WO2020061560A1 - Synthetic binding agents for limiting permeation through mucus - Google Patents
Synthetic binding agents for limiting permeation through mucus Download PDFInfo
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- WO2020061560A1 WO2020061560A1 PCT/US2019/052396 US2019052396W WO2020061560A1 WO 2020061560 A1 WO2020061560 A1 WO 2020061560A1 US 2019052396 W US2019052396 W US 2019052396W WO 2020061560 A1 WO2020061560 A1 WO 2020061560A1
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- binding agent
- synthetic binding
- amino acid
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Classifications
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- C—CHEMISTRY; METALLURGY
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- C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans
- C07K16/28—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants
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Definitions
- the present disclosure generally relates to methods and compositions for enhancing agglutination of a target, facilitate enchaining of a target, and/or muco -trapping of a target to prevent conception (e.g., for contraception), and/or to prevent or treat infection, including viral, bacterial and/or fungal infections.
- the mucosal barrier plays an important potential protective role as a barrier to prevent foreign matter from entering the body.
- the mucosal barrier may be further enhanced by local immunity that allows a robust immune system response to occur at mucosal membranes of the intestines, the urogenital tract and the respiratory system, i.e., surfaces that are in contact with the external environment.
- the mucosal immune system may provide protection against pathogens but maintains a tolerance towards non-harmful commensal microbes and benign environmental substances. Since the mucosal membranes are the primary contact point between a host and its environment, a large amount of secondary lymphoid tissue is found here.
- the mucosa-associated lymphoid tissue provides a critical element of the mucosal immune response.
- the mucosal immune system provides three main functions; serving as the body's first line defense from antigens and infection, preventing systemic immune responses to commensal bacteria and food antigens (primarily food proteins in the gut-associated lymphoid tissue, so-called oral tolerance), and regulating appropriate immune responses to pathogens encountered on a daily basis.
- the mucosal immune response may be inadequate, and it is often difficult to elicit the necessary immune response for sufficient duration.
- This is exemplified by the lack of effective vaccines against the majority of sexually transmitted infections, including HIV, Herpes, Chlamydia and Gonorrhea. Consequently, enhancements of the mucus barrier and the mucosal immune system by direct delivery of antibodies have been suggested as one method of treating or preventing infection. See, e.g., US 20150284451 , which describes the use of compositions to prevent pathogen infection by applying antibodies that may interact with mucus.
- compositions including compositions of engineered/synthetic binding agents for enhancing agglutination, enchainment and/or muco- trapping of a target, i.e., reducing the fraction of target entities that could permeate through mucus, including pathogens and sperm.
- the target typically has one or more epitopes, and may be a virus, bacteria, fungus, sperm or parasite.
- the synthetic binding agents described herein are multimeric, having multiple epitopebinding regions. All of these epitope-binding regions may be immunoglobulin fragment antigen binding (Fab) regions or fragments, and may include a core of a human or humanized Immunoglobulin G (IgG) having Fab and Fc domains.
- Fab immunoglobulin fragment antigen binding
- the synthetic binding agents for enhancing agglutination and/or muco-trapping described herein may include a human or humanized IgG that is linked to one or more additional Fab domains, wherein the one or more additional Fab domains and the parent IgG Fab domains all specifically bind to the target epitope with high affinity, and may reduce the mobility of the target in mucus to less than about 50% relative to its native mobility in mucus.
- the synthetic binding agents may be recombinant (e.g., engineered) antibodies.
- any of the synthetic binding agents described herein may be further configured (or selected) to enhance mucin crosslinking once bound to the target, but may otherwise be relatively free to diffuse through mucus (e.g., have a low affinity for mucins).
- native mobility refers to the mobility of the target (e.g., sperm, virus, bacteria, etc.) in the same environment (e.g., mucus, saline, etc.) in the absence of a synthetic binding agent or antibody.
- compositions of engineered/synthetic binding agents that could provide bactericidal and/or microbicidal effect by more effectively dumping together pathogens that undergo cell division, which leads to a chain of bacteria and/or other pathogens, and potentially inhibiting replication, triggering cell death, e.g., forming aggregations (including in some variations multi-pathogen aggregations) and/or preventing the spread of the infection through either agglutination or enchained growth.
- a contraceptive synthetic binding agent may be referred to herein as a human contraceptive agent (HCA), although these methods may also be used for non-human (e.g., animal) contraception.
- HCA human contraceptive agent
- contraceptive methods and HCA compositions including recombinant engineered antibodies (Ab) that can block sperm permeation through mucus.
- Ab recombinant engineered antibodies
- a major effector function for Ab in mucus is to arrest the forward motion of foreign entities such as viruses and highly motile bacteria, and block them from reaching target cells. This function can be accomplished in two ways. First, when concentrations of the foreign entity are high such that the foreign bodies would frequently collide, Ab can crosslink two or more bodies together, resulting not only in an increase in hydrodynamic diameter but also an effective
- vaginally dosed antigen-specific IgG that are tuned to possess weak affinity to mucins can trap viruses in mucus by forming multiple weakly adhesive bonds between the vims and the mucin mesh (akin to a VELCRO® patch with individually weak hooks).
- aggregates of the bacteria may be formed by enchaining the daughter cell of the dividing bacteria with the mother cell i.e. enchained growth. The end result is a clump of foreign bodies (similar to what would be formed by agglutination) but without requiring independent and distinct foreign bodies from colliding with each other.
- concentrations in more distal sites such as the cervical canal.
- the various HCA constructs described herein are configured to act by blocking sperm permeation through mucus and preventing sperm from reaching the egg and may therefore harness both agglutination and muco-trapping mechanisms.
- Polyvalent Ig such as slgA and IgM are markedly more potent agglutinators than IgG (IgM is ⁇ I 000-fold more potent at agglutination than IgG).
- IgM is ⁇ I 000-fold more potent at agglutination than IgG.
- IgG represents the predominant isotype of Ab under clinical development and has an outstanding track record of safety in humans.
- IgG represents the most logical platform for developing more potent HCA. Greater potency not only translates to lower doses of HCA needed but also maximizes the potential effectiveness of HCA-based contraception.
- a synthetic binding agent for enhancing agglutination and/or muco- trapping of a target having an epitope may include: a human or humanized Immunoglobulin G (IgG) having a pair of Fab domains, wherein the human or humanized IgG is linked to one or more additional immunoglobulin fragment antigen binding (Fab) domains, wherein the one or more additional Fab domains and the IgG Fab domains all specifically bind to the epitope of the target, so that the synthetic binding agent binds to the target with high affinity and reduces the mobility of the target in mucus to less than about 50% relative to its native mobility in mucus (or in some variations, in water).
- IgG Immunoglobulin G
- Fab immunoglobulin fragment antigen binding
- the reduction of mobility in mucus may be due to enhanced agglutination by the synthetic binding agent (construct), and/or due to enhanced enchainment of targets that can divide.
- the one or more additional Fab domains and the IgG Fab domains may bind different epitopes on the same target (e.g., pathogen).
- any number (preferably an even number) of additional Fab domains may be included.
- the one or more additional Fab domains may comprise 2, 4, 6 or 8 additional Fab domains.
- the synthetic binding agent is a contraceptive synthetic binding agent (e.g., a contraceptive antibody), and the target is sperm and all of the one or more Fab domains and the IgG Fab domains specifically bind repeating poly-n-acetyllactosaminyl structures on sperm, an N-linked glycosylated form of SEQ ID: 1 (e.g., an amino acid sequence comprising GQNDTSQTSSPS), where the glycans are poly-n-acetyllactosamine.
- This target is referred to herein as CD52g.
- the additional Fab domains may each comprise: (x) a heavy chain (HC) with a variable region (VH) comprising complementarity determining region(s) (CDRs) having the amino acid sequence of: SEQ ID NO: 4 (e.g., an HC CDR sequence as SEQ ID NO: 4);
- the at least one additional Fab domain of the synthetic binding agent is linked to a Fab domain of the pair of Fab domains of the IgG; alternatively or additionally, the at least one additional Fab domain may be linked to an Fc region of the IgG.
- the IgG may comprise at least one Fc region that is a naturally occurring sequence. As described below, in some variations the Fc sequence may also be modified (for instance, to prolong systemic circulation and reduced interactions with other immune cells).
- amino acid sequences of the additional Fab domains do not have to be identical to each other or to the IgG Fab domains, although they may all bind to the same antigen with approximately the same affinity.
- One of reasonable skill in the art may apply known methods to vary the sequence while retaining substantially all of the binding affinity. For example, conservative amino acid substitutions may be made (e.g., an exchange between two amino acids separated by a small physicochemical distance).
- the additional Fab domains may comprise: (i) a heavy chain (HC) with a variable region (VH) comprising complementarity determining region(s) (CDRs) having an amino acid sequence that is between 100% and 75% (e.g., between l00%-80%, between 100%-85%, between l00%-90%, between !00%-95%, etc.) identical to the amino acid sequence of the IgG Fab domain (e.g., for an CD52g synthetic binding peptide, having an amino acid sequence that is between 100% and 75% (e.g., between !00%-80%, between 100%-85%, between 100%-90%, between l00%-95%, etc.) identical to the amino acid sequence of SEQ ID NO: 4, e.g., an HC CDR sequence as SEQ ID NO: 4); and/or (ii) a light chain (LC) with a variable region (VL) comprising complementarity determining the amino acid sequence having an amino acid
- CDRs complementarity determining region
- the one or more additional Fab domains may be linked to the IgG via a flexible linker comprising an amino acid sequence comprising n pentapeptide repeats consisting of Glycine (G) and Serine (S), wherein n is between 2 and 15 (e.g., between 2 and 14, between 2 and 13, between 2 and 12, between 2 and 11, between 2 and 10, between 2 and 9, between 2 and 8, between 3 and 15, between 3 and 14, between 3 and 13, between 3 and 12, between 3 and 11, between 3 and 10, between 3 and 9, between 3 and 8, etc.).
- G G
- S Serine
- linkers not limited to amino acid/peptide linkers, may be used, for example, non-amino acid polymers such as polynucleotide linkers and other synthetic linkers, In general, the linkers do not need to be identical.
- Linkers may be one set of glycine serine linkers that are used for connecting one Fab, but another set of linkers uses, e.g., (EAAAK) 3 , and/or yet another set of linker uses (Ala-Pro) n (10 - 34 aa) linker.
- nucleic acid molecules encoding any of the synthetic binding agents described herein.
- vectors comprising any of these nucleic acid molecules and/or an isolated host cell or a non-human organism transformed or transfected with the nucleic acid molecule.
- compositions comprising any of the synthetic binding agents and a pharmaceutically acceptable carrier.
- compositions e.g., synthetic binding agents
- methods for contraception any of these compositions and methods may be directed to the treatment or prevention of infection by a pathogen (e.g., virus, bacteria, fungi, etc.).
- a pathogen e.g., virus, bacteria, fungi, etc.
- a target e.g., sperm, virus, bacteria, fungi, etc.
- the method comprising: administering a synthetic binding agent to a patient, the synthetic binding agent comprising a human or humanized Immunoglobulin G (IgG) having a pair of Fab domains, wherein the human or humanized IgG is linked to one or more additional immunoglobulin fragment antigen binding (Fab) domains, wherein the one or more additional Fab domains and the IgG Fab domains all specifically bind to the epitope of the target, so that the synthetic binding agent binds to the target with high affinity and enhances agglutination and/or muco-trapping of the target in the patient’s mucus to reduce the mobility of the target to less than about 50% (e.g., less than about 40%, 30%, 20%, 10%, etc.) of its native mobility e
- Fab immunoglobulin fragment antigen binding
- the synthetic binding agents described herein reduce the fraction of progressively motile sperm, e.g. >95% (90% or greater, 85% or greater, 80% or greater, 75% or greater, 70% or greater, 65% or greater, 60% or greater, etc.) as compared to the fraction of progressively motile sperm in control. For example, >50% reduction in progressively motile sperm populations.
- any number (preferably an even number) of additional Fab domains may be included.
- the one or more additional Fab domains may comprise 2, 4, 6 or 8 additional Fab domains.
- the target may be a sperm and all of the one or more Fab domains and the IgG Fab domains may specifically bind to an epitope of CD52g.
- the mobility of the sperm is slowed down by at least 50% (e.g., relative to its native mobility in mucus), e.g., less than about 40%, 30%, 20%, or 10% native mobility.
- administering comprises administering to the patient vaginally.
- administering may comprise topical administration, such as, but not limited to, administering via inhalation (e.g., of an aerosol), oral, eye-drop, lavage, etc.
- administering may comprise administering systemically to the patient, including systemic delivery for mucosal (e.g. vaginal, respiratory, gastrointestinal) applications.
- administering comprises delivering from an intravaginal ring (1VR) or vaginal film. In some variations, administering comprises delivering to lung mucosa using a nebulizer.
- any appropriate amount of the synthetic binding agent may be administered.
- administering may comprise delivering between 0.01 mg and 100 mg/day of the synthetic binding agent.
- administering may comprise administering an amount sufficient to agglutinate the target to enhance overall ability to limit sperm permeation across mucus.
- the synthetic binding agents described herein are synthetic binding agents for inhibiting sperm mobility through mucus.
- a synthetic binding agents for inhibiting sperm mobility through mucus may include: a human or humanized Immunoglobulin G (IgG) having a pair of Fab domains, wherein the human or humanized IgG is linked to one or more additional immunoglobulin fragment antigen binding (Fab) domains, wherein the one or more additional Fab domains and the IgG Fab domains all specifically bind to an epitope of CD52g, so that the synthetic binding agent reduces the mobility of sperm in mucus to less than about 50% relative to its native mobility in mucus and/or reduces the fraction of progressively motile sperm by 50%.
- the one or more additional Fab domains may comprise, for example, 2, 4, 6 or 8 additional Fab domains.
- the epitope of CD52g may comprise an N-linked glycosylated form of SEQ ID NO: 1.
- the additional Fab domains may each comprise: (i) a heavy chain (HC) with a variable region (VH) comprising complementarity determining regions (CDRs) having the amino acid sequence of: SEQ ID NO: 4; and/or (ii) a light chain (LC) with a variable region (VL) comprising complementarity determining regions (CDRs) having the amino acid sequence of: SEQ ID NO: 7.
- the one or more additional Fab domains may be linked to a Fab domain of the pair of Fab domains of the IgG.
- the at least one additional Fab domain may be linked to an Fc region of the IgG.
- the IgG may comprise at least one Fc region that is a naturally occurring sequence.
- the one or more additional Fab domains may be linked to the IgG via a flexible linker comprising an amino acid sequence comprising n pentapeptide repeats consisting of Glycine (G) and Serine (S), wherein n is between 3 and 8.
- nucleic acid molecules encoding the synthetic binding agent, and/or a vector comprising the corresponding nucleic acid molecule, and/or an isolated host cell or a non-human organism transformed or transfected with the nucleic acid molecules.
- Any of the synthetic binding agents described herein may be part of a
- composition comprising the synthetic binding agent and a pharmaceutically acceptable carrier.
- any appropriate delivery device may be used with the compositions and/or synthetic binding agents described herein.
- an intravaginal ring (IVR) or vaginal film may be used.
- Described herein are methods of providing contraception in a female subject. These methods may include administering to a mucosa of a reproductive tract of the subject any of the synthetic binding agents (and particularly those that bind a sperm-selective marker, including CD52g, as described herein) in an amount effective to provide contraception.
- methods of inhibiting the mobility of sperm in the mucus of a reproductive tract of a female subject that include contacting the mucus (e.g., in the female genital tract) with any of these synthetic binding agents (including via a delivery device) in an amount effective to inhibit the mobility of at least 80% of sperm present in the mucus.
- the mobility of the sperm may be slowed down by at least 50% relative to its normal or native mobility in mucus and/or reduces the fraction of progressively motile sperm by 50%.
- the synthetic binding agent or composition may be delivered via vaginal administration (e.g., using an intravaginal ring (IVR)); alternatively or additionally, the synthetic binding agent or composition may be delivered via systemic administration.
- An IVR may be configured to release an effective amount for at least 15 days.
- the composition may be delivered in a film that dissolves intravaginally releasing the synthetic binding agent.
- the Fab fragments may be on the N- or C- terminal ends of the core IgG.
- the additional Fab domain(s) may be inserted at the N-terminus (i.e. extending another Fab arm) or at the C-terminus (i.e. after the Fc domain).
- the synthetic binding agent may include at least two additional Fab domains (also referred to herein as Fab fragments) before and/or after the human or humanized IgG.
- the synthetic binding agent for enhancing agglutination, enchainment and/or muco-trapping of a target having an epitope may include a human or humanized Immunoglobulin G (IgG) having a pair of Fab domains (and a pair of Fc domains), in which the human or humanized IgG is linked to four additional Fab domains, and the IgG Fab domains as well as the additional Fab domains all specifically bind to the epitope of the target, so that the synthetic binding agent binds to the target with high affinity and reduces the mobility of the target in mucus to less than about 50% relative to its native mobility in mucus.
- the synthetic binding agent includes additional Fabs on both sides of the core IgG (e.g., 2 on the N terminal and 2 on the C terminal ends, for a total of 6 Fabs on the molecule).
- the potency of the binding agent may be determined in part by the minimum concentration of the synthetic binding agent that is able to effectively agglutinate the sperm and prevent it from freely swimming (i.e. remain as progressively motile sperm).
- the synthetic binding agents having 6 or more total Fab fragments have been found to have an order of magnitude better potency (e.g., agglutination potency) compared to just the IgG (including the IgG glycosylated to enhance mucosal binding).
- many of the synthetic binding agents configured as contraceptives described herein have been shown to reduce progressively motile sperm (e.g. by 95% vs.
- the potency of the binding agent may also be determined in part by enhanced“muco-trapping”, which refers to the synthetic binding agent crosslinking a greater fraction of sperm to mucins compared to native IgG, or crosslinking a similar fraction of sperm to mucins as IgG at lower binding agent concentrations.
- the human or humanized IgG forming the core of the synthetic binding agents described herein may include non-native Fc regions (e.g., Fc regions modified to increase stability/half-life in the body, Fc regions modified to decrease immunoreactivity, etc,).
- the Fc region of the IgG portion of the synthetic binding agent may be modified to include one or more specific mutations whereby specific immune functions are modified.
- the Fc region may have enhanced FcRn affinity to extend circulation kinetics.
- a mutation in human IgG may increase binding to FcRn, and increase the half-life
- a mutation of M252Y/S254T/T256E + H433K/N434F may increase binding to FcRn and increase the half-life.
- the synthetic binding agent includes a modified Fc region having reduced FcR affinity which may help ensure that the Ab does not prime the immune system to develop antibodies against sperm.
- one or more mutations in the human IgG e.g., IgGl
- FcR e.g., FcyR
- a method of enhancing agglutination and/or muco-trapping of a target having an epitope may include: administering a synthetic binding agent to a subject, the synthetic binding agent comprising a human or humanized
- Immunoglobulin G having a pair of Fab domains, wherein the human or humanized IgG is linked to one or more additional immunoglobulin fragment antigen binding (Fab) domains, wherein the one or more additional Fab domains and the IgG Fab domains all specifically bind to the epitope of the target, so that the synthetic binding agent binds to the target with high affinity and enhances the ability for the subject’s mucus to limit permeability of the target across mucus, as reflected by a reduction of the mobility of the target to less than about 50% relative to its native mobility in mucus, or the fraction of motile target to less than 50% relative to untreated control.
- the one or more additional Fab domains comprises 2, 4, 6 or 8 additional Fab domains.
- target may be sperm.
- the antigen is CD52g.
- the mobility of the sperm in mucus may be slowed down by at least 50% compared to the native mobility of the sperm in the mucus.
- the target may be a pathogen, e.g., all of the one or more Fab domains and the IgG Fab domains may specifically bind to a pathogen.
- the pathogen may be one (or more) of: Acinetobacter baumannii; Bacteroides fragilis;
- Burkholderia cepacia Clostridium difficile; Clostridium sordellii; Carbapenem-resistant Enter obacteriaceae; Enterococcus faecalis; Escherichia coli; Hepatitis A; Hepatitis B;
- Hepatitis C human immunodeficiency virus HIV-1 and HIV-2 (HIV, AIDS); Influenza; Klebsiella pneumonia; Methicillin-resistant Staphylococcus aureus; Morganella morganii; Mycobacterium abscessus; Norovirus; Psuedomonas aeruginosa; Staphylococcus aureus; Stenotrophomonas maltophilia; Mycobacterium tuberculosis; Vancomyin-resistant
- Staphylococcus aureus Vancomycin-resistant Enterococci; Neisseria gonorrhoeae
- Chlamydia trachomatis ⁇ chlamydia , lymphogranuloma venereum
- Treponema pallidum syphilis
- Haemophilus ducreyi chancroid
- Klebsiella granulomatis or
- Calymmatobacterium granulomatis (donovanosis), Mycoplasma genitalium, Ureaplasma urealyticum (mycoplasmas); HTLV-l (T-lymphotrophic virus type 1); herpes simplex virus type 1 and type 2 (HSV-1 and HSV-2); Epstein-Barr virus; cytomegalovirus; human herpesvirus 6; varicella-zoster virus; human papillomaviruses (genital warts); hepatitis A virus, hepatitis B virus, hepatitis C virus (viral hepatitis); molluscum contagiosum virus (MCV); Trichomona vaginalis (trichomoniasis); and yeasts, such as Candida albicans (vulvovaginal candidiasis).
- the pathogen includes a fungus, such as Aspergillus.
- Administering may comprise administering by any appropriate route, or more than one route.
- administering may comprise administering to the subject vaginally (e.g., from an intravaginal ring, IVR).
- Administering may comprise administering
- Administering may comprise administering to the subject as a vaginal film.
- Administering may comprise administering from a nebulizer.
- Administering may comprise administering by inhalation.
- Administering may comprise an eye drop.
- Administering may comprise an oral capsule or pill.
- Administering may comprise a mouth wash.
- administering comprises delivering between 0.01 mg and 100 mg/day of the synthetic binding agent.
- Administering may comprise administering in an amount sufficient to agglutinate or form enchainment of the target while maintaining or enhancing muco-trapping, with the overall net effect of reducing the permeability of the target through mucus, and/or reducing the growth or presence of the target.
- the IgG Fab domains may have an amino acid sequence that is not identical to the one or more additional Fab domains.
- the IgG domains may have an amino acid sequence that is between 100% (identical) and 75%, 80%, 85%,
- the IgG Fab and the additional Fab domains recognize the same antigen with approximately the same affinity, regardless of their sequence.
- methods of inhibiting fertilization and/or conception by agglutination and/or muco-trapping of sperm may include: administering a synthetic binding agent to a subject, the synthetic binding agent comprising a human or humanized Immunoglobulin G (IgG) having a pair of Fab domains, wherein the human or humanized IgG is linked to one or more additional immunoglobulin fragment antigen binding (Fab) domains, wherein the one or more additional Fab domains and the IgG Fab domains all specifically bind to an epitope of sperm, so that the synthetic binding agent binds to the sperm with high affinity and enhances agglutination and/or muco-trapping of the sperm in mucus.
- the net effect is either a reduction in the fraction of progressively motile sperm, and/or a reduction in the mobility of motile sperm.
