTR <220> <221> misc_feature <222> (1988)..(1993) <223> kozak <220> <221> misc_feature <222> (1993)..(2052) <223> leader misc_feature (2053)..(2421) aVEGFV13 VH eature (2422)..(2742) misc_feature (2746)..(2757) furin cleavage site misc_feature (2758)..(2829) F2A linker misc_feature (2830)..(2889) leader misc_feature (2890)..(3210) aVEGFV 13 VL misc_feature (3211)..(3531) <220> <221> misc_feature <222> ..(3537) <223> stop cassette <220> <221> polyA_signal <222> (3607)..(3733) <223> rabbit globin poly A <220> <221> misc_feature <222> (3785)..(3821) <223> part ofAAV <220> <221> repeat_region <222> (3822)..(3951) <223> 3'ITR 45 <223> ITR.CMV.PI.aVEGFV7.eMCV.IRES.SV40.ITR <220> <221> repeat_region <222> (1)..(130) <223> ITR <220> <221> promoter <222> (19 1). . (932) human CMV I.E. enhancer & er Intron (1047)..(1179) Promega chimeric intron <220> <221> 5'UTR <222> (1248)..(1295) <223> c-myc 5'UTR <220> <221> misc_feature <222> (1299)..(1307) <223> kozak <220> <221> misc_feature <222> (1305)..(1364) <223> leader misc_feature (1365)..(1685) aVEGFV7 VL misc_feature (1686)..(2006) enhancer ..(2608) misc_feature (2606)..(2665) leader <220> <221> misc_feature <222> (2666)..(3034) <223> aVEGFV7 VH <220> <221> misc_feature <222> (3035)..(3355) <223> CH1 <220> <221> polyA_signal <222> (3384)..(3615) <223> SV40 late polyadenylation signal repeat_region (3680)..(3 809) 46 <223> ITRCMV.Pl.aVEGFV7.fmleES.SV40.ITR repeat_region (1)..(130) <220> <221> promoter <222> (191)..(932) <223> human CMV LE. enhancer and er <220> <221> TATA_signal <222> (897)..(901) <220> <221> Intron <222> (1047)..(1179) <223> Promega chimeric intron <220> <221> 5'UTR <222> (1248)..(1295) <223> c-myc 5'UTR <220> <221> misc_feature <222> (1299)..(1307) <223> kozak <220> <221> misc_feature (1305)..(1313) leader misc_feature (1314)..(1364) leader misc_feature (1365)..(1685) misc_feature (1686)..(2006) misc_feature (2021)..(2482) misc_feature (2501)..(2542) leader misc_feature (2543)..(2911) aVEGFV7 VH <220> <221> misc_feature <222> (2912)..(3232) <223> CH1 <220> <221> polyA_signal <222> (3261)..(3492) <223> SV40 late enylation signal <220> <221> repeat_region <222> (3557)..(3686) <223> ITR 47 <223> ITRCMVPI.aVEGFV7.cMycIRES.SV40.ITR <220> <221> repeat_region <222> (1)..(130) <223> ITR <220> <221> promoter <222> (191)..(932) <223> human CMV LE. enhancer and promoter <220> <221> TATA_signal <222> (897)..(901) Intron (1047)..(1179) Promega chimeric intron <220> <221> 5'UTR <222> (1248)..(1295) <223> c-myc 5'UTR <220> <221> misc_feature <222> (1299)..(1307) <223> kozak <220> <221> misc_feature <222> ..(1313) <223> leader misc_feature (1314)..(1364) leader misc_feature (1365)..(1685) aVEGFV7 VL misc_feature (1686)..(2006) misc_feature (2021)..(2415) IRES c-myc misc_feature (2226)..(2273) mini c-myc IRES misc_feature ..(2275) this C to T mutaion increases expression misc_feature (2434)..(2475) leader misc_feature (2476)..(2844) aVEGFV7 VH misc_feature (2845)..(3165) <223> CH1 <220> <221> polyA_signal <222> (3194)..(3425) <223> SV40 late polyadenylation signal <220> <221> repeat_region <222> ..(3619) <223> ITR 48 <223> AAV8 capsid 49 <223> Nucleic acid sequence ofAAV8 capsid All publications cited in this specification are incorporated herein by reference in their entireties, as are US Provisional Patent Application No. 62/466,721, filed March 3, 2017, US Provisional Patent Application No. 62/460,515, filed February 17, 2017, US Provisional Patent Application No. 62/442,946, filed January 5, 2017, US Provisional Patent Application No. ,100, filed May 3, 2016 and US Provisional Patent Application No. ,184, filed April 15, 2016. rly, the Sequence Listing filed herewith is hereby incorporated by reference. While the invention has been described With reference to particular embodiments, it Will be appreciated that modifications can be made Without departing from the spirit of the invention. Such modifications are intended to fall Within the scope of the appended claims.