- the one or more additional Fab domains may comprise 2, 4, 6 or 8 additional Fab domains
- the mobility of the sperm in mucus may be slowed down by at least 50% compared to the native mobility of the sperm in the mucus.
- the mobility of the target e.g., sperm, pathogen, etc.
- the target may be slowed by at least 40% compared to the native mobility of the target, slowed by at least 30% compared to the native mobility, slowed by at least 20% compared to the native mobility, slowed by at least 15% compared to the native mobility, etc.
- the synthetic binding agents described herein reduce the fraction of progressively motile sperm among all sperm, e.g. >95% (90% or greater, 85% or greater, 80% or greater, 75% or greater, 70% or greater, 65% or greater, 60% or greater, etc.) than reduction in fraction of progressively motile sperm vs. control. For example, >50% reduction in progressively motile sperm populations.
- administering may comprise administering to the subject via one or more of: vaginally (e.g., from an intravaginal ring), topically, systemically, as a vaginal film, from a nebulizer.
- Administering may comprise administering in an amount sufficient to agglutinate the target, and/or muco-trapping of the target, with the overall effect of reducing target permeation through mucus.
- Also described herein are methods of treating or preventing an infection by a pathogen comprising administering a synthetic binding agent to a subject, the synthetic binding agent comprising a human or humanized Immunoglobulin G (IgG) having a pair of Fab domains, wherein the human or humanized IgG is linked to one or more additional immunoglobulin fragment antigen binding (Fab) domains, wherein the one or more additional Fab domains and the IgG Fab domains all specifically bind to a single epitope of the pathogen, so that the synthetic binding agent binds to the pathogen with high affinity and enhances agglutination of the target, inducing enchained growth of the target, and/or muco- trapping of the target in the subject’s mucus.
- Fab immunoglobulin fragment antigen binding
- the one or more additional Fab domains comprises 2, 4, 6 or 8 additional Fab domains.
- the mobility of the pathogen in mucus is slowed down by at least 10% (at least 50%, at least 40%, at least 30%, at least 20%, at least 15%, etc.) compared to the native mobility of the pathogen in the mucus,
- the pathogen may be one or more of: influenza (including influenza A, B, and C); severe acute respiratory syndrome (SARS); respiratory syncytial virus (RSV); parainfluenza; adenovirus; human rhino virus; coronavirus; and norovirus.
- influenza including influenza A, B, and C
- SARS severe acute respiratory syndrome
- RSV respiratory syncytial virus
- parainfluenza adenovirus
- human rhino virus coronavirus
- norovirus may be one or more of: Salmonella and Escherichia coli.
- the pathogen may be one or more of: Neisseria gonorrhoeas (gonorrhea); Chlamydia trachomatis ( chlamydia , lymphogranuloma venereum); Treponema pallidum (syphilis); Haemophilus ducreyi (chancroid); Klebsiella granulomatis or Calymmatobacterium granulomatis (donovanosis), Mycoplasma genitalium, Ureaplasma urealyticum (mycoplasmas); human immunodeficiency virus HIV-1 and HIV-2 (HIV, AIDS); HTLV-l (T ⁇ lymphotrophic virus type 1); herpes simplex virus type 1 and type 2 (HSV-1 and HSV-2); Epstein-Barr virus; cytomegalovirus; human herpesvirus 6; varicella-zoster virus; human papillomaviruses (genital warts); hepatitis
- Candida albicans vulvovaginal candidiasis
- Administering may be any of the types of delivery described herein, including but not limited to: administering systemically, orally, intramuscular injection, intravascular injection, subcutaneous injection, parenteral, inhalation (e.g., from a nebulizer), topical, etc.
- Administering comprises delivering between 0.01 g and 100 mg/day of the synthetic binding agent.
- Administering may comprise administering in an amount sufficient to agglutinate the pathogen and/or preserving or further enhancing uco-trapping of the pathogen.
- administering may comprise administering in sufficient amount to cause enchained growth, linking dividing bacteria from the same mother bacteria together into a long chain, which has the effect of creating large clumps too large to permeate through mucus. In some variations administering may comprise administering in sufficient amount to cause enchained growth, linking dividing bacteria from the same mother bacteria together into a long chain, which has the effect of creating large clumps that limit their spread throughout the body and/or limit their growth rate.
- the IgG Fab domains may have an amino acid sequence that is not identical to the one or more additional Fab domains.
- any of the synthetic binding agents described herein for enhancing agglutination, enchained growth and/or muco-trapping of a target having an epitope may include: a human or humanized Immunoglobulin G (IgG) having a pair of Fab domains, wherein the human or humanized IgG is linked to one or more additional immunoglobulin fragment antigen binding (Fab) domains by a linker (e.g., an amino acid/peptide linker), wherein the one or more additional Fab domains and the IgG Fab domains may all specifically bind to the epitope of the target, so that the synthetic binding agent binds to the target with high affinity and reduces the mobility of the target in mucus (e.g., to less than about x% relative to its native mobility in mucus, such as less than about 15%, 20%, 30%, 40%, 50%, etc.).
- the one or more additional Fab domains may comprise 2, 4, 6 or 8 additional Fab domains.
- the target may be sperm and all of the one or more Fab domains and the IgG Fab domains may specifically bind to and epitope of CD52g (e.g , a repeating poly-n- acetyllactosaminyl structures on sperm, an N-linked glycosylated form of SEQ ID: 1).
- CD52g e.g , a repeating poly-n- acetyllactosaminyl structures on sperm, an N-linked glycosylated form of SEQ ID: 1).
- the additional Fab domains of the synthetic binding agent targeting CD52g may each comprise: (i) a heavy chain (HC) with a variable region (V H ) comprising
- CDRs complementarity determining regions having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 4; and/or (ii) a light chain (LC) with a variable region (V L ) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 7.
- a synthetic binding agent for inhibiting sperm mobility through mucus may include: a human or humanized Immunoglobulin G (IgG) having a pair of Fab domains, wherein the human or humanized IgG is linked to one or more additional immunoglobulin fragment antigen binding (Fab) domains, wherein the one or more additional Fab domains and the IgG Fab domains all specifically bind to an epitope of CD52g, so that the synthetic binding agent reduces the mobility of sperm in mucus to less than about 50% relative to its native mobility in mucus,
- the one or more additional Fab domains may comprise 2, 4, 6 or 8 additional Fab domains.
- the epitope of CD52g may be repeating poly- n-acetyllactosaminyl structures, an N-linked glycosylated form of SEQ ID NO: 1.
- the additional Fab domains may each comprise: (i) a heavy chain (HC) with a variable region (V H ) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 4; and/or (ii) a light chain (LC) with a variable region (VL) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 7.
- the IgG may be directed to an antigen of Klebsiella, e.g., an example of which is provided in SEQ ID NO: 39 to SEQ ID NO: 45, and the additional Fab domains may each comprise: (i) a heavy chain (HC) with a variable region (V H ) comprising complementarity determining regions (CDRs) having the amino acid sequences that is identical or similar to the HC V H region of the IgG (e.g., in relation to the example of SEQ ID NO: 39 to SEQ ID NO: 45, SEQ ID NO: 41); and (ii) a light chain (LC) with a variable region (VL) comprising complementarity determining regions (CDRs) having the amino acid sequences that is identical or similar to that of the IgG (e.g., in relation to the example of
- an synthetic binding agent directed to an antigen of Klebsiella may have additional Fab domains each comprise: (i) a heavy chain (HC) with a variable region (V H ) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 41; and/or (ii) a light chain (LC) with a variable region (VL) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 44.
- HC heavy chain
- V H variable region
- CDRs complementarity determining regions
- a synthetic binding agent for treating or preventing infection by a Klebsiella bacillus pathogen may include: a human or humanized Immunoglobulin G (IgG) having a pair of Fab domains, wherein the human or humanized IgG is linked to one or more additional immunoglobulin fragment antigen binding (Fab) domains, wherein the one or more additional Fab domains and the IgG Fab domains all specifically bind to an epitope specific to Klebsiella bacillus, so that the synthetic binding agent reduces the mobility of Klebsiella bacillus in mucus.
- the one or more additional Fab domains may comprise 2, 4, 6 or 8 additional Fab domains.
- the additional Fab domains may each comprise: (i) a heavy chain (HC) with a variable region (VH) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 41 ; and/or (ii) a light chain (LC) with a variable region (VL) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 44.
- HC heavy chain
- VH variable region
- CDRs complementarity determining regions
- a synthetic binding agent that targets a bacterial pathogen are synthetic binding agents that target Salmonella bacillus.
- the IgG portion of the synthetic binding agent may be directed to an antigen of Salmonella (such as described in SEQ ID NO: 67-73), and the additional Fab domains (which are directed to the same target antigen) may have a similar or identical amino acid sequence as the Fab domain of the IgG.
- the additional Fab domains may each comprise: (i) a heavy chain (HC) with a variable region (V H ) comprising complementarity determining regions (CDRs) having the amino acid sequences of the IgG (e.g., SEQ ID NO: 69); and/or (ii) a light chain (LC) with a variable region (V L ) comprising complementarity determining regions (CDRs) having the a ino acid sequences of the IgG (e.g., SEQ ID NO: 72).
- the synthetic binding agent directed to an antigen of Salmonella includes additional Fab domains that each comprise: (i) a heavy chain (HC) with a variable region (VH) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 69; and/or (ii) a light chain (LC) with a variable region (VL) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 72.
- HC heavy chain
- VH variable region
- CDRs complementarity determining regions
- a synthetic binding agent for treating or preventing infection by a Salmonella bacillus pathogen may include: a human or humanized Immunoglobulin G (IgG) having a pair of Fab domains, wherein the human or humanized IgG is linked to one or more additional immunoglobulin fragment antigen binding (Fab) domains, wherein the one or more additional Fab domains and the IgG Fab domains all specifically bind to an epitope specific to Salmonella bacillus, so that the synthetic binding agent reduces the mobility of Salmonella bacillus in mucus.
- the one or more additional Fab domains may comprise 2, 4, 6 or 8 additional Fab domains.
- the additional Fab domains may each comprise: (i) a heavy chain (HC) with a variable region (VH) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 69; and/or (ii) a light chain (LC) with a variable region (VQ comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 72.
- a synthetic binding agent that targets a bacterial pathogen are synthetic binding agents that target Neisseria gonorrhoeae.
- the IgG portion of the synthetic binding agent may be directed to an antigen of Neisseria gonorrhoeae (such as described in SEQ ID NO: 102-108), and the additional Fab domains (which are directed to the same target antigen) may have a similar or identical amino acid sequence as the Fab domain of the IgG.
- the additional Fab domains may each comprise: (i) a heavy chain (HC) with a variable region (V H ) comprising complementarity determining regions (CDRs) having the amino acid sequence that is similar or identical to the HC VH of the IgG (e.g., SEQ ID NO: 104); and/or (ii) a light chain (LC) with a variable region (VL) comprising complementarity determining regions (CDRs) having the amino acid sequence that is similar or identical to that of the LC V L of the IgG (e.g., SEQ ID NO: 107).
- HC heavy chain
- V H variable region
- CDRs complementarity determining regions
- a synthetic binding agent directed against Neisseria gonorrhoeae may include an IgG against an antigen of Neisseria gonorrhoeae and additional Fab domains that each comprise: (i) a heavy chain (HC) with a variable region (VH) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of the IgG (e.g., SEQ ID NO: 104); and/or (ii) a light chain (LC) with a variable region (V L ) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of that of the IgG (e.g., SEQ ID NO: 107).
- HC heavy chain
- VH variable region
- CDRs complementarity determining regions
- a synthetic binding agent for treating or preventing infection by a Neisseria gonorrhoeae may include: a human or humanized Immunoglobulin G (IgG) having a pair of Fab domains, wherein the human or humanized IgG is linked to one or more additional immunoglobulin fragment antigen binding (Fab) domains, wherein the one or more additional Fab domains and the IgG Fab domains all specifically bind to an epitope specific to Neisseria gonorrhoeae, so that the synthetic binding agent reduces the mobility of
- IgG Immunoglobulin G
- Fab immunoglobulin fragment antigen binding
- the one or more additional Fab domains may comprise 2, 4, 6 or 8 additional Fab domains.
- the additional Fab domains may each comprise: (i) a heavy chain (HC) with a variable region (V H ) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 104; and/or (ii) a light chain (LC) with a variable region (VL) comprising complementarity determining regions (CDRs) having an amino acid sequence that is between 100% and 80% identical to the amino acid sequence of: SEQ ID NO: 107.
- HC heavy chain
- V H variable region
- CDRs complementarity determining regions
- any of the synthetic binding agents described herein may include at least one additional Fab domains is linked to a Fab domain of the pair of Fab domains of the IgG; alternatively or additionally, any of the synthetic binding agents described herein may include at least one addition additional Fab domain that is linked to an Fc region of the IgG.
- the IgG may comprise at least one Fc region that is a naturally occurring sequence.
- the IgG may comprise at least one Fc region comprising one or more mutations that enhance or decrease binding to Fc receptors.
- the one or more additional Fab domains may be linked to the IgG via a linker, as described here, such as a flexible peptide linker comprising an amino acid sequence comprising n pentapeptide repeats consisting of Glycine (G) and Serine (S), wherein n is between 3 and 8
- the IgG Fab domains may have an amino acid sequence that is not identical to the one or more additional Fab domains, while still recognizing the same antigen with the same (or nearly equivalent) affinity.
- nucleic acid molecules encoding any of these synthetic binding agents, and/or a vector comprising such isolated nucleic acid molecules.
- the nucleotide sequence encoding the additional IgG may be different from the nucleotide sequence encoding the region of the IgG having corresponding binding affinity; the resulting amino acid sequence may be identical or nearly identical (e.g., having 75% homology or more, 80% homology or more, 85% homology or more, 90% homology or more, 95% homology or more, etc., including corresponding substitutions).
- isolated host cells or a non-human organisms transformed or transfected with these nucleic acid molecules are also described herein.
- compositions of any of these synthetic binding agents and a pharmaceutically acceptable carrier are also described herein.
- FIG. 1 A is a schematic example of a mAh directed against an epitope that may form a core of a synthetic binding agent (e.g., recombinant mAb) having enhanced agglutination and/or muco-trapping.
- a synthetic binding agent e.g., recombinant mAb
- the core antibody is directed to an antigen associated with sperm, and particularly human sperm.
- epitopes including viral or bacterial epitopes, may be used.
- FIGS. IB- IF illustrate examples of synthetic, engineered, constructs against an epitope of a target having enhanced agglutination and/or muco-trapping, using the core shown in FIG. 1A.
- FIG. IB is an example of a Fab-IgG variation (e.g., duplicate Fab domain(s) linked to the amino ends of the core IgG).
- FIG. 1C is an example of an IgG-Fab variation (e.g., duplicate Fab domain(s) linked to the carboxyl ends of the core IgG).
- FIG. IB is an example of a Fab-IgG variation (e.g., duplicate Fab domain(s) linked to the amino ends of the core IgG).
- FIG. 1C is an example of an IgG-Fab variation (e.g., duplicate Fab domain(s) linked to the carboxyl ends of the core IgG).
- FIG. ID is an example of a Fab-IgG-Fab variation (e.g., duplicate Fab domains linked to both the carboxyl ends and the amino ends of the core IgG).
- FIG. IE is an example of a Fab-IgG-Fab- Fab variation (e.g., duplicate Fab domains linked to both the carboxyl ends and the amino ends of the core IgG).
- FIG. IF is an example of a Fab-Fab-IgG-Fab-Fab variation of a synthetic binding agent as described herein (e.g., a 10-mer, having 4 additional pairs of Fab domains, two linked to the carboxyl ends and two to the amino ends of the core IgG).
- FIG. 1G is a graphical table further illustrating structural properties of the core IgG and synthetic constructs shown in FIGS. 1 A- IE.
- FIGS. 2A-2B schematically illustrate muco-trapping.
- the target is a virus; other targets may include bacteria and sperm.
- FIG. 2A the schematic shows how a target (e.g., virus) may readily diffuse across native mucus (in the absence of any virus- specific Ab).
- FIG. 2B shows how an anti-viral Ab, and particularly one that only weakly (in an unbound state) interacts with mucins and therefore freely diffuses through the mucus, may trap the target in mucus by adhesive interactions. Arrows indicate the small fraction of free (not virus-bound) Ab that will interact with mucins at any given time.
- FIG. 3 A illustrates agglutination of human sperm
- FIG. 3B illustrates trapping of sperm in mucus (e.g., cervicovaginal mucus (CVM) and endocervical mucus (CM)).
- mucus e.g., cervicovaginal mucus (CVM) and endocervical mucus (CM)
- FIG. 4A illustrates an SDS-PAGE analysis of one example synthetic binding agent having enhanced agglutination and/or muco-trapping potencies (referred to as MM- 006) compared to unmodified IgG.
- the synthetic binding agent is configured as an Fab-IgG-Fab construct and is compared to HCA (e.g., IgG).
- FIG. 4B shows a color-matched SEC/MALS analysis of MM-006 from FIG. 4A.
- the SEC curves (solid curves, right y-axis) shows homogenous expression profile and MATS data (thicker line, left y-axis) confirms desired molecular weight (MW).
- FIGS. 5A and 5B illustrate the application of the construct (MM-006) for FIG. 4A-4B to reduce the mobility/motility of sperm.
- FIG. 5A is a brightfield image of sperm 30s after exposure to MM-006.
- FIG. 5B shows the sperm agglutination potency of MM-006 and HCA relative to PBS. * indicates p ⁇ 0.05; ** p ⁇ 0.01; *** p ⁇ 0.001.
- FIGS. 6A-6B illustrate examples of an apparatus for delivering a construct (e.g., a contraceptive synthetic binding agent having multiple Fab repeats).
- FIG. 6A shows a transparent view of a ring with four capsules inserted into ring cavities.
- FIG. 6B shows exploded and assembled views of sustained release capsules: coated antibody pellet (center region, top), closed end capsule piece (right end of capsule), and capsule cap with release window (left end of capsule).
- FIG. 6C shows daily (top) and cumulative (bottom) release of human IgG over at least 28 days with different sustained release capsule formulations
- FIG. 7 shows a silver stained gel showing human IgG recovered from capsules remained intact even after up to 4 weeks of exposure to human CVM (replaced every 5 days to maintain the degradative environment). Pure IgG band and PBS are shown as controls; all incubations were at 37°C. Each band represents IgG recovered from an individual capsule.
- FIGS. 8A-8B show sperm agglutination in the presence of one of the synthetic binding agents having multiple Fab repeats described herein (configured as an HCA).
- FIG. 8A shows a light microscopy image of agglutinated sperm with a round cell (shown by arrow),
- FIG. 8B is a fluorescent image of the same field; the construct (HCA) in this example was conjugated to Dylight633 (red) and labeled the entire length of all spermatozoa,
- CMFDA Live CellTracker green labeled seminal leukocyte was also positive for HCA as indicated by the co-labeling (white arrow).
- FIG. 9 is a graph illustrating differential scanning calorimetry of an exemplary synthetic binding agent having multiple Fab repeats (e.g., Fab-IgG, bottom) and an scFv-IgG (top) construct.
- the scFv construct shows unfolding at a much lower temperature than the synthetic binding agent having multiple Fab repeats (Fab-IgG) due to the lack of a CHI/CL domain.
- FIG. 10 shows an Analytical Size Exclusion Chromatography graph of the core alone (IgG, bottom), an scFv-IgG construct (middle), and an exemplary synthetic binding agent having multiple Fab repeats (Fab-IgG, top) after single-step protein A purification.
- Both the IgG and Fab-IgG construct showed a single sharp peak at their expected molecular weight.
- the scFv-IgG construct shows formation of high molecular- weight aggregates.
- FIG. 1 1 A shows an SDS-PAGE analysis of multimeric synthetic binding agent having multiple Fab repeats.
- the multimeric constructs are HCA (e.g., contraceptive) synthetic binding agents having multiple Fab repeats, where all of the Fabs are directed against the same epitope of CD52g (e.g., ail share the same targeting sequence).
- FIG. 1 IB is a color-matched SEC/MALS analysis of the different multimeric HCA constructs from FIG. 1 1 A.
- SEC curves for each construct solid curves, right y-axis
- MATS data dotted lines, left y-axis
- FIG. 12A shows a whole-sperm ELISA verifying that different multimeric synthetic binding agents having multiple Fab repeats (configured as HCA constructs) possess functional Fab that binds sperm.
- FIGS. 12B and 12C show brightfield images of sperm 1 minute after treatment with PBS (FIG. 12B), or after 30 seconds after treatment with a multimeric synthetic binding agent having multiple Fab repeats (e.g., configured as a Fab-IgG-Fab HCA construct) (FIG. 12C).
- a multimeric synthetic binding agent having multiple Fab repeats e.g., configured as a Fab-IgG-Fab HCA construct
- FIG. 13 shows the muco-trapping potency of a Fab-IgG, as reflected by the ensemble geometric average of effective diffusivity (Deff) of PEGylated nanoparticles (PS- PEG) in human CVM with no Ab, control IgG (Ctrl IgG) or a multimeric synthetic binding agent having multiple Fab repeats (e.g , an anti-PEG Fab-IgG construct), compared to uncoated nanoparticles (PS-COOH) in untreated CVM.
- Data is plotted for distinct samples (indicated with different color circles) with averages indicated by solid lines. * indicates a statistically significant difference (p ⁇ 0.05).
- FIGS. 14A and 14B show an amino acid sequence comparison between portions of the heavy (FIG. 14A; the VH portion of SEQ ID NO: 3 is compared to a VH portion of a germline sequence) and light (FIG. 14B; the VL portion of SEQ ID NO: 7 is compared to a VL portion of a germline sequence) chain sequences of a core IgG against an epitope on human sperm, CD52g, compared to a germline sequence (e.g., native IgG).
- a germline sequence e.g., native IgG
- FIGS. 15A-15D illustrate one example of the production and characterization of multimeric anti-sperm IgG antibodies.
- FIG. 15A schematically illustrates examples of antisperm IgG, Fab, Fc, Fab-IgG, and IgG-Fab.
- FIG. 15B is a gel showing non-reducing IgG, Fab-IgG, and IgG-Fab.
- FIG. 15C shows a reducing SDS-Page analysis comparing IgG, Fab- IgG, and IgG-Fab after expression in Expi293 cells and purification by protein A/G chromatography.
- FIG. 15D is a graph illustrating the purity and homogeneity of the purified multimeric antibodies (IgG compared to Fab-IgG and IgG-Fab) via analytical SEC-MALS analysis.
- FIGS. 16A-16C illustrate the characterization of multimeric anti-sperm IgG antibodies.
- FIG. 16A shows the molar mass versus time of the IgG, Fab-IgG and IgG-Fab respectively as determined by SEC-MALS.
- FIG. 16B shows the values of melting temperature (Tm) and aggregating temperature (Tagg) of as determined by nanoDSF by measuring intrinsic fluorescence of a protein and changes in back-reflection respectively.
- Tm melting temperature
- Tagg aggregating temperature
- FIG. 16C is a graph showing whole sperm ELISA analysis to assess the binding potency of indicated antibodies.
- Motavizumab anti-RSV IgGl
- ELISA was performed in triplicates and repeated three times using 3 unique specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- FIGS. 17A-17B illustrate sperm agglutination potency of parent IgG, Fab-IgG and IgG-Fab using purified motile sperm (lOx!O 6 progressively motile sperm per mL).
- FIG. 17A graphically illustrates measured sperm agglutination potency of the parent and multimeric anti-sperm IgGs by quantifying the percentage of sperm that remains progressively motile post Ab-treatment at different concentrations compared to pre-treatment condition.
- FIG. 17B shows the percentage of agglutination-escaped progressive sperm post-treatment normalized to the negative control for further comparison. Data represents 6 unique sperm specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- FIGS. 18A-18B show sperm agglutination kinetics of parent IgG, Fab-IgG and IgG-Fab using purified motile sperm (10xl0 6 progressively motile sperm per mL).
- FIG. 18 A is a graph showing quantification of the time required to achieve 90% agglutination of progressive sperm compared to untreated control. The CASA analysis was obtained every 30s post-treatment until 90s.
- FIG. 18B shows the rate of sperm agglutination of indicated anti -sperm antibodies by quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pre-treatment. Data represents 6 unique sperm specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- FIG. 19 illustrates the muco-trapping potency of parent IgG, Fab-IgG and IgG- Fab using pH-neutralized female CVM and purified motile sperm (lx 10 6 progressively motile sperm/mL).
- Muco-trapping potency of indicated antibodies was assessed by performing real- time video microscopy on fluorescently labelled sperm suspended in Ab-treated (25ug/ml) CVM.
- a neural network tracker customized with standardized sperm motility parameters was used in all recorded videos to quantify the percentage of progressively motile sperm present in the mucus specimen.
- FIGS. 20A-20D illustrate production and characterization of multimeric antisperm IgG antibodies.
- FIG. 20A schematically illustrates anti-sperm Fab, Fc, IgG, Fab-IgG- Fab (FIF), Fab-IgG-Fab-Fab (FIFF) and Fab-Fab-IgG-Fab-Fab (FFIFF).
- FIF Fab-IgG-Fab
- FIFF Fab-IgG-Fab-Fab
- FFIFF Fab-Fab-IgG-Fab-Fab
- N- terminal and C-terminal Fab/s of FIF, FIFF and FFIFF contains fully intact anti-sperm Fab/s with VH, VL, CHL and CL.
- FIG. 20B is a gel showing non-reducing FIF, FIFF and FFIFF (compared to IgG).
- FIG. 20C is a reducing SDS-Page analysis of the indicated antibodies (IgG, FIF, FIFF, and FFIFF) after expression in Expi293 cells and purification by protein A/G chromatography.
- FIG. 20D is a graph demonstrating the purity and homogeneity of the purified multimeric antibodies via analytical SEC-MALS analysis.
- FIGS. 21 A-21C illustrate additional characterization of multimeric anti-sperm IgG antibodies.
- FIG. 21 A illustrates the molar mass versus time of the IgG, FIF, FIFF and FFIFF respectively as determined by SEC-MALS.
- FIG. 2 IB graphically illustrates the value of melting temperature (Tm) and aggregating temperature (Tagg) of indicated antibodies as determined by nanoDSF by measuring intrinsic fluorescence of a protein and changes in back-reflection respectively.
- FIG. 21C is a graph showing a whole Sperm ELISA analysis to assess the binding potency of the indicated antibodies.
- Motavizumab anti-RSV IgGl
- ELISA was performed in in triplicates and repeated three times using 3 unique specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- FIG. 22A-22D illustrates sperm agglutination potency of parent IgG and multimeric constructs using purified motile sperm (1 Ox 10 6 progressively motile sperm per mL) and whole semen.
- FIG, 22A is a graph showing sperm agglutination potency of the parent IgG, FIF, FIFF and FFIFF by quantifying the percentage of sperm that remains progressively motile post Ab-treatment compared to pre-treatment condition using purified motile sperm (1 Ox 10 6 progressively motile sperm per mL).
- FIG. 22B shows the percentage of agglutination-escaped progressive sperm post Ab-treatment using purified motile sperm that was normalized to the negative control for further comparison.
- FIG. 22C is a graph showing measured sperm agglutination potency of the parent IgG and FFIFF by quantifying the percentage of sperm that remains progressively motile post Ab-treatment compared to pre-treatment condition using whole semen.
- FIG. 22D shows the percentage of
- FIGS. 23A-23D shows sperm agglutination kinetics of parent IgG and multimeric constructs using purified motile sperm (1 Ox 10 6 progressively motile sperm per mL) and whole semen.
- FIG. 23 A illustrates agglutination kinetics of parent IgG, FIF, FIFF and FFIFF determined by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control using purified motile sperm (lOxlO 6 progressively motile sperm per mL).
- CASA analysis was obtained every 30s post-treatment until 90s.
- FIG. 23B illustrates the rate of sperm agglutination of parent IgG, FIF, FIFF and FFIFF by quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pre-treatment using purified motile sperm (lOxlO 6 progressively motile sperm per mL).
- FIG. 23C shows the agglutination kinetics of parent IgG and FFIFF by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control using whole semen. The CASA analysis was obtained every 30s post- treatment until 90s.
- FIG. 23D is a graph showing the rate of sperm agglutination of parent IgG and FFIFF by quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pre-treatment using whole semen. Data represents 6 unique sperm specimens. Lines indicate arithmetic mean concentration and standard error of mean. [00099] FIGS, 24A-24D show sperm agglutination kinetics of parent IgG and FFIFF using low and high concentration of purified motile sperm (2xl0 6 and 50x10 6 progressive sperm/mL). FIG.
- FIG. 24 A shows the agglutination kinetics of IgG and FFIFF by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control.
- the CASA analysis was obtained every 30s post-treatment until 90s using purified motile sperm (2xl0 6 progressive sperm/mL).
- FIG. 24B shows the rate of sperm agglutination of IgG and FFIFF by quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pre-treatment using purified motile sperm (2 10 6 progressive sperm/mL).
- FIG. 24C shows the agglutination kinetics of IgG and FFIFF by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control using purified motile sperm (50x10 6 progressive sperm/mL). The CASA analysis was obtained every 30s post-treatment until 90s.
- FIG. 24D shows the rate of sperm agglutination of IgG and FFIFF by quantifying the percentage of agglutinated sperm post Ab- treatment at three different time points compared to pre-treatment using purified motile sperm (5 Ox 10 6 progressive sperm/mL). Data represents 6 unique sperm specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- FIG. 25 is a graph showing sperm agglutination potency of parent IgG, FIF and FFIFF using whole semen in sheep study. Agglutination potency of IgG, FIF and FFIFF was measured in vivo by instilling Abs into sheep vagina, followed by human semen and simulated intercourse. The sperm motility was assessed immediately in the fluids from the sheep vagina. Data represents 3 unique sheep studies for FIF and FFIFF, and 1 sheep study for IgG at both 33 ug/ml and 333 ug/ml. Lines indicate arithmetic mean concentration and standard error of mean.
- FIGS. 26 and 27 A illustrate agglutination potency of exemplary films (e.g., Nicotiana-produced films) of parent IgG and FIF using purified motile sperm (lO lO 6 progressive sperm/mL) and whole semen.
- FIG. 26 shows sperm agglutination potency of the parent IgG-Film and FIF-Film by quantifying the percentage of sperm that remains progressively motile post Ab-treatment compared to pre-treatment condition using purified motile sperm (10x10 6 progressively motile sperm per mL).
- FIG. 27 A illustrates the percentage of agglutination-escaped progressive sperm post Ab-treatment using purified motile sperm; the data is normalized to the negative control.
- FIG. 27B illustrates sperm agglutination potency of the parent IgG-Film and FIF- Film by quantifying the percentage of sperm that remains progressively motile post Ab- treatment compared to pre-treatment condition using whole semen.
- FIG. 27C shows the percentage of agglutination-escaped progressive sperm post Ab-treatment using whole semen, normalized to the negative control. Data represents 6 unique sperm specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- FIGS. 28A-28D show agglutination kinetics of exemplary films (e.g., Nicotiana- produced films) of parent IgG and FIF using purified motile sperm (1 Ox 10 6 progressively motile sperm/mL) and whole semen.
- FIG. 28A illustrates agglutination kinetics of indicated antibodies by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control using purified motile sperm (1 Ox 10 6 progressively motile sperm/mL). The CASA analysis was obtained every 30s post-treatment until 90s.
- FIG. 28B illustrates the rate of sperm agglutination of indicated anti-sperm antibodies by quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pre-treatment using purified motile sperm (1 Ox 10 6 progressively motile sperm/mL).
- FIG. 28C is a graph showing agglutination kinetics of indicated antibodies by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control using whole semen. The CASA analysis was obtained every 30s post- treatment until 90s.
- 28D shows the measured rate of sperm agglutination of indicated anti-sperm antibodies (quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pre-treatment using whole semen). Data represents 6 unique sperm specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- FIGS. 29A-29D illustrate agglutination kinetics exemplary films (e.g., Nicotiana- produced films) of parent IgG and FIF using low and high concentration of purified motile sperm (2x 10 6 and 50xl0 6 progressively motile sperm/mL).
- FIG. 29 A shows the agglutination kinetics of indicated antibodies based on quantification of the time required to achieve 90% agglutination of progressive sperm compared to untreated control using purified motile sperm (2x10 6 progressively motile sperm/mL).
- the CASA analysis was obtained every 30s post- treatment until 90s.
- FIG. 29B shows the rate of sperm agglutination of indicated anti-sperm antibodies as determined by quantifying the percentage of agglutinated sperm post Ab- treatment at three different time points compared to pre-treatment using purified motile sperm (2xl0 6 progressively motile sperm/mL).
- FIG. 29C shows the agglutination kinetics of indicated antibodies by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control using purified motile sperm (50x10 6 progressively motile sperm/mL). The CASA analysis was obtained every 30s post-treatment until 90s.
- 29D shows the rate of sperm agglutination of indicated anti- sperm antibodies by quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pre-treatment using purified motile sperm (50x10 6 progressively motile sperm/mL). Data represents 6 unique sperm specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- FIG. 30 illustrates the agglutination kinetics of exemplary films (e.g., Nicotiana- produced films) of parent IgG and FIF in an acidic environment using purified motile sperm (20xl0 6 progressively motile sperm/mL) and 24hr treatment with lactic add.
- exemplary films e.g., Nicotiana- produced films
- agglutination kinetics of lactic acid-treated antibodies were assessed by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control.
- the CASA analysis was obtained every 30s post-treatment until 90s. Data represents 2 unique sperm specimens. Note: Lactic acid (LA) treated antibodies were neutralized with seminal plasma (SP) and then followed by dilution with SP or saline media i.e. MHM.
- FIGS. 31 A-31D illustrate characterization of a Nicotiana-produced FIF-Film (film of Fab-IgG-Fab synthetic binding agent) and Expi293 -produced FFIFF (e.g., Fab-Fab-IgG- Fab-Fab) synthetic binding agent post-nebulization
- FIG. 31 A shows a non-reducing SDS- Page analysis of the indicated antibodies before and after nebulization using mesh-nebulizer
- FIG. 3 IB shows a reducing SDS-Page analysis of the indicated antibodies before and after nebulization using mesh-nebulizer.
- FIGS. 31 A-31D illustrate characterization of a Nicotiana-produced FIF-Film (film of Fab-IgG-Fab synthetic binding agent) and Expi293 -produced FFIFF (e.g., Fab-Fab-IgG- Fab-Fab) synthetic binding agent post-nebulization
- FIG. 31 A shows a non-reducing SDS- Page
- FIGS. 32A-32B illustrate the production and characterization of multimeric anti- RSV IgG antibodies.
- FIG, 32A shows a non-reducing gel and reducing SDS-Page analysis of a multimeric IgG against RSV (Motavizumab as parent IgG) after expression in Expi293 cells and purification by protein A/G chromatography.
- FIG. 32B is an RSV ELISA analysis to assess the binding potency of the indicated antibodies. Synagis/Palivizumab (anti-RSV IgGl) is used as the positive control, ELISA was performed in triplicates.
- the methods and compositions (including the multimeric synthetic binding agent having multiple Fab repeats for enhancing agglutination, facilitating enchained growth and/or improving muco-trapping) described herein are based, in part, on the discovery that foreign bodies, including pathogens such as virus and bacteria, as well as sperm, may be more strongly trapped by mucus following binding with a multimeric antibody-based constructs.
- the constructs may be engineered to stop the penetration of target (e.g., pathogen, sperm, etc.) through mucus by improving the agglutination potency, facilitating enchained growth of the pathogen and/or enabling muco-trapping, and may prevent and/or treat infection, and/or provide contraception.
- ranges can be expressed as from“about” one particular value, and/or to“about” another particular value. It is also understood that there are a number of values disclosed herein, and that each value is also herein disclosed as“about” that particular value in addition to the value itself. For example, if the value“10” is disclosed, then“about 10” is also disclosed. It is also understood that each unit between two particular units is also disclosed. For example, if 10 and 15 are disclosed, then 1 1, 12, 13, and 14 are also disclosed.
- transitional phrase“consisting essentially of’ means that the scope of a claim is to be interpreted to encompass the specified materials or steps recited in the claim, and those that do not materially affect the basic and novel characteristic(s) of the claimed invention.
- polypeptide encompasses both peptides and proteins, unless indicated otherwise.
- A“nucleic acid” or“nucleotide sequence” is a sequence of nucleotide bases, and may be RNA, DNA or DNA-RNA hybrid sequences (including both naturally occurring and non-naturally occurring nucleotide), but is preferably either single or double stranded DNA sequences.
- an“isolated” antibody means an antibody separated or substantially free from at least some of the other components of the naturally occurring organism or virus, for example, the cell structural components or other polypeptides or nucleic acids commonly found associated with the antibody.
- the term also encompasses antibodies that have been prepared synthetically.
- “treat,”“treating,” or“treatment of’ it is meant that the severity of the subject's condition is reduced or at least partially improved or ameliorated and/or that some alleviation, mitigation or decrease in at least one clinical symptom is achieved and/or there is a delay in the progression of the condition.
- the terms“prevent,”“prevents,” or“prevention” and“inhibit,” “inhibits,” or“inhibition” are not meant to imply complete abolition of disease and encompasses any type of prophylactic treatment that reduces the incidence of the condition, delays the onset of the condition, and/or reduces the symptoms associated with the condition after onset.
- An“effective,”“prophy tactically effective,” or“therapeutically effective” amount as used herein is an amount that is sufficient to provide some improvement or benefit to the subject.
- an“effective,”“prophylactically effective,” or“therapeutically effective” amount is an amount that will provide some delay, alleviation, mitigation, or decrease in at least one clinical symptom in the subject.
- Trapping potency refers to the ability of an antibody that specially binds to a target pathogen or sperm to inhibit movement of the pathogen or sperm through mucus. Trapping potency can be measured by methods known in the art and as disclosed herein.
- Trapping potency can be quantitated, e.g., as the amount of antibody (e.g., concentration of antibody in mucus) needed to reduce the mobility of at least 50% (e.g., at least 55%, at least 60%, at least 65%, at least 70%, at least 75%, etc.) of the pathogen or sperm within the mucus gel to at least one-half (e.g., one-quarter, one-tenth, etc.) of its native mobility in solution (e.g., saline) and/or in mucus.
- amount of antibody e.g., concentration of antibody in mucus
- trapping potency can also be quantitated, e.g., as the amount of antibody (e.g., concentration of antibody in mucus) needed to reduce the fraction of progressively motile sperm by at least 50% (e.g. at least 55%, at least 60%, at least 65%, at least 70%, at least 75%, etc.) as determined by Computer Assisted Sperm Analysis (CASA). Mobility in mucus can be measured using techniques well known in the art and described herein. Alternatively, trapping potency can be quantitated as the reduction in percentage of pathogens or sperm that penetrate mucus.
- amount of antibody e.g., concentration of antibody in mucus
- any of the multimeric synthetic binding agents having multiple Fab repeats described herein may be selected or further configured to enhance mucin-crosslinking by including a glycosylation pattern comprising the biantennary core glycan structure Manal -6(Manal -3)Manf31 -4GlcNAcfjl-4Gl cNAc]3l with terminal N- acetylglucosamine on each branch.
- This glycosylation pattern may be on the Fc region of the core Ab (e.g., the core IgG).
- composition of the synthetic binding agent having multiple Fab repeats described herein may be selected or configured such that at least x% of the synthetic binding agent having multiple Fab repeats have a glycosylation pattern comprising the biantennary core glycan structure Manal-6(Manal- 3)Man[31 -4GIcNAc
- a composition in which, for example, greater than 40% of the synthetic binding agent having multiple Fab repeats described herein (to enhance agglutination potency) while also possessing an oligosaccharide that provides increased mucin crosslinking, may be particularly beneficial for muco-trapping of a target once bound to the target, compared to core IgG as found in nature prior to any modification and/or selection.
- the term“bind specifically” or“specifically binds” in reference to an antibody of the presently-disclosed subject matter means that the antibody of the invention will bind with an epitope (including one or more epitopes) of a target pathogen or sperm, but does not substantially bind to other unrelated epitopes or molecules.
- the term refers to an antibody that exhibits at least about 60% binding, e.g., at least about 70%, 80%, 90%, or 95% binding, to the target epitope relative to binding to other unrelated epitopes or molecules.
- the antibodies, compositions, and methods described herein may include methods for inhibiting and/or treating pathogen infection, eliminating pathogen from a mucosal surface, and providing contraception.
- the presently-disclosed subject matter relates to synthetic binding agents having multiple Fab repeats and compositions of these that are capable of facilitating aggregation and/or enchained growth of pathogens and sperm, trapping pathogens and sperm in mucus, thereby inhibiting transport of pathogens or sperm across or through mucus secretions, which may lead to the destruction and/or natural elimination of these pathogens and/or sperm.
- any of the synthetic binding agents having multiple Fab repeats described herein be directed to non-neutralizing epitopes of pathogens; in some variations, the synthetic binding agents having multiple Fab repeats described herein be directed to neutralizing epitopes of pathogens.
- Antibodies are naturally found in mucus.
- the synthetic binding agent having multiple Fab repeats described herein may generally diffuse rapidly through mucus, slowed only slightly by weak, transient adhesive interactions with mucins within the mucus. This rapid diffusion allows the synthetic binding agent having multiple Fab repeats to accumulate rapidly on pathogen or sperm surfaces.
- the adhesive interactions between the plurality of antibodies and the mucus become sufficient to trap the bound pathogen or sperm in the mucus, thereby preventing infection/providing contraception.
- binding multiple pathogens using the same synthetic binding agent having multiple Fab repeats may more effectively trap the complex formed by the multiple pathogens/sperm and the synthetic binding agent, either by aggregation of distinct
- pathogens/sperm together or facilitating enchained growth of pathogens are pathogens/sperm together or facilitating enchained growth of pathogens.
- Pathogens or sperm trapped in CVM cannot reach their target cells in the mucosal surface, and will instead be shed with post-coital discharge and/or inactivated by spontaneous thermal degradation as well as additional protective factors in mucus, such as defensins (Cole, Curr. Top. Microbiol. Immunol. 306:199 (2006); Doss et ah, J Leukoc. Biol. 87:79 (2010)).
- this pathogen agglutination and/or trapping activity provides for protection without neutralization, and can effectively inhibit infection at sub-neutralization doses and/or using antibodies to non-neutralizing epitopes of a pathogen.
- the low-affinity interactions that the synthetic binding agent having multiple Fab repeats described herein may form with mucins are not only Fc-dependent, but may also influenced by antibody glycosylation.
- the synthetic binding agent having multiple Fab repeats described herein may include an oligosaccharide at a glycosylation site, the oligosaccharide comprising, consisting essentially of, or consisting of a pattern correlating with (providing) enhanced trapping potency of the antibody in mucus, and wherein the antibody specifically binds an epitope of a target (e.g., pathogen or sperm).
- a target e.g., pathogen or sperm
- the unique glycosylation pattern/unique oligosaccharide component of the antibody may maximize trapping potency of the synthetic binding agent once a synthetic binding agent forms a complex with one or more target (e.g., pathogen or sperm), without unduly hindering the ability of the unbound synthetic binding agent to diffuse readily through mucus to rapidly bind a target.
- target e.g., pathogen or sperm
- the synthetic binding agent having multiple Fab repeats described herein is one that exhibits a mobility in mucus that is reduced no more than about 50%, e.g., no more than about 40%, 30%, 20%, 10%, or 5%, relative to its native mobility in solution (e.g., mucus, saline or water) and effectively traps a target pathogen or sperm in mucus once complexed with one or more targets (e.g., at least 50% of target slowed by at least on hall).
- a target pathogen or sperm e.g., at least 50% of target slowed by at least on hall
- the synthetic binding agent having multiple Fab repeats described herein reduces the mobility of at least 50% of the target, e.g., at least 50%, 60%, 70%, 80%, or 90% or more of the target, by at least 50% (e.g., 60%, 70%, 75%, 80%, 85%, 90%, 95%, 96%, 97%, 98%, or 99%, etc.) or more.
- the synthetic binding agent having multiple Fab repeats described herein reduces the percentage of target (e.g., pathogens or sperm) that can penetrate mucus by at least 10%, e.g., at least 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, or more.
- the synthetic binding agent having multiple Fab repeats described herein may have a sufficient binding rate to an epitope of the target to trap the target pathogen or sperm in mucus within one hour (e.g., within 30 minutes or 15 minutes) at a synthetic binding agent concentration in the mucus of less than 10 mg/ml (e.g., less than 5 mg/ml, less than 1 mg/ml, less than 0.1 mg/ml, less than 50 pg/ l. less than 30, less than 20, less than 10, less than 5, less than 2.5, less than 1, less than 0.5, less than 0.1 pg/ml, etc.).
- a synthetic binding agent concentration in the mucus of less than 10 mg/ml (e.g., less than 5 mg/ml, less than 1 mg/ml, less than 0.1 mg/ml, less than 50 pg/ l. less than 30, less than 20, less than 10, less than 5, less than 2.5, less than 1, less than 0.5, less than 0.1 pg/ml,
- the synthetic binding agent having multiple Fab repeats described herein may include an oligosaccharide component that is bound to an N-l inked glycosylation site in an Fc region of the synthetic binding agent (e.g., the core IgG portion of the synthetic binding agent).
- the N-linked glycosylation site can be an asparagine residue on the Fc region of the core, for example, the Asn 297 asparagine residue.
- the amino acid numbering is with respect to the standard amino acid structure of a human IgG molecule.
- the N-glycan structure may be G0/G0F form, or a pure GnGn form (e.g., with terminal N-acetylglucosamine on each branch without terminal galactose or sialic acid).
- the oligosaccharide component, i.e., the glycan, attached to the antibody comprises, consists essentially of, or consists of a core structure without any fucose residue.
- the glycan does not contain any galactose residues.
- the glycan does not include galactose.
- the synthetic binding agent having multiple Fab repeats described herein may include a mixture of synthetic binding agents having different oligosaccharide components.
- the mixture comprises at least about 30% synthetic binding agent having multiple Fab repeats described herein having the G0/G0F core glycan structure (e.g., with or without the fucose residue), e.g., at least about 40%, 50%t, 60%, 70%, 80%, 90% or more.