Claims (20)
1. A recombinant adeno-associated virus (rAAV) having an AAV8 capsid which is suitable for subretinal and/or intra-retinal injection, wherein the rAAV comprises a vector genome packaged within the capsid, said vector genome comprising: (a) an AAV inverted terminal repeat (ITR), (b) a coding sequence for an anti- human vascular endothelial growth factor (VEGF) antigen binding antibody fragment (Fab) having an exogenous leader sequence, a heavy immunoglobulin chain, a linker, and a light immunoglobulin chain having an exogenous leader sequence, wherein the coding sequence is operably linked to regulatory elements which direct expression of the anti-VEGF Fab in the eye, (c) regulatory elements which direct expression of the heavy and light immunoglobulin chains of the anti-VEGF Fab which comprise a promoter selected from a chicken beta-actin promoter or a ubiquitin C promoter, and (d) an AAV ITR.
2. The rAAV according to claim 1, n the linker is an F2A linker.
3. The rAAV ing to claim 1 or claim 2, wherein the heterologous leader sequence is an 1L2 leader.
4. The rAAV ing to any one of claims 1 to 3, wherein the regulatory elements further comprises a UTR ce.
5. The rAAV according to any one of claims 1 to 4, wherein the regulatory ts r comprise an enhancer and an intron.
6. The rAAV according to claim 5, wherein the regulatory elements comprise a cytomegalovirus ate-early enhancer, a CB7 promoter, and a chicken B-actin intron.
7. The rAAV according to any one of claims 1 to 6; wherein the coding sequence for the anti-VEGF Fab heavy and light chain variable regions are selected from the group consisting of: (a) aVEGFv3 ( SEQ ID \IO: 24); (b) aVEGFv2 (SEQ ID NO: 3); or (c) aVEGFvl (SEQ ID I\O: 19); (d) aVEGFv4 (SEQ ID I\O: 35); (e) aVEGFvS (SEQ ID I\O: 36); (f) aVEGFv6 (SEQ ID NO: 37); (g) aVEGFv7 (SEQ ID I\O: 38); (h) aVEGFv8 (SEQ ID I\O: 39); (i) aVEGF V9 (SEQ ID I\O: 40); (j) e (SEQ ID NO: 41); (k) aVEGFvll (SEQ ID NO: 42); (l) l2 (SEQ ID NO: 43); or (m) aVEGFvl3 (SEQ ID NO: 44).
8. A recombinant adeno-associated virus (rAAV) having an AAV8 capsid Which is suitable for sub-retinal and/or intra-retinal inj ection; Wherein the rAAV comprises a vector genome packaged Within the capsid; said vector genome selected from the group consisting of: (a) ITR-CB7-CI-aVEGFv3-rBG—ITR (SEQ ID NO: 14); (b) 7-CI-aVEGFv2-rBG-ITR (SEQ ID NO: 3); (c) ITR-UbC-CI-aVEGFv2-SV40-ITR (SEQ ID NO: 9): (d) C-PI-aVEGFv3-SV40-ITR (SEQ ID NO: 19); (e) ITR-UbC-PI-aVEGFvl-SV40-ITR (SEQ ID NO: 24); (I) ITR-CB7.CI.aVEGFv4.rBG-ITR (SEQ ID NO: 35); (g) ITR-CB7.CI.aVEGFvSrBG-ITR (SEQ ID NO: 36); (h)ITR—CB7.CI.aVEGFv6.rBG- ITR (SEQ ID NO: 37); (i) ITR-CB7.CI.aVEGFv7.rBG- ITR (SEQ ID NO: 38); (j) ITR-CB7.CI.aVEGFv8.rBG- ITR (SEQ ID NO: 39); (k) ITR-CB7.CI.aVEGFv9.rBG— ITR (SEQ ID NO: 40); (l) ITR-CB7.CI.aVEGFle.rBG— ITR (SEQ ID NO: 41); (m) ITR-CB7.CI.aVEGFVl 1.rBG- ITR (SEQ ID NO: 42); (n) ITR-CB7.CI.aVEGFVl3.rBG- ITR (SEQ ID NO: 43); (o) ITR-CB7.CI.aVEGFVl4.rBG- ITR (SEQ ID NO: 44); (p) SEQ ID NO: 45; (q) SEQ ID NO: 46; or (r) SEQ ID NO: 47.