- the synthetic binding agent having multiple Fab repeats described herein are generated in a human cell line, e.g., a 293 cell line, e.g., a 293T cell line, other mammalian cell lines (e.g. CHO), in plants (e.g. Nicotiana ), or in other microorganisms (e.g. Trichoderma).
- a human cell line e.g., a 293 cell line, e.g., a 293T cell line, other mammalian cell lines (e.g. CHO), in plants (e.g. Nicotiana ), or in other microorganisms (e.g. Trichoderma).
- the synthetic binding agent having multiple Fab repeats described herein may be useful for binding target to trap the target in mucus to inhibit infection or impregnation by the target.
- the synthetic binding agent having multiple Fab repeats described herein can be directed to any pathogen that can infect a subject through a mucus membrane.
- Pathogens can be in the categories of algae, bacteria, fungi, parasites (helminths, protozoa), viruses, and subviral agents.
- Target pathogens further include synthetic systems comprising an antigen having an epitope, for example particles or particulates (e.g., polystyrene beads) comprising attached proteins, e.g., as might be used for bioterrorism.
- Pathogens include those that cause sexually-transmitted diseases (listed with the diseases caused by such pathogens), including, without limitation, Neisseria gonorrhoeae (gonorrhea); Chlamydia trachomatis ( ⁇ chlamydia , lymphogranuloma venereum); Treponema pallidum (syphilis); Haemophilus ducreyi (chancroid); Klebsiella granulomatis or
- Calymmatobacterium granulomatis (donovanosis), Mycoplasma genitalium, Ureaplasma urealyticum (mycoplasmas); human immunodeficiency virus HIV-1 and HIV-2 (HIV, AIDS); HTLV-l (T-Iymphotrophic virus type 1); herpes simplex virus type 1 and type 2 (HSV-1 and HSV-2); Epstein-Barr virus; cytomegalovirus; human herpesvirus 6; varicella-zoster virus; human papillomaviruses (genital warts); hepatitis A virus, hepatitis B virus, hepatitis C virus (viral hepatitis); molluscum contagiosum virus (MCV); Trichomona vaginalis
- the antibodies and compositions may also be active against other diseases that are transmitted by contact with bodily fluids that may also be transmissible by sexual contact and are capable of being prevented by administration of the compositions according to this invention. Accordingly, the phrase,“sexually transmitted diseases (STDs),” is to be interpreted herein as including any disease that is capable of being transmitted in the course of sexual contact, whether or not the genital organs are the site of the resulting pathology. Pathogens also include those that cause respiratory diseases, including, without limitation, influenza
- pathogens include, without limitation, Salmonella and Escherichia coli.
- pathogens include Klebsiella bacillus.
- Pathogens may include those that affect non-human animals, such as livestock, e.g., swine (e.g., porcine epidemic diarrhea vims (PEDV), transmissible gastroenteritis virus (TGEV), rotavirus, classical swine fever virus (CSFV), porcine circovirus type 2 (PCV2), encephalomyo carditis virus (EMCV), porcine reproductive and respiratory syndrome virus (PRRSV), porcine parvovirus (PPV), pseudorabies vims (PRV), Japanese encephalitis virus (JEV), Brucella, Leptospira, Salmonella, and Lawsonia intracellularis, Pasteurella multocida, Brachyspira hyodysenteriae, Mycoplasma hyopneumoniae), ruminants (e.g., bovine vims diarrhoea virus (BVDV), border disease vims (BDV), bovine papular stomatitis vims (BPSV), bovine
- Pasteurella multocida equine herpesvirus- 1, equine herpesvirus-4, equine influenza vims, Streptococcus equi
- poultry e.g., fowl pox vims, Newcastle disease virus, Marek's disease virus, avian influenza virus, infectious bursal disease vims (IBDV), avian infectious bronchitis vims (IBV)
- IBDV infectious bursal disease vims
- IBV infectious bronchitis vims
- vims and viral pathogen are used interchangeably herein, and further refer to various strains of virus, e.g, influenza is inclusive of new strains of influenza, which would be readily identifiable to one of ordinary skill in the art.
- the terms bacterium, bacteria, and bacterial pathogen are used interchangeably herein, and further refer to antibiotic- resistant or multidrug resistant strains of bacterial pathogens.
- the term“antibiotic-resistant strain” or“multidrug resistant strain” refers to a bacterial pathogen that is capable of withstanding an effect of an antibiotic or drug used in the art to treat the bacterial pathogen (i.e, a non-resistant strain of the bacterial pathogen).
- a synthetic binding agent having multiple Fab repeats described herein is capable of broadly binding to viruses containing lipid envelopes, which are not necessarily specific to one virus.
- a sub- neutralization dose can be used.
- a sub-neutralization doses is a dose below that which would be needed to achieve effective neutralization.
- an effective neutralization dose is approximately 5 pg/ml.
- effective agglutination and/or trapping using the synthetic binding agent having multiple Fab repeats described herein can be achieved at a dose below 5 pg/ml, and even below a dose of 1 pg/m!.
- doses appropriate for agglutination and/or trapping bacterial pathogens can be higher in some embodiments than the doses appropriate for trapping viral pathogens. It will further be recognized that appropriate doses may differ between pathogens, between mucosal surfaces, and also between individuals. It will also be recognized that different subjects and different mucosal surfaces may have different optimal glycan patterns and optimal antibody-mucin affinities, contributing to different optimal doses.
- synthetic binding agent having multiple Fab repeats described herein that selectively bind non-neutralizing epitopes of a target pathogen can be used to effectively trap the target pathogen in mucus.
- the synthetic binding agent having multiple Fab repeats specifically binds a non-neutralizing epitope, e.g,, one or more non-neutralizing epitopes.
- the presently disclosed subject matter further includes synthetic binding agent having multiple Fab repeats that selectively binds a conserved epitope of a target.
- a benefit of targeting a conserved epitope would be to preserve efficacy of the synthetic binding agent having multiple Fab repeats as against new strains of the pathogen. Targeting such epitopes has been avoided at times in the past because they were viewed as being ineffective targets; however, in view of the disclosure herein such epitopes can serve as effective targets.
- the synthetic binding agent having multiple Fab repeats described herein may be particularly useful for binding sperm to trap the sperm in mucus to inhibit fertilization of an egg by the sperm.
- Sperm specific antigens that can be used as antibody targets are well known in the art. See, e.g., U.S, Pat. Nos. 8,21 1,666, 8,137,918, 8,110,668, 8,012,932, 7,339,029, 7,230,073, and 7,125,550, each incorporated by reference in its entirety.
- one particular epitope region for human sperm may include the N-linked glycan of sperm CD52 glycoform. See also U.S. Pat. Nos. 5,227,160 and 6,355,235, herein incorporated by reference in their entirety.
- the low-affinity binding interactions that the synthetic binding agent having multiple Fab repeats described herein forms with mucins may be influenced by glycosylation, and may also be Fc-dependent As such, the synthetic binding agent having multiple Fab repeats described herein may have a preserved and/or engineered Fc region in the core IgG region.
- Such synthetic binding agents may be one or more subclasses of IgG, e.g., IgGi, IgG 2 , IgG .i , IgG 4 , or any combination thereof.
- the synthetic binding agent having multiple Fab repeats described herein has a sufficient binding rate and/or binding affinity to an epitope of the target to accumulate on the surface of the target at sufficient levels to trap the target within one hour after administration of the synthetic binding agent having multiple Fab repeats described herein at a concentration of less than about 10 mg/mL (e.g,, less than about 5 mg/mL, less than 2 mg/mL, less than about 1 mg/mL, less than about 0.1 mg/mL, less than about 50 pg/ml, less than about 40 pg/ml, less than about 30 pg/ml, less than about 20 pg/ml, less than about 10 pg/ml, less than about 5 pg/ml, less than about 1 pg/ml, less than about 0.5 pg/ml, less than about 0.1 pg/ml, etc.).
- the target e.g., pathogen or sperm
- the target may be trapped within about 30 minutes, e.g., about 25, 20, 15, 10, 5 or 1 minutes after administration of the synthetic binding agent having multiple Fab repeats described herein.
- the synthetic binding agent traps the target at a synthetic binding agent concentration of less than about 5 mg/ml, 2 5 mg/ml, 1 mg/ml, 100 pg/ml, 50 Pg/ml, 10 pg/ml, 5 pg/ml, 4 pg/ml, 3 pg/ml, 2 pg/ml, or 1 pg/ml.
- antibody refers to all types of immunoglobulins, including IgG, IgM, IgA, IgD, and IgE.
- the antibody can be monoclonal or polyclonal and can be of any species of origin, including (for example) mouse, rat, rabbit, horse, goat, sheep, camel, or human, or can be a chimeric or humanized antibody. See, e.g., Walker et al., Molec. Immunol. 26:403 (1989).
- the antibodies can be recombinant
- Antibody fragments included within the scope of the present invention include, for example, Fab, Fab', F(ab) 2 , and Fv fragments; domain antibodies, diabodies; nanobodies; vaccibodies, linear antibodies; single-chain antibody molecules, scFv; and multispecific antibodies formed from antibody fragments.
- Such fragments can be produced by known techniques.
- F(ab') 2 fragments can be produced by pepsin digestion of the antibody molecule, and Fab fragments can be generated by reducing the disulfide bridges of the F(ab') 2 fragments.
- Fab expression libraries can be constructed to allow rapid and easy identification of monoclonal Fab fragments with the desired specificity (Huse et ah, Science 254:1275 (1989)).
- the term“antibody fragment” as used herein may also include any protein construct that is capable of binding a target.
- Antibodies including the core Ab forming part of the synthetic binding agent having multiple Fab repeats described herein may be humanized or camelized.
- Humanized forms of non-human (e.g., murine) antibodies are chimeric immunoglobulins,
- Humanized antibodies include human immunoglobulins (recipient antibody) in which residues from a complementarity determining region (CDR) of the recipient are replaced by residues from a CDR of a non-human species (donor antibody) such as mouse, rat or rabbit having the desired specificity, affinity and capacity.
- CDR complementarity determining region
- donor antibody non-human species
- Fv framework residues of the human immunoglobulin are replaced by corresponding non human residues.
- Humanized antibodies may also comprise residues which are found neither in the recipient antibody nor in the imported CDR or framework sequences.
- the humanized antibody will comprise substantially all of at least one, and typically two, variable domains, in which all or substantially all of the CDR regions correspond to those of a non- human immunoglobulin and all or substantially all of the framework (FR) regions (i.e., the sequences between the CDR regions) are those of a human immunoglobulin consensus sequence.
- the humanized antibody optimally also will comprise at least a portion of an immunoglobulin constant region (Fe), typically that of a human immunoglobulin (Jones et al., Nature 321 :522 (1986); Riechmann et al., Nature , 332:323 (1988); and Presta, Curr. Op. Struct . Biol. 2:593 (1992)).
- a humanized antibody has one or more amino acid residues introduced into it from a source which is non-human. These non-human amino acid residues are often referred to as “import” residues, which are typically taken from an“import” variable domain.
- Humanization can essentially be performed following the method of Winter and co-workers (Jones et aL, Nature 321 :522 (1986); Riechmann et ah, Nature 332:323 (1988); Verhoeyen et al., Science 239:1534 (1988)), by substituting rodent CDRs or CDR sequences for the corresponding sequences of a human antibody.
- such“humanized” antibodies are chimeric antibodies (U.S. Pat. No. 4,816,567), wherein substantially less than an intact human variable domain has been substituted by the corresponding sequence from a non- human species.
- humanized antibodies are typically human antibodies in which some CDR residues (e.g., all of the CDRs or a portion thereof) and possibly some FR residues are substituted by residues from analogous sites in rodent antibodies.
- Human antibodies and synthetic binding agent having multiple Fab repeats based on human or humanized IgG as described herein can also be produced using various techniques known in the art, including phage display libraries (Hoogenboom and Winter, J Mol. Biol. 227:381 (1991); Marks et al., J. Mol Biol. 222:581 (1991)).
- the techniques of Cole et al. and Boemer et al. are also available for the preparation of human monoclonal antibodies (Cole et al., Monoclonal Antibodies and Cancer Therapy , Alan R. Liss, p. 77 (1985) and Boemer et al, J. Immunol. 147:86 (1991)).
- human antibodies can be made by introducing human immunoglobulin loci into transgenic animals, e.g., mice in which the endogenous immunoglobulin genes have been partially or completely inactivated. Upon challenge, human antibody production is observed, which closely resembles that seen in humans in all respects, including gene rearrangement, assembly, and antibody repertoire.
- Immunogens are used to produce antibodies specifically reactive with target polypeptides.
- Recombinant or synthetic polypeptides and peptides e.g., of at least 5 (e.g., at least 7 or 10) amino acids in length, or greater, are the preferred immunogens for the production of monoclonal or polyclonal antibodies.
- an immunogenic polypeptide conjugate is also included as an immunogen.
- the peptides are used either in pure, partially pure or impure form. Suitable polypeptides and epitopes for target pathogens and sperm are well known in the art. Polynucleotide and polypeptide sequences are available in public sequence databases such as GENBANK®/GENPEPT®.
- Recombinant polypeptides are expressed in eukaryotic or prokaryotic cells and purified using standard techniques. The polypeptide, or a synthetic version thereof, is then injected into an animal capable of producing antibodies. Either monoclonal or polyclonal antibodies can be generated for subsequent use in immunoassays to measure the presence and quantity of the polypeptide.
- an immunogen e.g., a purified or synthetic peptide, a peptide coupled to an appropriate carrier (e.g., glutathione-S -transferase, keyhole limpet hemanocyanin, etc.), or a peptide incorporated into an immunization vector such as a recombinant vaccinia virus is optionally mixed with an adjuvant and animals are immunized with the mixture.
- an immunogen e.g., a purified or synthetic peptide, a peptide coupled to an appropriate carrier (e.g., glutathione-S -transferase, keyhole limpet hemanocyanin, etc.), or a peptide incorporated into an immunization vector such as a recombinant vaccinia virus is optionally mixed with an adjuvant and animals are immunized with the mixture.
- the animal's immune response to the immunogen preparation is monitored by taking test bleeds and determining the
- the immunogen of interest is a polypeptide of at least about 10 amino acids, in another embodiment the polypeptide is at least about 20 amino acids in length, and in another embodiment, the fragment is at least about 30 amino acids in length.
- the polypeptide can comprise amino acids acid residues 1 through 200 from the N-terminal of the papillomavirus L2 protein.
- immunogenic conjugates are typically prepared by coupling the polypeptide to a carrier protein (e.g., as a fusion protein) or, alternatively, they are recombinantly expressed in an immunization vector.
- a carrier protein e.g., as a fusion protein
- immunogenic conjugates are typically prepared by coupling the polypeptide to a carrier protein (e.g., as a fusion protein) or, alternatively, they are recombinantly expressed in an immunization vector.
- Monoclonal antibodies are prepared from cells secreting the desired antibody. These antibodies are screened for binding to normal or modified peptides, or screened for agonistic or antagonistic activity. Specific monoclonal and polyclonal antibodies will usually bind with a K D of at least about 50 mM, e.g., at least about 1 mM, e.g., at least about 0.1 mM or better. In some instances, it is desirable to prepare monoclonal antibodies from various mammalian hosts, such as mice, rodents, primates, humans, etc. Description of techniques for preparing such monoclonal antibodies are found in Kohler and Milstein 1975 Nature
- this method proceeds by injecting an animal with an immunogen, e.g., an immunogenic peptide either alone or optionally linked to a carrier protein.
- an immunogen e.g., an immunogenic peptide either alone or optionally linked to a carrier protein.
- the animal is then sacrificed and cells taken from its spleen, which are fused with myeloma cells.
- the result is a hybrid cell or“hybridoma” that is capable of reproducing in vitro.
- the population of hybridomas is then screened to isolate individual clones, each of which secrete a single antibody species to the immunogen. In this manner, the individual antibody species obtained are the products of immortalized and cloned single B cells from the immune animal generated in response to a specific site recognized on the immunogenic substance.
- Alternative methods of immortalization include transformation with Epstein Barr Virus, oncogenes, or retroviruses, or other methods known in the art. Colonies arising from single immortalized cells are screened for production of antibodies of the desired specificity and affinity for the antigen, and yield of the monoclonal antibodies produced by such cells is enhanced by various techniques, including injection into the peritoneal cavity of a vertebrate (preferably mammalian) host.
- the polypeptides and antibodies of the present invention are used with or without modification, and include chimeric antibodies such as humanized murine antibodies.
- Other suitable techniques involve selection of libraries of recombinant antibodies in phage or similar vectors. See, Huse et al. 1989 Science 246:1275-1281 ; and Ward et al. 1 89 Nature 341:544-546.
- Antibodies specific to the target polypeptide can also be obtained by phage display techniques known in the art.
- Synthetic binding agent having multiple Fab repeats as described herein can be labeled by joining, either covalently or noncovalently, a substance which provides a detectable signal.
- labels and conjugation techniques are known and are reported extensively in both the scientific and patent literature. Suitable labels include radionuclides, enzymes, substrates, cofactors, inhibitors, fluorescent moieties,
- Synthetic binding agent having multiple Fab repeats as described herein may be useful for detecting or diagnosing the presence of a target on which an antigen is found.
- Method of making synthetic binding agent having multiple Fab repeats as described herein with a glycosylation pattern of interest can be achieved by any method known to those or skill in the art.
- mammalian cells such as, Chinese hamster ovary (CHO) cells, baby hamster kidney (BHK) cells, and NS0- and SP2/0-mouse myeloma cells, to produce antibodies having the desired
- human cell lines can be used, e.g., 293 cells.
- non-mammalian cells can be used.
- the cell line can be genetically engineered to produce the antibodies with the desired oligosaccharide.
- Such cell lines can have altered expression, for example, of one or more enzymes affecting glycosylation patterns, e.g., glycosyltransferases.
- Glycosyltransferases include, without limitation, a galactosyltransferase, a fucosyltransferase, a glucosyltransferase, an N- acetylgalactosaminyltransferase, an N-acetylglucosaminyltransferase, a
- glucuronyltransferase a sialyltransferase, a mannosyltransferase, a glucuronic acid transferase, a galacturonic acid transferase, an oligosaccharyltransferase, or any combination thereof.
- oligosaccharyltransferase UDP-N- acetyl-D-galactosamine:polypeptide N-acetylgalactosaminyltransferase, GDP-fucose protein: O-fucosyltransferase 1, GDP-fucose protein: O-fucosyltransferase 2, protei O- glucosyl transferase, UDP-N-acetylglucosamine;peptide N-aeetylglucosaminyltransferase, protei O-mannosyltransferase, b1,4 galactosyltransferase, and any combination thereof Enzymes involved in glycosylation of proteins are well known in the art and can be manipulated using routine techniques.
- glycans can be synthesized in specific patterns and linked to the synthetic binding agent having multiple Fab repeats described herein.
- synthetic binding agent having multiple Fab repeats described herein with mixed glycosylation patterns can be separated to isolate antibodies with the desired glycosylation pattern.
- the synthetic binding agent having multiple Fab repeats described herein can also be formed into suitable compositions, e.g,, pharmaceutical compositions for administration to a subject in order to act as a contraceptive and/or to treat or prevent an infection caused by a target pathogen or a disease or disorder caused by infection by a target pathogen.
- suitable compositions e.g, pharmaceutical compositions for administration to a subject in order to act as a contraceptive and/or to treat or prevent an infection caused by a target pathogen or a disease or disorder caused by infection by a target pathogen.
- a composition may comprise, consist essentially of, or consist of a synthetic binding agent having multiple Fab repeats described herein in a prophylactically or therapeutically effective amount and a pharmaceutically- acceptable carrier.
- compositions containing the synthetic binding agent having multiple Fab repeats described herein can be formulated in combination with any suitable pharmaceutical vehicle, excipient or carrier that would commonly be used in this art, including such conventional materials for this purpose, e.g,, saline, dextrose, water, glycerol, ethanol, and combinations thereof.
- suitable pharmaceutical vehicle, excipient or carrier that would commonly be used in this art, including such conventional materials for this purpose, e.g, saline, dextrose, water, glycerol, ethanol, and combinations thereof.
- vehicle, excipient or carrier used will vary depending on the subject and the subject's condition, and a variety of modes of administration would be suitable for the compositions of synthetic binding agent having multiple Fab repeats described herein.
- Suitable methods of administration of any pharmaceutical composition disclosed in this application include, but are not limited to, topical, oral, intranasal, buccal, inhalation, anal, and vaginal
- administration wherein such administration achieves delivery of the antibody to a mucus membrane of interest.
- the composition can be any type of composition suitable for delivering a synthetic binding agent having multiple Fab repeats described herein to a mucosal surface and can be in various forms known in the art, including solid, semisolid, or liquid form or in lotion form, either oil-in- water or water-in-oil emulsions, in aqueous gel compositions.
- Compositions include, without limitation, gel, paste, suppository, douche, ovule, foam, film, spray, ointment, pessary, capsule, tablet, jelly, cream, milk, dispersion, liposomes, powder/talc or other solid, suspension, solution, emulsion, microemulsion, nanoemulsion, liquid, aerosol, microcapsules, time-release capsules, controlled release formulation, sustained release formulation or bioadhesive gel (e.g., a mucoadhesive thermogelling composition) or in other forms embedded in a matrix for the slow or controlled release of the antibody to the surface onto which it has been applied or in contact.
- bioadhesive gel e.g., a mucoadhesive thermogelling composition
- the composition may be formulated as needed in a suitable form, e.g., an ointment, cream, gel, lotion, drops (such as eye drops and ear drops), or solution (such as mouthwash).
- a suitable form e.g., an ointment, cream, gel, lotion, drops (such as eye drops and ear drops), or solution (such as mouthwash).
- the composition may contain conventional additives, such as preservatives, solvents to promote penetration, and emollients.
- Topical formulations may also contain conventional carriers such as cream or ointment bases, ethanol, or oleyl alcohol.
- Other formulations for administration, including intranasal administration, etc., are contemplated for use in connection with the presently-disclosed subject matter.
- compositions described herein may include mixtures of the synthetic binding agent having multiple Fab repeats described herein, including mixtures having different numbers of Fab repeats (e.g., some with 4 Fab repeats, some with 6 Fab repeats, etc.).
- compositions used in the methods described herein may include other agents that do not negatively impact or otherwise affect the inhibitory and/or contraceptive effectiveness of the components of the composition, including antibodies, antimicrobial agents, and/or sperm-function inhibitors.
- agents that do not negatively impact or otherwise affect the inhibitory and/or contraceptive effectiveness of the components of the composition including antibodies, antimicrobial agents, and/or sperm-function inhibitors.
- solid, liquid or a mixture of solid and liquid pharmaceutically acceptable carriers, diluents, vehicles, or excipients may be employed in the pharmaceutical compositions.
- Suitable physiologically acceptable, substantially inert carriers include water, a polyethylene glycol, mineral oil or petrolatum, propylene glycol, hydroxyethylcellulose, carboxymethyl cellulose, cellulosic derivatives, polycarboxyiic acids, linked polyacrylic acids, such as carbopols; and other polymers such as poly(iysine), poly(glutamic acid), poly(maleic acid), polylactic acid), thermal polyaspartate, and aliphatic-aromatic resin; glycerin, starch, lactose, calcium sulphate dihydrate, terra alba, sucrose, talc, gelatin, pectin, acacia, magnesium stearate, stearic acid, syrup, peanut oil, olive oil, saline solution, and the like.
- compositions described herein useful in the methods of the present invention may further include diluents, fillers, binding agents, colorants, stabilizers, perfumes, gelling agents, antioxidants, moisturizing agents, preservatives, acids, and other elements known to those skilled in the art.
- suitable preservatives are well known in the art, and include, for example, methyl paraben, propyl paraben, butyl paraben, benzoic acid and benzyl alcohol.
- the carrier may typically be a liquid, such as sterile pyrogen-free water, pyrogen-free phosphate-buffered saline solution, bacteriostatic water, or Cremophor EL® (BASF, Parsippany, N.J.).
- the carrier can be either solid or liquid.
- the synthetic binding agent having multiple Fab repeats described herein can be administered in solid dosage forms, such as capsules, tablets, and powders, or in liquid dosage forms, such as elixirs, syrups, and suspensions.
- Compositions can be encapsulated in gelatin capsules together with inactive ingredients and powdered carriers, such as glucose, lactose, sucrose, mannitol, starch, cellulose or cellulose derivatives, magnesium stearate, stearic acid, sodium saccharin, talcum, magnesium carbonate and the like.
- inactive ingredients and powdered carriers such as glucose, lactose, sucrose, mannitol, starch, cellulose or cellulose derivatives, magnesium stearate, stearic acid, sodium saccharin, talcum, magnesium carbonate and the like.
- additional inactive ingredients that can be added to provide desirable color, taste, stability, buffering capacity, dispersion or other known desirable features are red iron oxide, silica gel, sodium lauryl sulf
- Similar diluents can be used to make compressed tablets. Both tablets and capsules can be manufactured as sustained release products to provide for continuous release of medication over a period of hours. Compressed tablets can be sugar coated or film coated to mask any unpleasant taste and protect the tablet from the atmosphere, or enteric-coated for selective disintegration in the gastrointestinal tract. Liquid dosage forms for oral administration can contain coloring and flavoring to increase patient acceptance.
- compositions suitable for buccal (sub-lingual) administration include tablets or lozenges comprising the antibody in a flavored base, usually sucrose and acacia or tragacanth; and pastilles comprising the antibody in an inert base such as gelatin and glycerin or sucrose and acacia.
- the composition can comprise an orally dissolvable or degradable composition.
- the composition can comprise a powder or an aerosolized or atomized solution or suspension comprising the antibody.
- Such powdered, aerosolized, or atomized compositions, when dispersed preferably have an average particle or droplet size in the range from about 0.1 to about 200 nanometers
- compositions of the synthetic binding agent having multiple Fab repeats described herein that are suitable for parenteral administration comprise sterile aqueous and non-aqueous injection solutions of the synthetic binding agent having multiple Fab repeats described herein, which preparations are preferably isotonic with the blood of the intended recipient.
- preparations can contain anti-oxidants, buffers, bacteriostats and solutes which render the composition isotonic with the blood of the intended recipient.
- Aqueous and non-aqueous sterile suspensions can include suspending agents and thickening agents.
- compositions can be presented in unit/dose or multi-dose containers, for example sealed ampoules and vials, and can be stored in a freeze-dried (lyophilized) condition requiring only the addition of the sterile liquid carrier, for example, saline or water-for-injection
- Extemporaneous injection solutions and suspensions can be prepared from sterile powders, granules and tablets of the kind previously described.
- an injectable, stable, sterile composition comprising a synthetic binding agent having multiple Fab repeats described herein, in a unit dosage form in a sealed container.
- the synthetic binding agent having multiple Fab repeats described herein may be provided in the form of a lyophilizate which is capable of being reconstituted with a suitable pharmaceutically acceptable carrier to form a liquid composition suitable for injection thereof into a subject.
- compositions suitable for rectal administration may be presented as unit dose suppositories. These can be prepared by admixing the synthetic binding agent having multiple Fab repeats described herein with one or more conventional solid carriers, for example, cocoa butter, and then shaping the resulting mixture.
- the synthetic binding agent having multiple Fab repeats described herein can alternatively be formulated for nasal administration or otherwise administered to the lungs of a subject by any suitable means, e.g., administered by an aerosol suspension of respirable particles comprising the synthetic binding agent having multiple Fab repeats described herein, which the subject inhales.
- the respirable particles can be liquid or solid.
- aerosol includes any gas-borne suspended phase, which is capable of being inhaled into the bronchioles or nasal passages.
- aerosol includes a gas-borne suspension of droplets, as can be produced in a metered dose inhaler or nebulizer, or in a mist sprayer.
- Aerosol also includes a dry powder composition suspended in air or other carrier gas, which can be delivered by insufflation from an inhaler device, for example. See Ganderton & Jones, Drug Delivery to the Respiratory Tract, Ellis Harwood (1987); Gonda (1990) Critical Reviews in Therapeutic Drug Carrier Systems 6:273-313; and Raeburn et al, J. Pharmacol. Toxicol. Meth. 27:143 (1992). Aerosols of liquid particles comprising the synthetic binding agent having multiple Fab repeats described herein can be produced by any suitable means, such as with a pressure-driven aerosol nebulizer or an ultrasonic nebulizer, as is known to those of skill in the art. See, e.g., U.S. Pat. No. 4,501,729. Aerosols of solid particles comprising the synthetic binding agent Having multiple Fab repeats described herein can likewise be produced with any solid particulate medicament aerosol generator, by techniques known in the pharmaceutical art.
- the synthetic binding agent having multiple Fab repeats described herein may be coated or impregnated on a device (or a composition including the synthetic binding agent having multiple Fab repeats described herein may be coated or impregnated).
- the device can be for delivery of the synthetic binding agent having multiple Fab repeats described herein and compositions of the synthetic binding agent to a mucus membrane, e.g., to the vagina or uterus.
- a device includes a solid support adapted to be inserted into the vagina. The support can be impregnated with or coated with a composition of the synthetic binding agent having multiple Fab repeats described herein.
- the release of synthetic binding agent from the devices may be controlled by the material composing these devices, such as silicone elastomers, ethylene vinyl acetate and polyurethane polymers.
- Devices such as cervicovaginal and rectal devices, include, without limitation, a ring, rod, applicator, sponge, cervical cap, tampon, diaphragm, or intrauterine device.
- Applicators can be those currently used commercially to deliver spermicidal gels or anti -yeast compounds and include, without limitation, plunger-type applicators, pessaries, sprays, squeezable tubes, vaginal rings, cervical rings, sponges, and the like. All such means for delivery are intended to be encompassed by the present invention.
- synthetic binding agent having multiple Fab repeats described herein is capable of diffusing through mucus when it is unbound, to allow the synthetic binding agent having multiple Fab repeats to bind a target (e.g., pathogen or sperm) at a desirable rate. It is also desirable that, when synthetic binding agent having multiple Fab repeats described herein is bound to the target, the cumulative effect of the antibody-mucin interactions effectively traps the pathogen or sperm in the mucus and/or agglutinates the target.
- a target e.g., pathogen or sperm
- compositions that includes more than one synthetic binding agent having multiple Fab repeats described herein, wherein each synthetic binding agent specifically binds a different epitope of the pathogen or sperm.
- Such a composition may provide the ability for an increased number of synthetic binding agents having multiple Fab repeats to become bound to the pathogen or sperm, thereby strengthening the antibody-mucin interactions that serve to trap the pathogen or sperm in the mucus,
- a composition includes a first synthetic binding agent having multiple Fab repeats described herein and a second synthetic binding agent having multiple Fab repeats described herein, wherein the first synthetic binding agent specifically binds a first epitope of the target and the second binding agent specifically binds a second epitope of the target, wherein the first epitope is distinct from the second epitope.
- the composition includes three or more different synthetic binding agents having multiple Fab repeats described herein, e.g., 3, 4, 5, 6, 7, 8, 9, 10, or more different synthetic binding agents having multiple Fab repeats described herein, wherein each synthetic binding agent specifically binds a different epitope of the target.
- a composition includes a first synthetic binding agent having multiple Fab repeats and a second synthetic binding agent having multiple Fab repeats, wherein the first synthetic binding agent specifically binds an epitope of a first target pathogen and the second synthetic binding agent specifically binds an epitope of second target pathogen.
- the composition includes three or more different synthetic binding agents having multiple Fab repeats, e.g., 3, 4, 5, 6, 7, 8, 9, 10, or more different synthetic binding agents, wherein each synthetic binding agent specifically binds an epitope of a different target
- the target may be the same, but the synthetic binding agents having multiple Fab repeats may have different numbers of Fab repeats.
- a composition provides both contraception and treatment or prevention of infection by one or more target pathogens.
- a composition includes a first synthetic binding agent having multiple Fab repeats and a second synthetic binding agent having multiple Fab repeats, wherein the first synthetic binding agent specifically binds an epitope of sperm and the second synthetic binding agent specifically binds an epitope of a target pathogen.
- the composition includes three or more different synthetic binding agents having multiple Fab repeats described herein, e.g., 3, 4, 5, 6, 7, 8, 9, 10, or more different synthetic binding agents having multiple Fab repeats, wherein one or more synthetic binding agents having multiple Fab repeats bind different epitopes of sperm and one or more synthetic binding agent having multiple Fab repeats specifically binds an epitope of a target pathogen or multiple target pathogens.
- the pharmaceutical composition can further include an additional active agent, e.g., a prophylactic or therapeutic agent.
- the additional active agent can be an antimicrobial agent, as would be known to one of skill in the art.
- the antimicrobial agent may be active against algae, bacteria, fungi, parasites (helminths, protozoa), viruses, and subvirai agents. Accordingly, the antimicrobial agent may be an antibacterial, antifungal, antiviral, antiparasitic, or antiprotozoal agent.
- the antimicrobial agent is preferably active against infectious diseases.
- Suitable antiviral agents include, for example, virus-inactivating agents such as nonionic, anionic and cationic surfactants, and C31 G (amine oxide and alkyl betaine), polybiguanides, docosanol, acylcarnitine analogs, octyl glycerol, and antimicrobial peptides such as magainins, gramicidins, protegrins, and retrocyclins.
- Mild surfactants e.g., sorbitan monolaurate, may advantageously be used as antiviral agents in the compositions described herein.
- antiviral agents that may advantageously be utilized in the compositions described herein include nucleotide or nucleoside analogs, such as tenofovir, acyclovir, amantadine, didanosine, foscamet, ganciclovir, ribavirin, vidarabine, zalcitabine, and zidovudine.
- Further antiviral agents that may be used include non-nucleoside reverse transcriptase inhibitors, such as UC-781 (thiocarboxanilide), pyridinones, TIBO, nevaripine, delavirdine, calanolide A, capravirine and efavirenz.
- agents and their analogs that have shown poor oral bioavailability are especially suitable for administration to mucosal tissue, in combination with antibodies and compositions of the invention, to prevent sexual transmission of HIV.
- Other antiviral agents that may be used are those in the category of HIV entry blockers, such as cyanovirin-N, cyclodextrins, carregeenans, sulfated or sulfonated polymers, mandelic acid condensation polymers, monoclonal antibodies, chemokine receptor antagonists such as TAK-779, SCH-C/D, and AMD-3100, and fusion inhibitors such as T-20 and 1249.
- Suitable antibacterial agents include antibiotics, such as aminoglycosides, cephalosporins, including first, second and third generation cephalosporins; macrolides, including erythromycins, penicillins, including natural penicillins, penicillinase-resistant penicillins, aminopenicillins, extended spectrum penicillins; sulfonamides, tetracyclines, fluoroquinolones, metronidazole and urinary tract antiseptics.
- antibiotics such as aminoglycosides, cephalosporins, including first, second and third generation cephalosporins
- macrolides including erythromycins, penicillins, including natural penicillins, penicillinase-resistant penicillins, aminopenicillins, extended spectrum penicillins
- sulfonamides including tetracyclines, fluoroquinolones, metronidazole and urinary tract antiseptics.
- Suitable antifungal agents include amphotericin B, nystatin, griseofulvin, flucytosine, fluconazole, potassium iodide, intraconazole, clortrimazole, miconazole, ketoconazole, and tolnaftate.
- Suitable antiprotozoal agents include antimalarial agents, such as chloroquine, primaquine, pyrimethamine, quinine, fansidar, and mefloquine; amebicides, such as dioloxamide, emetine, iodoquinol, metronidazole, paromomycine and quinacrine; pentamidine isethionate, atovaquone, and eflomithine.
- the additional active agent can be a sperm-function inhibitor, e.g., an agent that has the ability to inhibit the function of sperm, to otherwise inhibit fertilization of an egg by sperm and/or to otherwise prevent pregnancy, such as by killing and/or functionally inactivating sperm or by other effects on the activity of the sperm.
- the active agent may have at least dual functions, such as acting as a sperm-function inhibitor and as an antimicrobial agent.
- sperm-function inhibitors include, without limitation, surfactants, including nonionic surfactants, cationic surfactants, and anionic surfactants; spennicides, such as nonoxynol-9 (a-(4-Nonylphenyl)-co-hydroxynona(oxyethylene); other sperm-inactivators such as sulfated or sulfonated polymers such as polystyrene sulfonate, mandelic acid condensation polymers, cyclodextrins; antimicrobial peptides such as gramicidins, magainins, indolicidin, and melittin; and acid-buffering compositions, such as BufferGel and AcidForm.
- surfactants including nonionic surfactants, cationic surfactants, and anionic surfactants
- spennicides such as nonoxynol-9 (a-(4-Nonylphenyl)-co-hydroxynona(oxyethylene)
- Nonionic surfactants include, for example, sorbitan monolaurate, nonylphenoxypolyethoxy ethanol, p-diisobutyphenoxypolyethoxy ethanol, polyoxyethylene (10) oleyl ether and onyx- ol.
- Suitable anionic surfactants include, without limitation, sodium alkyl sulfonates and the sodium alkylbenzene sulfonates.
- Cationic surfactants include, for example, the quaternary ammonium surfactants, such as cetyl pyrimidinium chloride and benzalkonium chlorides. Zwitterionic surfactants such as acylcamitine analogs and C31G are especially suitable for their mild skin and mucosal irritation properties.
- the presently -disclosed subject matter further includes a kit including the synthetic binding agent having multiple Fab repeats described herein or a composition comprising the synthetic binding agent having multiple Fab repeats as described herein; and optionally a device for administering the synthetic binding agent or composition.
- the kit can include multiple synthetic binding agents having multiple Fab repeats and/or compositions containing such synthetic binding agents.
- each of the multiple synthetic binding agents provided in such a kit can specifically bind to a different epitope of the target, e.g., pathogen or sperm.
- each of the multiple synthetic binding agents having multiple Fab repeats as described herein provided in such a kit can specifically bind to an epitope of a different target pathogen or to an epitope of sperm.
- the kit can further include an additional active agent, e.g,, antimicrobial, such as an antibiotic, an antiviral, or other antimicrobial, or a sperm-function inhibitor as would be known to one of skill in the art.
- the synthetic binding agent having multiple Fab repeats described herein may include a core IgG that is directed to an epitope of a target.
- the synthetic binding agent having multiple Fab repeats may be constructed by coupling multiple additional copies of the same (or a portion of the same) Fab domain of the IgG core.
- the additional Fab may not be identical to the Fab domain of the IgG core but still bind the same epitope.
- the additional copies may be added to the amino and/or carboxyl ends of the IgG core. This is schematically illustrated in FIGS. 1A-1G.
- the core IgG includes an Fc region that may be glycosylated (or a composition including the synthetic binding agent having multiple Fab repeats may be selected to enrich for glycosylation) in a pattern that enhances muco-trapping, such as the GO glycosylation form.
- FIGS. 1A-1E illustrate different multimeric constructs (“synthetic binding agent having multiple Fab repeats”) that may be produced and characterized, and the agglutination and muco-trapping potencies measured.
- the one or more constructs e.g., having the greatest potency, may be combined and used.
- FIG. 1 A shows an example of a core IgG including a pair of Fab and Fc regions. As shown in FIGS. 1B-1E, the same Fab regions may then be combined in pairs (e.g., 2 additional, 4 additional, 6 additional, 8 additional, 10 additional, etc.) to the core IgG to form synthetic binding agents having multiple Fab repeats.
- the synthetic binding agent having multiple Fab repeats described herein may be non-hormonal contraceptives that can block sperm permeation through mucus.
- a major effector function for Ab in mucus is to arrest the forward motion of foreign entities such as viruses and highly motile bacteria, and block them from reaching target cells. This function can be accomplished in two ways. First, when concentrations of the foreign entity are high such that the foreign bodies would frequently collide, Ab can crosslink two or more bodies together, resulting not only in an increase in hydrodynamic diameter but more importantly an effective neutralization of the net forward motion of swimming bodies. This process is commonly referred to as agglutination (see, e.g., FIG. 3A).
- HCA human contraceptive Ab
- IgG Polyvalent Ig such as slgA and IgM are markedly more potent agglutinators than IgG (IgM is ⁇ 1000- fold more potent at agglutination than IgG).
- IgM is ⁇ 1000- fold more potent at agglutination than IgG.
- Described herein are synthetic binding agents having multiple Fab repeats with greater agglutination potency as compared to current monomeric IgG 1 -based HCA (see, e.g., JPS638400A) by engineering multimeric HCA that can more potently agglutinate sperm.
- multimeric HCA constructs e.g., synthetic binding agent having multiple Fab repeats
- These synthetic binding agents may include a Fab from a human IgM that binds a unique antigen restricted to only sperm and cells in the male reproductive tract, CD52g, and appears to be universal in all men (see, e.g., Norton et ah, Tissue Antigens 2002, 60:354-364, August 14, 2002), This Fab may serve as the basis for the HCA molecule (e.g., the synthetic binding agent).
- different synthetic binding agents having multiple Fab repeats constructs may be formed, comprised of increasing valency of Fab domains relative to traditional IgG, while maintaining its native muco -trapping potency.
- the different synthetic binding agents may include: Fab-IgG, IgG-Fab, Fab-IgG-Fab, and Fab-IgG-Fab-Fab; the core IgG may be used as a control. See FIG. 1A-1G, discussed above.
- the core antibody may be an IgG form of the HCA-UNC antibody targeting the CD52g glycan, as described in greater detail below.
- the synthetic binding agent having multiple Fab repeats includes the core IgG and a pair of additional copies of the Fab (copied from the IgG core) attached to the amino terminal ends, as shown in FIG. IB, or the carboxyl ends, as shown in FIG. 1C.
- additional Fab copies are attached to either or both the amino and/or carboxyl ends, as shown in FIG.
- FIG. 1 G shows examples of these structures.
- the attached sequence listing provides examples of sequences for each of these five structures.
- SEQ ID NO: 9 is an exemplary listing of a full-length Fab-IgG heavy chain portion, while SEQ ID No: 13 is the corresponding full length Fab-IgG light chain amino acid sequence.
- SEQ ID NO: 15 and SEQ ID NO: 19 illustrate an example of amino acid sequences of heavy chain and light chain, respectively, of an IgG-Fab synthetic binding agent having multiple Fab repeats.
- SEQ ID NO: 21 and SEQ ID NO: 25 illustrate an example of amino acid sequences of heavy chain and light chain, respectively, of a Fab-IgG- Fab synthetic binding agent having multiple Fab repeats.
- SEQ ID NO: 27 and SEQ ID NO: 31 illustrate an example of amino acid sequences of heavy chain and light chain, respectively, of a Fab-IgG-Fab-Fab synthetic binding agent having multiple Fab repeats.
- a synthetic binding agent having multiple Fab repeats may be used for IgG- based HCA for contraception.
- IgG-based HCA for contraception.
- IgG is the optimal mAb for vaginal protection in humans.
- Synthetic binding agents having multiple Fab repeats configured as multimeric HCA constructs were created using standard cloning methods. Briefly, genes encoding HCA VH/VL domains and flexible linkers (GSSSSxB (SEQ ID NO: 32) were synthesized and cloned into an in-house HCA IgGl mammalian expression vector. [000204] Constructs were expressed by transient expression in 30mL cultures of Expi293 cells, and the corresponding HCA constructs were purified using protein-A affinity chromatography. The purity was verified by SDS-PAGE (FIG. 11A; note: we compared both an in-house IgG HCA and an IgG HCA that was independently prepared by Mapp
- Synthetic binding agent having multiple Fab repeats configured as multimeric HCA binds and agglutinates sperm.
- the multimeric HCA was shown to bind sperm.
- Our pilot assay showed that each of the multimeric constructs tested (Fab-IgG, IgG-Fab, Fab-IgG-Fab) had comparable if not superior binding to sperm than the native IgG (FIG. 12 A), demonstrating that the new HCA constructs (the synthetic binding agents having multiple Fab repeats directed to CD52g) can indeed bind sperm.
- FIG. 12B shows the PBS control
- FIG. 12C shows the agglutination due to a synthetic binding agent having multiple Fab repeats against CD52g (IgG-Fab) after 1 minute, as quantified by the fraction of progressively motile sperm.
- PS-PEG in native CVM no Ab
- CVM treated with control IgG-Fab anti-HER2 x anti-VSVG
- addition of PEG-binding IgG-Fab to CVM resulted in extensive trapping of PS-PEG, with the fraction of mobile particles reduced from 71% to only 3%, comparable to muco-adhesive uncoated nanoparticles (PS-COOH).
- PS-COOH muco-adhesive uncoated nanoparticles
- agglutination potential of the native IgGl HCA (e.g., IgG- UNC) has been shown in various synthetic binding agents having multiple Fab repeats directed against an epitope of CD52g.
- HCA constructs with different polyvalency i.e, number of Fab domains per molecule, as shown in FIGS. 1B-1F, were constructed and examined.
- a baseline IgGl HCA construct has been used to incorporate additional identical Fab domains against CD52g at different locations along the heavy chain.
- the heavy- and light-chain gene sequences for IgG control antibodies and each of the Fab-based multimeric antibodies may be codon-optimized, synthesized, and cloned into mammalian expression vectors (Integrated DNA Technologies).
- Fab-components may be separated by a flexible peptide linker (e.g., a flexible linker comprising an amino acid sequence comprising n pentapeptide repeats consisting of Glycine (G) and Serine (S), wherein n is between 3 and 8 amino acids, such as 6 repeated units of GSSSS (SEQ ID NO: 33), GGGGS (SEQ ID NO:34), etc.).
- a flexible peptide linker e.g., a flexible linker comprising an amino acid sequence comprising n pentapeptide repeats consisting of Glycine (G) and Serine (S), wherein n is between 3 and 8 amino acids, such as 6 repeated units of GSSSS (SEQ ID NO: 33), GGGGS (SEQ ID NO:34), etc.
- HCA constructs Upon verification of the cloning, small batches ( 0-60 mL) of each HCA construct will be expressed by transient transfection in Expi293 mammalian cells. After three days of cell growth, the various HCA constructs will be purified from culture supernatant by protein A affinity chromatography. Expression yield will be quantified using absorbance at 280nm and BCA assay using human IgG as standard, and purified products will be assessed for purity using SDS-PAGE electrophoresis under both reducing and non-reducing conditions.
- the correct assembly, thermal stability and binding kinetics for each of the multimeric HCA formats may be verified; for example, correct assembly may be determined by molecular weight evaluation by size-exclusion chromatography/multi-angle light scattering (Wyatt DAWN HELEOS II; see, e.g via FIG. 10).