9. A liquid suspension suitable for sub-retinal and/or intra-retinal inj ; said composition comprising an aqueous liquid and recombinant adeno-associated Virus (rAAV) and according to any one of claims 1 to 8 and optionally one or more excipients; preservatives; and/or surfactants.
10. A recombinant adeno-associated Virus (rAAV) according to any one of claims 1 to 8 or a liquid sion according to claim 9 administrable subretinally to a patient.
11. The rAAV according to claim 10; wherein said patient has wet age-related macular degeneration.
12. Use of a rAAV ing to any one of claims 1 to 8 or a liquid suspension according to claim 9 in preparing a medicament for inal administration to a t.
13. Use according to claim 12; wherein said patient has wet age-related macular degeneration.
14. A method for administering an anti-VEGF Fab to a patient having wet age- related related macular degeneration; the method sing subretinally injecting a patient's eye with a liquid suspension according to claim 9.
15. The method according to claim 10; the rAAV according to claim 10; or the use according to claim 12; wherein the injection comprises about 1 X 108 genome copies (GC) per eye to about 1.5 X 1012 GC per eye, wherein GC is as determined using digital droplet PCR.
16. The method, rAAV or use according to claim 15, wherein the dose is about 5 X 108 GC/eye to 2 X 1011GC/eye.
17. The method, rAAV or use according to claim 15, wherein the dose is about 7 X 109 GC/eye to 2 X 1010 GC/eye.
18. The method, rAAV or use according to any one of claims 15 to 17, wherein the rAAV are delivered in a volume of about 75 uL to about 150 uL of the suspension.
19. The , rAAV or use according to any one of claims 15 to 18, wherein the rAAV are delivered in a volume of about 100 uL of the suspension.
20. A product sing: (a) a first container comprising an rAAV according to any one of claims 1 to 8 and an aqueous liquid, (b) optionally a second container comprising a diluent, and (c) a needle for injection. MM ma}. \zv- \ V .v ,, >. \u . . _ _ _. §a§s;sgv§-'£&:§§s§f¥=§ \mm“WWW“mm~m~m~mw mm““WWW““mmmm‘m‘ N“\ : M :k-«AQ § § :vaVu \ ~ §v~zfi§ V § V . V x\\\\\\\\\\\\\\\\\\\\\\\\ \x.x.x.x.\x.x.x.\\\\\\\\\\\\\\\\\\\x\\x§ 1% -§ -,\ E‘ § i“ e\§‘{\ i ififi\w. § \ i: }\‘3.\fi § \c R§kfi “Q“: : § aw}: § § :\-~z’\\\ xxx“x“xxxxxx“x“xxxxxx“x“xxxxxx“t“<«xxx“x“xxxxxx“x““xxx““xxxxxxxxxxw &\\\u \ fix,’ . \ fsx‘mm mfimmx FIG 1 3 g} g3 {} ~\----\---~\~“---~\~\---~“---~\~“---~\~\--~\~“---~\~\----\~\--~\~“---~\~\----\---~\~“--WWNNWW“ 1?. {R} :{3 - ‘ aVEGE—va g awxgmm 1% ~ Wm: va . Wm: aVEGF»RvI g} . .. ..... ...... ...... ...... ....... ........_._ ..... ..... {E SQ iiifi} ' ifigégys; 1§3§§$§§§2§§mm§3 FIG 2 35”“) Replacement Sheet Anterior chamber fluid Serum 5,555 , “9" 5} W"(362442 "$95631 16 (fig/mi} 5555555 _ (nglmi) expression 5559 expregsian transgene 555 transgene 59 198 150 255% 259 303 35G Study day Study day H35 3A HQ“ Anteriarchamber fluid Serum 55555550 , .29% +C§6522 +£63‘i43 (ngimi) 5,9550 (ngimfi +855945 axgrassicn 5539: 5+05299550355, 555 535555522 505555 expreeeicn transgene 19 5+.» 535537553 5QSH 5+C‘55955 0355 5.9553555, 05555 ----s~ 055555225515535 transgene 5555—5363753 05:5,: 5—555 55559.55 OD55 5% 19E} 150 290 25% 305) 350 '5 55} 166 15% 238- 255) 35} Study day Study day §§§5 3S fig, 3% SUBSTITUTE SHEET (RULE 26) 43’“) Replacement Sheet Anterior chamber fluid Serum 333,333,333 , “9”C5812? We" (374423“; "EmC658?3 } 3333333
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US201762460515P | 2017-02-17 | 2017-02-17 | |
US201762466721P | 2017-03-03 | 2017-03-03 | |
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