- Thermal stability (Tm) may be measured using differential scanning calorimetry (MicroCal VP-DSC; see FIG. 9).
- Antibodies that express and purify with less than 95% correct assembled product, or that are destabilized >!0°C from the parental sequence will not be further tested without
- Whole-sperm ELISA may be used to quantify different HCA mAbs.
- high- affinity 96-well half-area plates (Thermo Scientific, Rockford, IL) may be coated overnight at 4°C with 50uL per well of sperm at 10 6 /ml (measured using cell counter). Plates are washed three times with 0.05% Tween in PBS (PBS-T), blocked with 5% milk for at least lhr, and incubated for at least 2hr with serial dilutions of each HCA mAbs.
- Binding kinetics to sperm will also be evaluated by bio-layer interferometry (Octet Red384) by using anti-hlgG Fc Capture biosensors dipped into TritonX-lOO treated sperm lysates (which serve as source of HCA antigen). We anticipate the HCA will be structurally intact, stable and bind sperm.
- the synthetic binding agents having multiple Fab repeats described herein are derived from fully human Ab from an immune infertile but otherwise healthy woman (Isojim et al.).
- the epitope may include the glycosylation structure; and may specifically recognize a poly-n-acetyllactosamine region (e.g., repeating poly-n-acetyllactosaminyl structures) an antibody such as H6-3C4 may bind to an internal stretch of N-acetyllactosamines,
- CD52g This glycoform (referred to as CD52g) is believed to be specific to male-derived cells (e.g., sperm), Thus, a Fab may binds this CD52g (see, SEQ ID NO: 1) glycoprotein that is unique to the male genital tract and present on the surface of all sperm and other cells in semen.
- CD52g shares a short peptide backbone with leukocyte CD52, the HCA-UNC used as the core IgG does NOT bind CD52, and only binds the unique form of CD52g that is produced and secreted only by epithelial cells lining the lumen of the epididymis, vas deferens and seminal vesicles.
- CD52g contains a glycosylphosphatidylinositol (GPI) anchor, and is transferred to the plasma membrane of sperm as they mature in the epididymis. As shown in FIGS.
- GPI glycosylphosphatidylinositol
- HCA also co-agglutinates leukocytes in semen; these cells are potential HIV-infected“Trojan Horse leukocytes” that may act as motile vectors for HIV transmission, implying that HCA may also afford some protection against cell-mediated transmissions.
- a WHO-sponsored anti-sperm vaccine workshop has identified CD52g as a promising antifertility vaccine candidate due to its unique expression in the male reproductive tract, potent antigenicity, and its ability to induce infertility in otherwise healthy individuals.
- this HCA target appears to be ubiquitous in men: we have tested fresh semen samples from 100 men (73% Caucasian, 26% African American, and 1% Asian), and all specimens had >90% of sperm agglutinated within seconds by the prototype HCA.
- the synthetic binding agents having multiple Fab repeats described herein may be produced in CHO cells, in Nicotiana plants, and in Trichoderma (for the latter two, they can be produced in modified plants or yeast containing the human glycosylation pathway, and are capable of making fully human mAb, such as ZMapp in Nicotiana).
- the total dose of synthetic binding agents having multiple Fab repeats for contraception may be, e.g., -20-80 mg to maintain -400 pg/mL of HCA in CVM for 28 days. Improving agglutination potency by just 10-fold over, e.g., HCA-UNC in the synthetic binding agents having multiple Fab repeats described herein may allow
- a sheep vagina model may be further used to evaluate the potency of HCA in reducing free motile sperm by agglutinating and/or trapping human sperm in vaginal mucus.
- the anatomy of the sheep vagina is similar to the human vagina, and is the best available animal model for preclinical assessment of vaginal products.
- agglutination and trapping of fresh human semen in the sheep vagina may be assessed at different times after dosing semen, such as 2 min after deposition.
- Sperm must swim through mucus to reach the egg.
- HCA-UNC A fully human mAb, termed HCA-UNC (or “HCA original”), which binds a highly validated and well characterized antigen target ubiquitously present only on the surface of sperm and cells in the male reproductive tract was used to form the core IgG of the synthetic binding agent having multiple Fab repeats for use as a contraceptive.
- Multimeric HCA constructs e.g., synthetic binding agents having multiple Fab repeats
- Multimeric HCA constructs were constructed having multiple Fab domains linked to a parent IgG molecule, with the overall goal of engineering an HCA that possesses IgM-Iike agglutination potency, while still amenable to commercial IgG purification process using, e.g., Protein A/G, to enable a potent, topical, non-hormonal contraceptive via an HCA that is cost effective and sorely needed by women around the world.
- Antibodies can bind antigen on the sperm surface in the context of immune infertility.
- Immune infertility broadly refers to immune mechanisms that can contribute to infertility, and can be mediated by a variety of antibodies, including anti-phospholipid, antithyroid and anti-sperm antibodies (ASA).
- ASA refers to a broad spectrum of antibodies that can bind any sperm-associated antigens. The vast majority of naturally occurring ASA bind cytoplasmic antigens only accessible after sperm die, and are thus irrelevant for
- HCA-UNC that may be used as the basis for the synthetic binding agent having multiple Fab repeats described herein binds an accessible surface antigen unique to sperm and cells in the male reproductive tract, and can prevent sperm from reaching the egg by agglutinating and/or immobilizing sperm in mucus.
- contraception Sperm must swim through mucus to reach and fertilize the egg. Not surprisingly, poor sperm motility in cervical mucus is generally a good correlate to infertility, and sperm motility in mucus remains a gold standard test in diagnosing infertility. By extension, arresting sperm motility in mucus through antibodies that can agglutinate and immobilize individual sperm in mucus, by directly reducing the number of sperm that reach the egg, should provide an effective form of contraception. Indeed, such sperm-binding Ab have been isolated from the cervicovaginal secretions of infertile women.
- the female reproductive tract is coated with far smaller volumes of mucus (-1-2 mL) than the volume of blood in circulation (-5.000 mL).
- contraceptive concentrations may be achieved with far lower amounts of HCA than with systemic delivery.
- Vaginally delivered mAb are poorly absorbed into the systemic
- HCA delivered into the vagina is highly unlikely to generate systemic toxicity, because: HCA is a fully human IgG; HCA is unlikely to be absorbed into the systemic circulation, the vagina is poorly responsive to immunization, and the target antigen of HCA is found exclusively in cells originating from the male reproductive tract, and is not present in females.
- the exceptionally limited systemic uptake could lead to a sufficient safety profile for HCA.
- Vaginal secretions possess very low complement activity, and have exceedingly few, if any, live leukocytes due to continuous acidification of the vagina to pH ⁇ 4 by lactic acid from commensal Lactobacilli (leukocytes are effectively immobilized or killed at pH ⁇ 6).
- HCA especially if delivered at doses below total IgG present in CVM, is unlikely to trigger toxicity or inflammation in local vaginal tissues, yet remain effective at vaginal pH.
- IgG can be harnessed to trap even highly motile bacterial pathogens and enable pathogen trapping in different mucus secretions, including from the airways as well as GI and female reproductive tracts, underscoring pathogen trapping by IgG- mucin affinity as a universal mucosal protective mechanism.
- Our multimeric HCA constructs retain the muco-trapping potencies relative to IgG and effectively immobilize individual sperm in mucus.
- FIGS. 6A-6C describe a capsule-IVR (intravaginal ring) system that may be used with the synthetic binding agent having multiple Fab repeats described herein.
- This delivery apparatus makes use of conventional pill-processing to fabricate capsules that can be embedded in IVR and facilitate sustained release of the synthetic binding agent.
- the device is a ring that may be placed in the vagina (e.g., intrauterine) and multiple time-release capsules (FIG. 6B) may be loaded thereon.
- the capsules have been shown to maintain structural stability of the synthetic binding agent having multiple Fab repeats for at least 4 weeks when immersed in human CVM at 37°C (CVM replaced every 3-4 days). This is illustrated in FIG.
- the release rates can be readily tuned over a wide range of release rates, including as low as in the 0.1 -0.3 mg/day range ( Figure 4C; Formulation D) for 28 days or more.
- the capsules can also be formulated to provide greater release rates during the Days 2-6 window (Formulation A & B); it may be desirable to have greater dose of HCA delivered immediately before the fertility window.
- the synthetic binding agent having multiple Fab repeats configured as HCA described herein, when loaded into suitable IVR systems, will enable a reliable and safe contraceptive product that is not only non-hormonal but also economically feasible, and does not require daily or coitally-associated administration.
- the synthetic binding agents described herein typically include multiple additional copies of Fab regions, as described above. As describe above in FIGS. 1 A-1G, these synthetic binding agents may be arranged in in a variety of different configurations of a core IgG (including Fc and Fab domains), in which the duplicated copies of the Fab domains (directed to the same target epitope as the Fab domains on the core IgG) are attached at either or both the NH2 and/or the COOH ends. Any Fab domain may be used, and may be linked to the amino or carboxyl ends via a flexible linker comprising an amino acid sequence comprising n pentapeptide repeats consisting of Glycine (G) and Serine (S), wherein n is between 3 and 8,
- a synthetic binding agent may be directed to an N-linked glycan of an epitope specific to sperm, referred to as CD52 glycoform (“CD52g”).
- CD52g CD52 glycoform
- SEQ ID NO: 1 shows one example of an amino acid sequence corresponding to CD52g (see, e.g., Diekman et al., FASEB Journal, vol. 13: 1303-1313, August 1999).
- the variable domains (heavy and/or light) of any antibody directed against a protein including this sequence may be used, and configured as a synthetic binding agent as described herein.
- the exemplary synthetic binding agents described by SEQ ID NOS: 2-31 illustrate examples of such antibodies directed against a sperm-specific epitope.
- a synthetic binding agent that is directed to an epitope specific to sperm such as CD52g (e.g., an n-glycosylated form of CD52) includes both heavy chain and light chain.
- SEQ ID NO: 2 is an exemplary DNA sequence for a heavy chain domain of a core IgG directed to an epitope of CD52g
- SEQ ID NO: 3 is an example of an amino acid sequence for a heavy chain portion of the IgG
- SEQ ID NO: 4 is an example of an amino acid sequence of a Fab fragment for a heavy chain
- SEQ ID NO: 5 is an example of an amino acid sequence of an Fc fragment of a heavy chain
- SEQ ID NO: 6 is an example of an exemplary DNA sequence for a light chain domain of a core IgG directed to an epitope of CD52g
- SEQ ID NO: 7 is an example of an amino acid sequence of a light chain domain of a core IgG directed to an epitope of CD52g.
- SEQ ID NO: 8 to SEQ ID NO: 13 show exemplary DNA and amino acid sequences for heavy and light chain portions of a synthetic binding agent (e.g., recombinant mAb) that may reduce sperm mobility in mucus having a structure similar to that shown in FIG. IB (e.g., Fab-IgG).
- SEQ ID NO: 8 is an exemplary DNA sequence for a heavy chain domain of a Fab-IgG synthetic binding agent directed to an epitope of CD52g
- SEQ ID NO: 9 is an example of an amino acid sequence for a heavy chain portion of a Fab-IgG.
- SEQ ID NO: 10 is an example of an amino acid sequence of a Fab fragment for a heavy chain of a synthetic binding agent including a Fab extending from the N-terminal end of a core IgG.
- SEQ ID NO: 11 is an example of an amino acid sequence of an Fc fragment of a heavy chain.
- SEQ ID NO: 12 is an example of an exemplary DNA sequence for a light chain domain of a core IgG directed to an epitope of CD52g.
- SEQ ID NO: 13 is an example of an amino acid sequence of a light chain domain of a synthetic binding agent including a Fab extending from the N-terminal end of a core IgG directed to an epitope of CD52g.
- SEQ ID NO: 14 to SEQ ID NO: 19 show exemplary DNA and amino acid sequences for heavy and light chain portions of a synthetic binding agent (e.g., recombinant mAb) that may reduce sperm mobility in mucus having a structure similar to that shown in FIG. 1C (e.g., IgG-Fab).
- SEQ ID NO: 14 is an exemplary DNA sequence for a heavy chain domain of an IgG-Fab synthetic binding agent directed to an epitope of CD52g
- SEQ ID NO: 15 is an example of an amino acid sequence for a heavy chain portion of such an IgG- Fab.
- SEQ ID NO: 16 is an example of an amino acid sequence of a Fab fragment for a heavy chain of a synthetic binding agent including a Fab extending from the N-terminal end of a core IgG.
- SEQ ID NO: 17 is an example of an amino acid sequence of an Fc fragment of a heavy chain.
- SEQ ID NO: 18 is an example of an exemplary DNA sequence for a light chain domain directed to an epitope of CD52g.
- SEQ ID NO: 19 is an example of an amino acid sequence of a light chain domain of a synthetic binding agent directed to an epitope of CD52g.
- SEQ ID NO: 20 to SEQ ID NO: 25 show exemplary DNA and amino acid sequences for heavy and light chain portions of a synthetic binding agent (e.g., recombinant mAb) that may reduce sperm mobility in mucus having a structure similar to that shown in FIG. ID (e.g., Fab-IgG-Fab).
- SEQ ID NO: 20 is an exemplary DNA sequence for a heavy chain domain of an Fab-IgG-Fab synthetic binding agent directed to an epitope of CD52g
- SEQ ID NO: 21 is an example of an amino acid sequence for a heavy chain portion of such a Fab-IgG-Fab.
- SEQ ID NO: 22 is an example of an amino acid sequence of a Fab fragment for a heavy chain of a synthetic binding agent directed to an epitope of CD52g.
- SEQ ID NO: 23 is an example of an amino acid sequence of an Fc fragment of a heavy chain of a synthetic binding agent directed to an epitope of CD52g.
- SEQ ID NO: 24 is an example of an exemplary DNA sequence for a light chain domain directed to an epitope of CD52g.
- SEQ ID NO: 25 is an example of an amino acid sequence of a light chain domain of a synthetic binding agent directed to an epitope of CD52g.
- SEQ ID NO: 26 to SEQ ID NO: 31 show exemplary DNA and amino acid sequences for heavy and light chain portions of a synthetic binding agent (e.g., recombinant mAb) that may reduce sperm mobility in mucus having a structure similar to that shown in FIG.
- a synthetic binding agent e.g., recombinant mAb
- SEQ ID NO: 26 is an exemplary DNA sequence for a heavy chain domain of an Fab-IgG-Fab-Fab synthetic binding agent directed to an epitope of CD52g
- SEQ ID NO: 27 is an example of an amino acid sequence for a heavy chain portion of such a Fab-IgG-Fab-Fab.
- SEQ ID NO: 28 is an example of an amino acid sequence of a Fab fragment for a heavy chain of a synthetic binding agent directed to an epitope of CD52g.
- SEQ ID NO: 29 is an example of an amino acid sequence of an Fc fragment of a heavy chain of a synthetic binding agent directed to an epitope of CD52g.
- SEQ ID NO: 30 is an example of an exemplary DNA sequence for a light chain domain directed to an epitope of CD52g.
- SEQ ID NO: 31 is an example of an amino acid sequence of a light chain domain of a synthetic binding agent directed to an epitope of CD52g.
- FIGS. 14A and 14B illustrate a comparison between the amino acid sequences of the heavy (FIG, 14 A) and light (FIG. 14B) chain sequences described in the sequence listing, as compared to a germline sequence (e.g., native IgG).
- a germline sequence e.g., native IgG.
- the notation of the different constructs are listed from NH2 to COOH ends, with IgG implying Fab-Fc.
- SEQ ID NO: 32 to SEQ ID NO: 38 show an exemplary DNA and amino acid sequences for heavy and light chain portions of a synthetic binding agent (e.g., recombinant mAb) that may reduce sperm mobility in mucus having a structure of Fab-Fab-IgG-Fab-Fab
- SEQ ID NO: 32 is an exemplary DNA sequence for a heavy chain domain of a Fab-Fab-IgG- Fab-Fab synthetic binding agent directed to an epitope of CD52g
- SEQ ID NO: 33 is an example of an amino acid sequence for a heavy chain portion of such a Fab-Fab-IgG-Fab- Fab.
- SEQ ID NO: 34 is an example of a DNA sequence for a light chain of the anti-CD53g Fab-Fab-IgG-Fab-Fab synthetic protein.
- SEQ ID NO: 35 is an example of an amino acid sequence of the anti-CD52g Fab-Fab-IgG-Fab-Fab synthetic binding agent.
- SEQ ID NO: 36 is an amino acid sequence of the Fab fragment of the Fab-Fab-IgG-Fab-Fab (heavy chain) portion, while SEQ ID NO: 37 is the amino acid sequence of anti-CD52g Fab fragment of Fab-Fab-IgG-Fab-Fab.
- SEQ ID NO: 38 is an example of an amino acid sequence of an Fc fragment of a heavy chain of a synthetic binding agent directed to an epitope of CD52g, including configured as a Fab-Fab-IgG-Fab-Fab.
- a synthetic binding agent which in particular may reduce the fraction of pathogen that can permeate through mucus and/or freely divide as described herein, may be directed against Klebsiella (e.g., having anti -Klebsiella activity).
- Klebsiella e.g., having anti -Klebsiella activity
- a human or humanized IgG (mAh) that specifically recognizes an epitope of Klebsiella pneumonia 01 may be used.
- the anti- Klebsiella mAb illustrated by SEQ ID NO: 39 to SEQ ID NO: 45 is directed against the D-galactan-II antigen of Klebsiella pneumonia; other epitopes or other anti-Klebsiella mAbs may be used instead.
- SEQ ID NO: 39 is a polynucleotide (DNA) sequence of the heavy chain of an anti -Klebsiella IgG.
- SEQ ID NO: 40 is an amino acid sequence of an anti -Klebsiella heavy chain.
- SEQ ID NO: 43 is a polynucleotide (DNA) sequence of a light chain of the anti -Klebsiella IgG;
- SEQ ID NO: 44 is an amino acid sequence of the mti-Klebsiella light chain.
- SEQ ID NO: 45 is an amino acid sequence of a Fab fragment of this anti -Klebsiella IgG light chain
- SEQ ID NO: 41 is an amino acid sequence of a Fab fragment of an anti -Klebsiella heavy chain
- SEQ ID NO: 42 is an amino acid sequence of an Fc fragment of the heavy chain of this anti- Klebsiella antibody
- SEQ ID NO: 46 is the DNA sequence of the mti-Klebsiella Fab-IgG heavy chain
- SEQ ID NO: 47 is an amino acid sequence of a heavy chain of a Fab-IgG
- SEQ ID NO: 48 is an amino acid sequence of this mti-Klebsiella Fab fragment of a Fab-IgG heavy chain
- SEQ ID NO: 49 is an amino acid sequence of the Fc fragment of an IgG-Fab.
- SEQ ID NO: 50 is a DNA sequence of the light chain of the Fab-IgG
- SEQ ID NO: 51 is an amino acid sequence of the light chain of the Fab-IgG
- SEQ ID NO: 52 shows an amino acid sequence of a Fab fragment of Fab-IgG Light Chain.
- SEQ ID NO: 53 is the DNA sequence of the mti-Klebsiella IgG-Fab heavy chain
- SEQ ID NO: 54 is an amino acid sequence of a heavy chain of a IgG-Fab
- SEQ ID NO: 55 is an amino acid sequence of an mti-Klebsiella Fab fragment of a IgG-Fab heavy chain
- SEQ ID NO: 56 is an amino acid sequence of an Fc fragment of an IgG-Fab.
- SEQ ID NO: 57 is a DNA sequence of the light chain of this IgG-Fab synthetic binding agent, and SEQ ID NO:
- SEQ ID NO: 59 shows an amino acid sequence of a Fab fragment of IgG-Fab Light Chain.
- SEQ ID NO: 60 is the DNA sequence of the mti-Klebsiella Fab- IgG-Fab heavy chain
- SEQ ID NO: 61 is an amino acid sequence of a heavy chain of a Fab-IgG-Fab.
- SEQ ID NO: 62 is an amino acid sequence of this anti-Klebsiella Fab fragment of a Fab-IgG-Fab heavy chain.
- SEQ ID NO: 63 is an amino acid sequence of the Fc fragment of an Fab-IgG-Fab.
- SEQ ID NO: 64 is a DNA sequence of the light chain of the Fab-IgG-Fab, and SEQ ID NO: 65 is an amino acid sequence of the light chain of the Fab- IgG-Fab.
- SEQ ID NO: 66 shows an amino acid sequence of a Fab fragment of Fab-IgG-Fab Light Chain.
- SEQ ID NO: 160 is the DNA sequence of the anti- Klebsiella Fab-Fab-IgG-Fab-Fab heavy chain
- SEQ ID NO: 161 is an amino acid sequence of a heavy chain of a Fab-Fab-IgG-Fab-Fab
- SEQ ID NO: 162 is an amino acid sequence of this anti-Klebsiella Fab fragment of a Fab-Fab-IgG-Fab-Fab heavy chain.
- SEQ ID NO: 163 is an amino acid sequence of the Fc fragment of a Fab-Fab-IgG-Fab-Fab.
- SEQ ID NO: 164 is a DNA sequence of the light chain of the Fab-Fab-IgG-Fab-Fab, and
- SEQ ID NO: 165 is an amino acid sequence of the light chain of the Fab-Fab-IgG-Fab-Fab.
- SEQ ID NO: 166 shows an amino acid sequence of a Fab fragment of Fab-Fab-IgG-Fab-Fab Light Chain.
- a synthetic binding agent which in particular may reduce the fraction of pathogen that can permeate through mucus and/or freely divide as described herein, may be directed against Salmonella (e.g., having anti- Salmonella activity).
- Salmonella e.g., having anti- Salmonella activity
- a human or humanized IgG (mAb) that specifically recognizes an epitope of Salmonella may be used.
- mAb humanized IgG
- SEQ ID NO: 67 is directed against an antigen of Salmonella. Any appropriate epitope or other anti- Salmonella mAbs may be used.
- SEQ ID NO: 67 is a
- DNA polynucleotide sequence of the heavy chain of an anti- Salmonella IgG.
- SEQ ID NO: 71 is a polynucleotide (DNA) sequence of a light chain of the mti-Salmonella IgG;
- SEQ ID NO: 72 is an amino acid sequence of the mti-Salmonella light chain.
- SEQ ID NO: 69 is an amino acid sequence of a Fab fragment of this mti-Salmonella IgG heavy chain, while SEQ ID NO: 73 is an amino acid sequence of a Fab fragment of an anti -Salmonella light chain and
- SEQ ID NO: 70 is an amino acid sequence of an Fc fragment of the heavy chain of this anti -Klebsiella antibody.
- SEQ ID NO: 74 An example of a Fab-IgG synthetic anti-Salmonella LP binding agent is described by SEQ ID NO: 74 to SEQ ID NO: 80, including the DNA sequence of a synthetic Fab-IgG Heavy Chain in SEQ ID NO: 74 (the amino acid sequence of this heavy chain is shown in SEQ ID NO; 75).
- the amino acid residue of the Fab fragment of Fab-IgG Heavy Chain is provided in SEQ ID NO: 76 and the amino acid residues of the Fc fragment of Fab-IgG is provided in SEQ ID NO: 77.
- SEQ ID NO: 78 is a DNA sequence of Fab-IgG (Light Chain) portion, and the amino acid sequence is in SEQ ID NO: 79.
- SEQ ID NO; 80 lists the amino acid residues of the Fab fragment of Fab-IgG Light Chain.
- SEQ ID NO: 81 to SEQ ID NO: 87 including the DNA sequence of a synthetic Fab-IgG Heavy Chain in SEQ ID NO: 81 (the amino acid sequence of this heavy chain is shown in SEQ ID NO: 82).
- the amino acid residue of the Fab fragment of Fab-IgG Heavy Chain is provided in SEQ ID NO: 83 and the amino acid residues of the Fc fragment of Fab- IgG is provided in SEQ ID NO: 84.
- SEQ ID NO: 85 is a DNA sequence of Fab-IgG (Light Chain) portion, and the amino acid sequence is in SEQ ID NO: 86.
- SEQ ID NO: 87 lists the amino acid residues of the Fab fragment of Fab-IgG Light Chain.
- SEQ ID NO: 88 An example of a Fab-IgG-Fab synthetic anti-Salmoneila LPS binding agent is described by SEQ ID NO: 88 to SEQ ID NO: 94, including the DNA sequence of a synthetic Fab-IgG Heavy Chain in SEQ ID NO: 88 (the amino acid sequence of this heavy chain is shown in SEQ ID NO: 89).
- the amino acid residue of the Fab fragment of Fab-IgG Heavy Chain is provided in SEQ ID NO: 90 and the amino acid residues of the Fc fragment of Fab- IgG is provided in SEQ ID NO: 91.
- SEQ ID NO: 92 is a DNA sequence of Fab-IgG (Light Chain) portion, and the amino acid sequence is in SEQ ID NO: 93.
- SEQ ID NO: 94 lists the amino acid residues of the Fab fragment of Fab-IgG Light Chain.
- SEQ ID NO: 95 An example of a Fab-Fab-IgG-Fab-Fab synthetic anti-Salmonella LPS binding agent is described by SEQ ID NO: 95 to SEQ ID NO: 101, including the DNA sequence of a synthetic Fab-IgG Heavy Chain in SEQ ID NO: 95 (the amino acid sequence of this heavy chain is shown in SEQ ID NO: 96).
- the amino acid residue of the Fab fragment of Fab-IgG Heavy Chain is provided in SEQ ID NO: 97 and the amino acid residues of the Fc fragment of Fab-IgG is provided in SEQ ID NO: 98.
- SEQ ID NO: 99 is a DNA sequence of Fab-IgG (Light Chain) portion, and the amino acid sequence is in SEQ ID NO: 100.
- SEQ ID NO: 101 lists the amino acid residues of the Fab fragment of Fab-IgG Light Chain.
- a synthetic binding agent which in particular may reduce the fraction of pathogen that can permeate through mucus and/or freely divide as described herein, may be directed against Neisseria gonorrhoeae (e.g., having anti- Gonorrhea activity).
- Neisseria gonorrhoeae e.g., having anti- Gonorrhea activity
- a human or humanized IgG (mAb) that specifically recognizes an epitope of Neisseria gonorrhoeae may be used.
- the anti- Gonorrhea mAb (2C7) illustrated by SEQ ID NO: 102 to SEQ ID NO: 108 is directed against an antigen of Neisseria gonorrhoeae.
- SEQ ID NO: 102 is a polynucleotide (DNA) sequence of the heavy chain of an mti-gonorrhoeae IgG.
- SEQ ID NO; 103 is an amino acid sequence of an anti- gonorrhoeae heavy chain.
- SEQ ID NO: 106 is a polynucleotide (DNA) sequence of a light chain of the mti-gonorrhoeae IgG;
- SEQ ID NO: 107 is an amino acid sequence of the anti- gonorrhoeae light chain.
- SEQ ID NO; 104 is an amino acid sequence of a Fab fragment of this anti -gonorrhoeae IgG heavy chain
- SEQ ID NO: 108 is an amino acid sequence of a Fab fragment of an anti -gonorrhoeae light chain
- SEQ ID NO: 105 is an amino acid sequence of an Fc fragment of the heavy chain of this anti -gonorrhoeae antibody.
- SEQ ID NO: 109 An example of a Fab-IgG synthetic anti -gonorrhoeae (2C7) binding agent is described by SEQ ID NO: 109 to SEQ ID NO: 115, including the DNA sequence of a synthetic Fab-IgG Heavy Chain in SEQ ID NO: 109 (the amino acid sequence of this heavy chain is shown in SEQ ID NO: 110).
- the amino acid residue of the Fab fragment of Fab-IgG Heavy Chain is provided in SEQ ID NO: 111 and the amino acid residues of the Fc fragment of Fab-IgG is provided in SEQ ID NO: 112.
- SEQ ID NO: 113 is a DNA sequence of Fab- IgG (Light Chain) portion, and the amino acid sequence is in SEQ ID NO: 114, SEQ ID NO: 115 lists the amino acid residues of the Fab fragment of Fab-IgG Light Chain.
- An example of an IgG-Fab synthetic mti-gonorrhoeae binding agent is described by SEQ ID NO: 116 to SEQ ID NO: 122, including the DNA sequence of a synthetic IgG- Fab Heavy Chain in SEQ ID NO: 116 (the amino acid sequence of this heavy chain is shown in SEQ ID NO: 117).
- the amino acid residue of the Fab fragment of IgG-Fab Heavy Chain is provided in SEQ ID NO: 118 and the amino acid residues of the Fc fragment of IgG-Fab is provided in SEQ ID NO: 119.
- SEQ ID NO: 120 is a DNA sequence of IgG-Fab (Light Chain) portion, and the amino acid sequence is in SEQ ID NO: 121.
- SEQ ID NO: 122 lists the amino acid residues of the Fab fragment of IgG-Fab Light Chain.
- SEQ ID NO: 123 An example of a Fab-IgG-Fab synthetic mti-gonorrhoeae binding agent is described by SEQ ID NO: 123 to SEQ ID NO: 129, including the DNA sequence of a synthetic Fab-IgG-Fab Heavy Chain in SEQ ID NO: 123 (the amino acid sequence of this heavy chain is shown in SEQ ID NO: 124).
- the amino acid residue of the Fab fragment of Fab-IgG-Fab Heavy Chain is provided in SEQ ID NO: 125 and the amino acid residues of the Fc fragment of Fab-IgG-Fab is provided in SEQ ID NO: 126.
- SEQ ID NO: 127 is a DNA sequence of Fab-IgG-Fab (Light Chain) portion, and the amino acid sequence is in SEQ ID NO: 128.
- SEQ ID NO: 129 lists the amino acid residues of the Fab fragment of Fab-IgG-Fab Light Chain.
- SEQ ID NO: 153 An example of a Fab-Fab-IgG-Fab-Fab synthetic anti-gonorrhoeae binding agent is described by SEQ ID NO: 153 to SEQ ID NO: 159, including the DNA sequence of a synthetic Fab-Fab-IgG-Fab-Fab Heavy Chain in SEQ ID NO: 153 (the amino acid sequence of this heavy chain is shown in SEQ ID NO: 154).
- the amino acid residue of the Fab fragment of Fab-Fab-IgG-Fab-Fab Heavy Chain is provided in SEQ ID NO: 155 and the amino acid residues of the Fc fragment of Fab-Fab-IgG-Fab-Fab is provided in SEQ ID NO: 156.
- SEQ ID NO: 157 is a DNA sequence of Fab-Fab-IgG-Fab-Fab (Light Chain) portion, and the amino acid sequence is in SEQ ID NO: 158.
- SEQ ID NO: 159 lists the amino acid residues of the Fab fragment of Fab-Fab-IgG-Fab-Fab Light Chain.
- a synthetic binding agent which in particular may reduce the fraction of pathogen that can permeate through mucus as described herein, may be directed against Respiratory Syncytial Virus (RSV).
- RSV Respiratory Syncytial Virus
- mAb human or humanized IgG
- an anti-RSV mAb (modeled after published Motavizumab) is illustrated by SEQ ID NO: 132 to SEQ ID NO:
- SEQ ID NO: 132 is a polynucleotide (DNA) sequence of the heavy chain of an anti-RSV IgG.
- SEQ ID NO: 133 is an amino acid sequence of an anti-RSV heavy chain.
- SEQ ID NO: 136 is a polynucleotide (DNA) sequence of a light chain of the anti-RSV IgG;
- SEQ ID NO: 137 is an amino acid sequence of the anti- RSV light chain.
- SEQ ID NO: 134 is an amino acid sequence of a Fab fragment of this anti-RSV IgG heavy chain
- SEQ ID NO: 138 is an amino acid sequence of a Fab fragment of an anti-RSV light chain
- SEQ ID NO: 135 is an amino acid sequence of an Fc fragment of the heavy chain of this anti- RSV antibody.
- SEQ ID NO: 139 An example of a Fab-IgG synthetic anti-RSV binding agent is described by SEQ ID NO: 139 to SEQ ID NO: 145, including the DNA sequence of a synthetic Fab-IgG Heavy Chain in SEQ ID NO: 139 (the amino acid sequence of this heavy chain is shown in SEQ ID NO: 140).
- the amino acid residue of the Fab fragment of Fab-IgG Heavy Chain is provided in SEQ ID NO: 141 and the amino acid residues of the Fc fragment of Fab-IgG is provided in SEQ ID NO: 142.
- SEQ ID NO: 143 is a DNA sequence of Fab-IgG (Light Chain) portion, and the amino acid sequence is in SEQ ID NO: 144.
- SEQ ID NO: 145 lists the amino acid residues of the Fab fragment of Fab-IgG Light Chain.
- An example of an IgG-Fab synthetic anti-RSV binding agent is described by SEQ ID NO: 146 to SEQ ID NO: 152, including the DNA sequence of a synthetic Fab-IgG Heavy Chain in SEQ ID NO: 146 (the amino acid sequence of this heavy chain is shown in SEQ ID NO: 147).
- the amino acid residue of the Fab fragment of Fab-IgG Heavy Chain is provided in SEQ ID NO: 148 and the amino acid residues of the Fc fragment of Fab-IgG is provided in SEQ ID NO: 149.
- SEQ ID NO: 150 is a DNA sequence of Fab-IgG (Light Chain) portion, and the amino acid sequence is in SEQ ID NO: 151.
- SEQ ID NO: 152 lists the amino acid residues of the Fab fragment of Fab-IgG Light Chain.
- Other synthetic binding agents may be directed against Psuedomonas aeruginosa , Methicillin-resistant Staphylococcus aureus, Acimtobacter baumannii, and Clostridium difficile. Sequences for IgG mAbs against surface antigens for these (and other pathogens) are published and synthetic binding agents may be formed as described herein. Thus, although specific sequences of exemplary synthetic binding agents that may reduce the fraction of pathogen that can permeate through mucus and/or freely divide are described above, one of skill in the art, may understand that the specification generally teaches the method of making and using synthetic binding agents from an IgG, particularly IgGs directed against surface antigens.
- the synthetic binding agents described herein are synthetic human or humanized Immunoglobulin G (IgG) having a pair of Fab domains to which additional Fab domains directed to the same antigen are linked by a flexible linker at either or both the end(s) of the Fab domains of the IgG and/or the Fc region of the IgG, in tandem.
- the resulting synthetic binding agent has been found to dramatically reduce the mobility of the target (e.g., pathogen, such as bacteria, virus, yeast, etc. and/or sperm, etc.) in mucus.
- the synthetic binding agents were found to be stable across a variety of delivery forms, including nebulized forms, and can be readily produced using the methods and techniques described herein.
- variable heavy chain and light chain, in some cases as well as constant heavy and light chain sequences, of a starting IgGl mAb were codon-optimized for Homo sapiens using the optimization tool, such as that provided by GeneArt (ThermoFisher Scientific). Codon-optimized sequences of VH, CHI, VL and CL may be used to design the gene fragments required to assemble the synthetic binding agents described herein (e.g., using software such as Benchling software).
- Fab-IgG synthetic binding agent a gene fragment comprised of VH-CHl-6xG4S-Linkers-VH was designed to be cloned into mammalian expression vector comprised of CH1-CH2-CH3 DNA sequences.
- Fab- Fab-IgG-Fab-Fab the gene fragments comprised of VH-CHl-6xG4SLinkers-VH-CHl- 6xG4SLinkers-VH and 6xG4SLmkers-VH-CHl -6xG4SLinkers-VH-CHl were designed to be further cloned into an IgGl expression vector.
- the DNA sequences for repeated fragments may be, e.g., manually, codon-optimized resulting in increased variability of DNA sequences and subsequent reduced complexity for gene synthesis.
- gene sequences may be further processed through a complexity-analyzing tool provided (e.g., such as that provided by IDT (Integrated DNA Technologies) to obtain a complexity score.
- a complexity-analyzing tool e.g., such as that provided by IDT (Integrated DNA Technologies) to obtain a complexity score.
- Gene fragments with complexity scores ⁇ 25 are known to be easily and successfully synthesized via GeneArt Gene synthesis.
- Expression vectors encoding the synthetic binding agent may be generated.
- an expression plasmid encoding the light chain, the gene fragment consisting of VL and CL (Ol) DNA sequences may be synthesized using custom gene-synthesis service (e.g., Integrated DNA Technologies) and cloned into an empty mammalian expression vector using, e.g., Kpnl (5’) and EcoRI (3’) restriction sites.
- expression plasmids encoding heavy chains (HC) for the synthetic binding agent in some examples four cloning vectors comprising of VH-CHl-6xG4SLihkers-VH, VH-CHl-6xG4SLinkers-VH- CHl-6xG4SLinkers-VH, 6xG4SLinkers-VH-CHl and 6xG4SLinkers-VH-CTIL
- VH fragment was amplified from the cloning vector comprising of VH-CHl-6xG4SLinkers-VH vector using forward primer, 5'- TAAGCAGGTACCGCCACCATGAAGTG-3' (SEQ ID NO: 130), and reverse primer, 5'- T GCTTAGCT AGCTGG AGA AACT GTC-3 ' (SEQ ID NO: 131), and then cloned into the mammalian expression vector comprised of CH1-CH2-CH3 DNA sequences using Kpnl (5’) and Nhel (3’) restriction sites.
- VH-CHl-6xG4S Linkers- VH fragment was cloned into the same mammalian expression vector using Kpnl (5’) and Nhel (3’) restriction sites.
- the construction of an expression plasmid encoding HC for IgG-Fab may include using a 6xG4SLinkers-VH-CHl fragment that is cloned into the IgG mammalian expression vector using BamHI (5’) and Miul (3’) restriction sites.
- VH-CHl-6xG4SLinkers-VH fragment may be first cloned into the mammalian expression vector using Kpnl (5’) and Nhel (3’) restriction sites followed by the cloning of 6xG4SLinkers-VH-CHl fragment using BamHI (S’) and Mlul (3’) restriction sites.
- VH-CHl-6xG4SLinkers-VH fragment may be first cloned into the mammalian expression vector using Kpnl (5 !
- VH-CHl-6xG4SLinkers-VH-CHl-6xG4SLinkers-VH fragment may be first cloned into the mammalian expression vector using Kpnl (S’) and Nhel (3’) restriction sites followed by the cloning of 6xG4SLinkers-VH-CHl-6xG4SLinkers-VH-CHl fragment using BamHI (5’) and Mlul (3’) restriction sites.
- quick ligation kit (New England Biolabs, Ipswich, MA) may be used. All ligated DNA constructs may be transformed into chemically competent TOP 10 E coli cells (Life Technologies) and plated on ampicillin plates for selection. Bacterial colonies may be picked, cultured, and the plasmids prepped (e.g., Qiagen MiniPrep Kit). Correct assembly of the constructs into the expression vector may be confirmed by Sanger sequencing (e.g., Eurofins Genomics).
- expression plasmids encoding the heavy chain (HC) and light chain (LC) for IgG, Fab-IgG, IgG-Fab, FIF, FIFF and FFIFF antibodies were scaled up by transforming the sequencing-confirmed expression plasmids in chemically competent TOP 10 E, coli, inoculating the transformation mix into 100 mL Luria broth in a 250 mL baffled flask and overnight shaking at 220 r.p.m at 37°C.
- Midi-prep plasmid purifications were done using NucleoBond® Xtra Midi EF Kits (Macherey-Nagel) according to the manufacturer's protocols.
- Proteins were expressed in Expi293 cells using ExpiFectamineTM 293 Transfection reagents and protocols provided by the manufacturer (ThermoFisher Scientific).
- IgG one HC and one LC plasmid were co-transfected using a 1:1 ratio at 1 pg total DNA per 1 mL of culture.
- Fab-IgG and IgG-Fab one HC and one LC plasmid were co-transfected using a 1 :2 ratio at 1 pg total DNA per 1 mL culture.
- Fab-IgG-Fab one HC and one LC plasmid were co-transfected using a 1:3 ratio at 1 pg total DNA per 1 mL culture.
- Fab-IgG-Fab-Fab For Fab-IgG-Fab-Fab, one HC and one LC plasmid were co- transfected using a 1 :4 ratio at 1 mg total DNA per 1 mL culture.
- Fab-Fab-IgG-Fab-Fab For Fab-Fab-IgG-Fab-Fab, one HC plasmid and one LC plasmid were co-transfected using a 1 :5 ratio at 1 pg total DNA per 1 L culture. Transfected cells were grown at 37°C in a 5% C0 2 incubator while shaking at 125 r.p.m. for 5 days. Supernatants were harvested by centrifugation at 5000g for 10 min and passed through 0.22-pm filters for purification using standard protein A affinity chromatography.
- the synthetic binding agent may be delivered to a mucosa, as described herein. Delivery may be via topical delivery, including aerosol, liquid, or gel (including dissolvable gel).
- a film may be used to deliver the synthetic binding agent. In some cases, a vaginal film may be used
- genes containing the complete heavy chain and light chain sequences of IgG and Fab-IgG-Fab were cloned into plant expression vectors (TMV and PYX; Icon Genetics) followed by
- the HCA films were formulated as a 2-inch by 2-inch polyvinyl alcohol (PVA) film casts and dried from an aqueous wet blend.
- the aqueous wet blend was composed of approximately 38.5 mL formulated antibody concentrate (200 mg/mL maltltol, 10.0 rnM histidine, 0.05 mg/mL, polysorbate 20) mixed with an aqueous polymer concentrate (17.88 g PVA 8-88 dissolved in 53.6 g WFI).
- IgG-Film and FIF-Film e.g., Fab-IgG-Fab
- the films were dissolved in ultra-pure water to perform characterization studies followed by sperm potency and agglutination kinetics assays.
- the synthetic binding agents described herein may also be nebulized for delivery without significantly reducing their efficacy.
- nebulization of FIF (Fab-IgG-Fab) constructs and FFIFF (Fab-Fab-IgG-Fab-Fab) constructs were examined.
- FIF and FFIFF antibodies were nebulized using a PARI eRapid vibrating mesh nebulizer system.
- the nebulized solutions were collected into a 50 mL conical tube, and the stability of the nebulized antibodies was assessed using SDS-PAGE, and the affinity of the antibody to its antigen assessed using whole-sperm ELISA assay.
- biophysical characterization of the synthetic binding agents were done using SDS-PAGE, SEC-MALS and nano-DSF.
- SDS-PAGE experiments were performed using 4-12% NuPage Bis-Tris gels (ThermoFisher Scientific) in IX NuPage MOPS buffer under both reducing and non-reducing conditions to confirm the correct assembly of all HCA protein constructs.
- Thermal denaturation experiments were performed from 25°C to 95°C at the rate of l°C/min, measuring the intrinsic tryptophan fluorescence at 330 nm and at 350 nm.
- the melting temperature (T ) for each experiment was calculated automatically by Nanotemper PR.
- Thermcontrol software by plotting ratiometric measurement of the fluorescent signal against increasing temperature.
- the aggregation temperature (Tagg) for each experiment was also calculated automatically by Nanotemper PR. Thermcontrol software via the detection of the back-reflection intensity of a light beam that passes the sample.
- the anti-sperm synthetic binding agents described herein were examined to determine sperm agglutination potency as well as muco-trapping potency.
- Fresh semen was examined. For example, male subjects were asked to refrain from sexual activity for 24 hrs prior to semen collection. Semen was collected by masturbation into sterile 50 mL sample cups and incubated for a minimum of 15 min post-ejaculation at room temperature to allow liquefaction. Semen volume was measured, and density gradient sperm separation procedure was used to extract motile sperm from liquefied ejaculates. Briefly, 1.5 mL of liquefied semen was carefully layered over 1.5 mL of Isolate (90% density gradient medium, Irvine Scientific) at room temperature, and centrifuged at 300g for 20 min. Following
- This device consists of a phase-contrast microscope (Olympus CX41), a camera, an image digitizer and a computer with a Hamilton-Thorne Ceros 12.3 software to save and analyze the procured data.
- 4.4 pL of semen sample was inserted into MicroTool counting chamber slides (Cytonix). Then, six randomly selected microscopic fields, near the center of the slide, were imaged and analyzed for progressive and non-progressive motile sperm count.
- VAP average pathway velocity
- VSL straight-line velocity
- VCL curvilinear velocity
- AH amplitude of lateral head displacement in pm
- BCF beat cross-frequency
- STR average value of the ratio VSL/VAP in %)
- LIN linearity
- the washing procedure was repeated and 50 uL of the buffer containing substrate (l-Step Ultra TMB ELISA Substrate, ThermoFisher Scientific) was added to develop the colorimetric reaction for l5min.
- the reaction was quenched using 50 uL of 2N H2SO4, and the absorbance at 450 nm (signal) and 570 rnn (background) was measured using SpectraMax M2 Microplate Reader (Molecular Devices). Each experiment was done with samples in triplicates and repeated at least twice as a measure assay variability.
- the tubes were then fixed at 45° angles in a custom 3D printed tube holder for 5 min at room temperature. Following this incubation period, 4.4 pL was extracted from the top layer of the mixture with minimal perturbation of the tube and transferred to the CASA instrument to quantify the number of progressively motile sperm. The percentage of the progressively motile sperm that escaped agglutination was computed by dividing the sperm count obtained after treatment with HCA constructs by the original sperm count in each respective tube, correcting for the 2-fold dilution with antibody. Each experimental condition was evaluated in duplicates on each semen specimen, and the average from the two experiments was used in the analysis. At least 5 independent experiments were done per assay, each using a single semen donor.
- a timer was started immediately by a second person while 4.4 pL of the mixture was transferred to chamber slides with a depth of 20 pM (Cytonix, Beltsville, MD), and video microscopy (Olympus CKX41) using a lOx objective lens focused on the center of chamber slide was captured up to 90 s at 60 ff ames/s. Progressive sperm count was measured by CASA every 30 s up to 90 s. The percentage of the agglutinated sperm at each time point was computed by normalizing the progressive sperm count obtained after treatment with HCA constructs to the progressive sperm count obtained after treatment with sperm washing media. Each experimental condition was evaluated in duplicates on each semen specimen, and the average from the two experiments used in the analysis. At least 6 independent experiments were done per assay, each using a single semen donor.
- Acidic pH stability of IgG- and FIF-FUm via agglutination kinetics assay were performed using IgG-Film and FIF-Film constructs that were incubated in 0.5% Lactic Acid (LA) or sperm washing medium (MHM; control) for 24 hrs at 37°C.
- HCA constructs incubated in LA were neutralized using equal volume of seminal plasma (SP).
- SP seminal plasma
- Purified motile sperm were diluted in sperm washing medium to a final concentration of 20x 10 6 progressively motile sperm per mL.
- HCA constructs HCA-LA/SP or HCA-LA/MHM or HCA-MHM/MHM
- HCA-LA/SP or HCA-LA/MHM or HCA-MHM/MHM HCA constructs
- HCA-LA/SP or HCA-LA/MHM or HCA-MHM/MHM HCA-LA/SP or HCA-LA/MHM/MHM
- a timer was started immediately by a second person while 4.4 pL of the mixture was transferred to chamber slides with a depth of 20 pM (Cytonix, Beltsville, MD), and video microscopy (Olympus CKX41) using a lOx objective lens focused on the center of chamber slide was captured up to 90 s at 60 frames/s.
- Progressive sperm count was measured by CASA every 30 s up to 90 s.
- the percentage of the agglutinated sperm at each time point was computed by normalizing the progressive sperm count obtained after treatment with HCA constructs to the progressive sper
- sperm were fluorescently labeled.
- Purified motile sperm were fluorescently labelled using Live/Deadsperm Viability Kit (Invitrogen Molecular Probes), which stains live sperm with SYBR 14 dye, a membrane-permeant nucleic acid stain, and dead sperm with propidiu iodide, a membrane impermeant nucleic acid stain.
- SYBR 14 dye stains live sperm with SYBR 14 dye
- a membrane-permeant nucleic acid stain a membrane-permeant nucleic acid stain
- dead sperm with propidiu iodide a membrane impermeant nucleic acid stain.
- final concentration of 200 nM and 12 mM were respectively used for SYBR 14 and Propidium Iodide dye.
- the sperm solution was washed twice to remove unbound fluorophores by centrifuging at 300g for 10 min using Sperm Washing Media (Irvine Scientific). Next, the labelled motile sperm pellet was resuspended in sperm washing medium, and an aliquot was taken for determination of sperm count and motility using CASA.
- CVM cervicovaginal mucus
- CVM Single particle tracking of fluorescently labelled sperm in CVM was used to mimic the dilution and neutralization of CVM by alkaline seminal fluid.
- CVM was first diluted three-fold using sperm washing media and titrated to pH 6.8-7.1 using small volumes ( ⁇ 3% v/v) of 3 N NaOH, The pH was confirmed using a micro pH electrode
- HCA constructs or control (anti-RSV IgGl) was added to 60 pL of diluted and pH adjusted CVM and mixed well in a CultureWellTM chamber slides (Invitrogen #C37000, ThermoFisher Scientific) followed by addition of 4 pL of 7.5xl0 5 per mL of fluorescently labelled sperm. Once mixed, sperm, antibody and CVM were incubated for 15 min at room temperature.
- DAPI/GFP/543/623/690 6 videos (512 x 512 pixels, 16-bit image depth) were captured for each antibody condition with MetaMorph imaging software (Molecular Devices, Sunnyvale, CA) at a temporal resolution of 66.7 ms and spatial resolution of 50 nm (nominal pixel resolution, 0.78pm/pixel) for 20s. Microscopy videos obtained for this trapping were run through a Neural Net Tracker to determine the percentage of progressively motile sperm after incubation with different concentrations of HCA constructs.
- MetaMorph imaging software Molecular Devices, Sunnyvale, CA
- Microscopy videos obtained for this trapping were run through a Neural Net Tracker to determine the percentage of progressively motile sperm after incubation with different concentrations of HCA constructs.
- HCA constructs were instilled to the sheep’s vagina followed by human semen and simulated intercourse ( ⁇ 30s) with a vaginal dilator. Two minutes later, the fluids from the sheep vagina were recovered and immediately assessed for progressive sperm motility. The condition with multimeric HCA constructs was repeated two more times in the same sheep with at least 7 days in between experiments. For each experiment, semen samples were pooled from 3-4 donors.
- native IgG sequences and synthetic anti-RSV binding agents based on the anti-RSV IgG were generated and characterized.
- the codon- optimized sequences of VH, CH1, VL and CL were utilized to design the sequences for anti- RSV IgG, Fab-IgG and IgG-Fab antibodies.
- the complete sequence of IgG, IgG-Fab and Fab-IgG were ordered using GeneArt Gene Synthesis. To minimize synthesis problems that could occur due to repeated sequences in IgG-Fab and Fab-IgG, the DNA sequences for repeated fragments were manually codon-optimized resulting in increased variability of DNA sequences and subsequent reduced complexity for gene synthesis.
- expression plasmid encoding the light chain the gene fragment consisting of VL and CL (Ck) DNA sequences was synthesized using GeneArt® gene synthesis service and cloned into the empty mammalian expression vector (pAH) using Kpnl (5’) and EcoRI (3 s ) restriction sites.
- expression plasmids encoding heavy chains (HC) for IgG, Fab-IgG and IgG-Fab the complete gene sequences of all Abs were synthesized using GeneArt® gene synthesis service (ThermoFisher Scientific) and cloned into empty mammalian expression vector ( AH) sequences using Kpnl (5’) and Mlul (3’) restriction sites.
- the expression plasmids encoding the heavy chain (HC) and light chain (LC) for IgG, Fab-IgG and IgG- antibodies were scaled up by transforming the sequencing-confirmed expression plasmids in chemically competent TOP 10 E. coli, inoculating the transformation mix into 100 mL Luria broth in a 250 mL baffled flask and overnight shaking at 220 r.p.m at 37°C, Midi-prep plasmid purifications were done using NucleoBond® Xtra Midi EF Kits (Macherey-Nagel) according to the manufacturer's protocols.
- Proteins were expressed in Expi293 cells using ExpiFectamineTM 293 Transfection reagents and protocols provided by the manufacturer (ThermoFisher Scientific).
- IgG one HC and one LC plasmid were co transfected using a 1:1 ratio at 1 pg total DNA per 1 mL of culture.
- Fab-IgG and IgG-Fab one HC and one LC plasmid were co-transfected using a 1 :2 ratio at 1 pg total DNA per 1 mL culture. Transfected cells were grown at 37°C in a 5% C0 2 incubator while shaking at 125 r.p.m. for 5 days.
- Supernatants were harvested by centrifugation at 5000g for 10 min and passed through 0.22 pm filters for purification using standard protein A affinity chromatography. Briefly, 30 mL of transfected supernatant was incubated with 400 pL PBS-washed PierceTM Protein A Plus Agarose Resin (ThermoFisher Scientific) overnight at 4°C. Next, the re sin- supernatant solution was flown through the gravity columns followed by the washing of resin.
- Protein was eluted by adding 900 pL of PierceTM IgG Elution Buffer (ThermoFisher Scientific) into PBS-washed resin and was immediately neutralized by adding 100 pL of UltraPureTM 1 M Tris-HCI Buffer, pH 7.5 (ThermoFisher Scientific). Eluted proteins were further dialyzed into PBS using Amicon® Ultra
- the gel was run for 50 min at a constant voltage of 200 V and washed 3 times with MilH-Q water. Then, the protein bands were visualized by staining with Imperial Protein Stain (ThermoFisher Scientific) for lhr followed by overnight de-staining with Milli-Q water.
- Imperial Protein Stain ThermoFisher Scientific
- Anti-RSV synthetic binding agents were examined using ELISA. Briefly, halfarea polystyrene plates (CLS3690, Coming) were coated with 50 pL of 10 pg/mL of human RSV (ATCC® VR-1540P) per well using NaHC0 3 buffer (pH 9.6). After overnight incubation at 4°C, the plates were incubated under the UV for 1 hr to inactivate the virus. The plates were washed twice with 1XPBS, 100 pL of 5% milk was incubated at room
- the washing procedure was repeated and 50 pL of the buffer containing substrate (l-Step Ultra TMB ELISA Substrate, ThermoFisher Scientific) was added to develop the colorimetric reaction for I5min, The reaction was quenched using 50 pLof 2N H 2 S0 4 , and the absorbance at 450 nm (signal) and 570 n (background) was measured using SpectraMax M2 Microplate Reader (Molecular Devices). Each experiment was done with samples in triplicates and repeated at least twice as a measure assay variability.
- the buffer containing substrate l-Step Ultra TMB ELISA Substrate, ThermoFisher Scientific
- the anti-RSV synthetic binding agents were synthetized as described herein to form Fab-IgG, IgG-Fab, Fab-IgG-Fab, Fab-Fab-IgG, Fab-Fab-IgG-Fab, IgG-Fab- Fab, Fab-IgG-Fab-Fab, and Fab-Fab-IgG-Fab-Fab. Both the synthesis and characterization of these anti-RSV synthetic binding agents were similar to those described for the other synthetic binding agents described, resulting in improved muco-trapping. In particular, as compared to IgG, the synthetic binding agents described herein had a superior muco-trapping and agglutination effect on the target.
- motile targets such as sperm, bacteria, and other pathogens
- motile targets may show an increase in mucosal tracking as compared to native antibodies.
- Preliminary evidence also suggests that the synthetic binding agents described herein may specifically inhibit growth of bacteria.
- Surface antigens on targets e.g., virus were used in all of the examples described herein.
- FIG. 15A illustrates native (IgG, top, including component Fab and Fc regions), and FI (Fab-IgG) and IF (IgG-Fab) synthetic binding agents (bottom).
- the diagrams shown in FIG. 15A may be of anti-sperm IgG, Fab-IgG, and IgG-Fab; the N-terminal Fab of Fab-IgG and C-terminal Fab of IgG-Fab may contain a fully intact anti-sperm Fab with VH, VL, CHI, and CL, as described above.
- FIG. 15B a non-reducing gel shows that the synthesized Fab-IgG and IgG-Fab were produced as expected, and were expressed with high efficiency.
- FIG. 15C shows a reducing SDS-Page analysis of the indicated antibodies after expression in Expi293 cells and purification by protein A/G chromatography.
- FIG. 15D is a demonstration of the purity and homogeneity of the purified multimeric antibodies via analytical SEC-MALS analysis.
- FIGS. 16A-16C further characterize the synthetic binding agents described herein.
- anti-sperm synthetic binding agents were compared to anti-sperm IgG antibodies.
- FIG. 16A the molar mass versus time of the IgG, Fab-IgG and IgG- Fab respectively as determined by SEC-MALS showed that the synthetic binding agents described herein resembled the native Ab from which they originated. This was also apparent in FIG. 16B.
- the value of melting temperature (Tm) and aggregating temperature (Tagg) of as determined by nanoDSF by measuring intrinsic fluorescence of a protein and changes in back-reflection respectively were nearly the same.
- Tm melting temperature
- Tagg aggregating temperature
- FIGS. 17A-17B show the effect of anti-sperm synthetic binding agents as described herein (e.g., with additional FAB regions linked by flexible linkers to either or both the native variable (Fab) or constant ends).
- FIG. 17A the sperm agglutination potency of parent IgG, Fab-IgG and IgG-Fab was examined using purified motile sperm (10xl0 6 progressively motile sperm per mL).
- the sperm agglutination potency of the parent and multimeric anti-sperm IgGs were measured by quantifying the percentage of sperm that remains progressively motile post Ab-treatment at different concentrations compared to pre-treatment condition.
- FIG. 17A the sperm agglutination potency of parent IgG, Fab-IgG and IgG-Fab was examined using purified motile sperm (10xl0 6 progressively motile sperm per mL).
- FIGS. 18A-18B show the effect of sperm agglutination kinetics for parent IgG, Fab-IgG and IgG-Fab using purified motile sperm (10xl0 6 progressively motile sperm per mL).
- FIG. 18A the agglutination kinetics of indicated antibodies was assayed by quantifying the time required to agglutinate 90% of progressively motile sperm compared to untreated control. The CASA analysis was obtained every 30s post-treatment until 90s.
- FIG. 18A the agglutination kinetics of indicated antibodies was assayed by quantifying the time required to agglutinate 90% of progressively motile sperm compared to untreated control.
- the CASA analysis was obtained every 30s post-treatment until 90s.
- the rate of sperm agglutination of indicated anti-sperm antibodies was measured by quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pre-treatment. Data represents 6 unique sperm specimens, Lines indicate arithmetic mean concentration and standard error of mean.
- the synthetic binding agents has far superior sperm-agglutination potential compared to IgG alone, particularly at lower concentrations (e.g., less than about 2 ug/ml).
- FIG. 19 shows the muco-trapping potency of parent IgG, Fab-IgG and IgG-Fab using pH-neutralized female CVM and purified motile sperm (1.5x10 6 progressively motile sperm/mL).
- the muco-trapping potency of indicated antibodies was assessed by performing real-time video microscopy on fluorescently labelled sperm suspended in Ab-treated
- FIGS. 20A-20D show the characterization of multimeric anti-sperm IgG antibodies.
- FIGS, 20B and 20C show non-reducing and reducing SDS-Page analysis, respectively, of the indicated antibodies after expression in Expi293 cells and purification by protein A/G chromatography.
- FIG. 20D shows a demonstration of the purity and homogeneity of the purified multimeric antibodies via analytical SEC-MALS analysis.
- FIGS, 21A-21C also illustrate that the synthetic binding agents (e.g., multimeric anti-sperm IgG antibodies) described herein have comparable properties as compared to each other and to the native IgG.
- molar mass versus time of the IgG, FIF, FIFF and FFIFF respectively is determined by SEC-MALS.
- FIG, 21 B shows the value of melting temperature (Tm) and aggregating temperature (Tagg) of indicated antibodies as determined by nanoDSF by measuring intrinsic fluorescence of a protein and changes in back-reflection respectively.
- Tm melting temperature
- Tagg aggregating temperature
- FIG. 21C the whole Sperm ELISA analysis is used to assess the binding potency of the indicated antibodies.
- Motavizumab anti-RSV IgGl
- ELISA was performed in in triplicates and repeated three times using 3 unique specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- the synthetic binding agents including the high-Fab number (e.g., FR1]
- FIG. 22A-22B show sperm agglutination potency of parent IgG and multimeric constructs using purified motile sperm (10xl0 6 progressively motile sperm per mL) and whole semen.
- sperm agglutination potency of the parent IgG, FIF, FIFF and FFIFF was measured by quantifying the percentage of sperm that remains progressively motile post Ab-treatment compared to pre-treatment condition using purified motile sperm (lOxlO 6 progressively motile sperm per mL).
- the percentage of agglutination-escaped progressive sperm post Ab- treatment using purified motile sperm was normalized to the negative control for further comparison.
- the 10 mer (Fab-Fab-IgG-Fab-Fab) was slightly better than the lower Fab constructs, particularly at lower concentrations, and faster times to agglutination.
- the sperm agglutination potency of the parent IgG and FFIFF was measured by quantifying the percentage of sperm that remains progressively motile post Ab-treatment compared to pre-treatment condition using whole semen.
- the percentage of agglutination-escaped progressive sperm post Ab-treatment using whole semen was normalized to the negative control for further comparison. Data represents 6 unique sperm specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- FIGS. 23A-23B Spenn agglutination kinetics of parent IgG and multimeric constructs using purified motile sperm (lOxlO 6 progressively motile sperm per mL) and whole semen is also illustrated in FIGS. 23A-23B.
- FIG. 23A the agglutination kinetics of parent IgG, FIF, FIFF and FFIFF was examined by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control using purified motile sperm (lOxlO 6 progressively motile sperm per mL).
- the CASA analysis was obtained every 30s post- treatment until 90s In FIG.
- the rate of sperm agglutination of parent IgG, FIF, FIFF and FFIFF was measured by quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pre-treatment using purified motile sperm (lOxlO 6 progressively motile sperm per mL).
- the agglutination kinetics of parent IgG and FFIFF was assessed (in FIG. 23C) by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control using whole semen.
- the CASA analysis was obtained every 30s post-treatment until 90s.
- the rate of sperm agglutination of parent IgG and FFIFF was measured by quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pre-treatment using whole semen. Data represents 6 unique sperm specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- FIGS. 24A-24B Sperm agglutination kinetics of parent IgG and FFIFF was examined using low and high concentration of purified motile sperm (2xl0 6 and 50x10 6 progressive sperm/mL), as shown in FIGS. 24A-24B.
- FIG. 24A the agglutination kinetics of IgG and FFIFF was examined by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control.
- the CASA analysis was obtained every 30s post- treatment until 90s using purified motile sperm (2xl0 6 progressive sperm/mL).
- the rate of sperm agglutination of IgG and FFIFF was measured by quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pretreatment using purified motile sperm (2x10 6 progressive sperm/mL), as shown in FIG. 24B.
- the agglutination kinetics of IgG and FFIFF were examined in FIG. 24C by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control using purified motile sperm (50x10 6 progressive sperm/mL).
- the CASA analysis was obtained every 30s post-treatment until 90s.
- FIG. 24D the rate of sperm agglutination of IgG and FFIFF was measured by quantifying the percentage of agglutinated sperm post
- FIG. 25 shows the sperm agglutination potency of parent IgG, FIF and FFIFF using whole semen in a sheep study.
- the agglutination potency of IgG, FIF and FFIFF was measured in vivo by instilling Abs into sheep vagina, followed by human semen and simulated intercourse. Sperm motility was examined immediately in the fluids from the sheep vagina. Data represents 3 unique sheep studies for FIF and FFIFF, and 1 sheep study for IgG at both 33 ug/ml and 333 ug/ml. Lines indicate arithmetic mean concentration and standard error of mean.
- FIG. 26 and 27A-27C illustrate agglutination potency of a Nicotiana-produced film of parent IgG and FIF using purified motile sperm (lOxlO 6 progressive sperm/mL) and whole semen.
- FIG. 26 shows measured sperm agglutination potency of the parent IgG-Film and FIF-Film by quantifying the percentage of sperm that remains progressively motile post Ab-treatment compared to pre-treatment condition using purified motile sperm (lOxlO 6 progressively motile sperm per mL).
- FIG. 26 and 27A-27C illustrate agglutination potency of a Nicotiana-produced film of parent IgG and FIF using purified motile sperm (lOxlO 6 progressive sperm/mL) and whole semen.
- FIG. 26 shows measured sperm agglutination potency of the parent IgG-Film and FIF-Film by quantifying
- FIG. 27A shows the percentage of agglutination-escaped progressive sperm post Ab-treatment using purified motile sperm was normalized to the negative control for further comparison.
- the sperm agglutination potency of the parent IgG-Film and FIF-Film was measured (in FIG. 27B) by quantifying the percentage of sperm that remains progressively motile post Ab-treatment compared to pre-treatment condition using whole semen.
- FIG. 27C the percentage of agglutination-escaped progressive sperm post Ab-treatment using whole semen was normalized to the negative control for further comparison.
- Data represents 6 unique sperm specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- FIGS. 28A-28B illustrate agglutination kinetics of a Nicotiana-produced films of parent IgG and FIF using purified motile sperm (lOxlO 6 progressively motile sperm/mL) and whole semen.
- FIG. 28 A shows the agglutination kinetics of indicated antibodies by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control using purified motile sperm (lO lO 6 progressively motile sperm/mL), The CASA analysis was obtained every 30s post- treatment until 90s, The rate of sperm agglutination of indicated anti-sperm antibodies was assessed (in FIG. 28B) by quantifying the percentage of agglutinated sperm post Ab-treatment at three different time points compared to pre-treatment using purified motile sperm (10xl0 6 progressively motile sperm/mL),
- FIGS. 29A-28B illustrate agglutination kinetics of the Nicotiana-produced films of parent IgG and FIF using low and high concentration of purified motile sperm (2xl0 6 and 50x10 6 progressively motile sperm/mL), The agglutination kinetics of indicated antibodies was assessed by quantifying the time required to achieve 90% agglutination of progressive sperm compared to untreated control using purified motile sperm (2xl0 6 progressively motile sperm/mL). The CASA analysis was obtained every 30s post-treatment until 90s.
- FIG. 29D shows agglutination kinetics of the Nicotiana-produced films of parent IgG and FIF in the acidic environment using purified motile sperm (20x10 6 progressively motile sper /mL) and 24hr treatment with lactic acid.
- LA Lactic acid
- SP seminal plasma
- FIGS. 31 A-31D show the characterization of Nicotiana-produced FIF-Film and Expi293 -produced FFIFF antibodies post-nebulization.
- ELISA was performed in triplicates and repeated twice using the same donor specimens. Lines indicate arithmetic mean concentration and standard error of mean.
- nebulizing the synthetic binding agents described herein did not damage or disrupt them, and they may be effectively delivered by nebulization (e.g., by aerosolization).
- FIGS. 32A-32B illustrate the production and characterization of multimeric anti- RSV IgG antibodies.
- FIG. 32A shows non-reducing and reducing SDS-Page analysis, respectively, of ant-RSV synthetic binding agents (e.g., formed from a Motavizumab parent IgG) after expression In Expi293 cells and purification by protein A/G chromatography.
- FIG. 32B shows RSV ELISA analysis to assess the binding potency of the indicated antibodies. Synagis/Palivizumab (anti-RSV IgGl) was used as the positive control. ELISA was performed in triplicates.
- the anti-RSV synthetic binding agents in this case Fab- IgG and IgG-Fab, however Fab-Fab-IgG-Fab-Fab and Fab-IgG-Fab may have similar results as described above), were superior to native IgG in binding the same target, which will result in substantially greater muco-trapping potency and therefore therapeutic efficacy, particularly at lower concentrations and faster times.
- a synthetic binding agent may be made with multiple scFvs or nanobodies in the same manner as described with Fabs. Further, in some variations multimeric antibodies similar to those described herein may be made without Fc regions. SEQUENCE LISTING
- SEQ ID NO: 4 Annotated Amino Acid sequence of Fab fragment of HCA-UNC (anti-CD52g) ⁇ Heavy Chain)
- SEQ ID NO: 20 Annotated DNA sequence of Synthetic anti-CD52g Fab-IgG-Fab (Heavy Chain)
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CN202410028119.3A CN117838855A (en) | 2018-09-21 | 2019-09-23 | Synthetic adhesive limiting penetration of mucus |
EP19861406.7A EP3853249A4 (en) | 2018-09-21 | 2019-09-23 | Synthetic binding agents for limiting permeation through mucus |
CN201980076739.1A CN113166236A (en) | 2018-09-21 | 2019-09-23 | Synthetic adhesive with limited penetration through mucus |
AU2019343952A AU2019343952A1 (en) | 2018-09-21 | 2019-09-23 | Synthetic binding agents for limiting permeation through mucus |
US17/278,217 US20210347885A1 (en) | 2018-09-21 | 2019-09-23 | Synthetic binding agents for limiting permeation through mucus |
JP2021540374A JP2022502488A (en) | 2018-09-21 | 2019-09-23 | Synthetic binder to limit permeation of mucus |
CA3113059A CA3113059A1 (en) | 2018-09-21 | 2019-09-23 | Synthetic binding agents for limiting permeation through mucus |
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CN113166236A (en) | 2021-07-23 |
EP3853249A1 (en) | 2021-07-28 |
US20210347885A1 (en) | 2021-11-11 |
CN117838855A (en) | 2024-04-09 |
CA3113059A1 (en) | 2020-03-26 |
AU2019343952A1 (en) | 2021-04-22 |
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