WO2012062228A2 - Polipéptidos derivados de la il-2 con actividad agonista para la terapia del cáncer e infecciones crónicas. - Google Patents
Polipéptidos derivados de la il-2 con actividad agonista para la terapia del cáncer e infecciones crónicas. Download PDFInfo
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- WO2012062228A2 WO2012062228A2 PCT/CU2011/000007 CU2011000007W WO2012062228A2 WO 2012062228 A2 WO2012062228 A2 WO 2012062228A2 CU 2011000007 W CU2011000007 W CU 2011000007W WO 2012062228 A2 WO2012062228 A2 WO 2012062228A2
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Classifications
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
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- C07K14/76—Albumins
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K19/00—Hybrid peptides, i.e. peptides covalently bound to nucleic acids, or non-covalently bound protein-protein complexes
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
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- C07K2319/00—Fusion polypeptide
- C07K2319/33—Fusion polypeptide fusions for targeting to specific cell types, e.g. tissue specific targeting, targeting of a bacterial subspecies
Definitions
- the present invention relates to immunology. Particularly it is related to the therapeutic application of the modulation of the immune system by means of analogs of natural molecules that have agonist action of the original molecule, and yet surprisingly they demonstrated superior therapeutic efficacy.
- Interleukin 2 was the first growth factor described for T cells. Since its discovery, its ability to promote proliferation and survival of T cells in vitro was observed (Smith, KA (1988) Science. 240 , 1169-76), as well as its ability to enhance the T immune response in the context of viral infections (Blattman, JN, et al. (2003) Nat Med. 9, 540-7) or vaccines (Fishman,, et al . (2008) J Immunother. 31, 72-80; Kudo-Saito, C, et al. (2007) Immunol Immunother Cancer. 56, 1897-910; Lin, CT, et al. (2007) Immunol Lett. 114, 86-93).
- Interleukin 2 has also been proposed as a relevant actor in the mechanism by which regulatory T cells suppress the activity and expansion of other effector cells such as helper CD4 T, cytotoxic CD8 T and natural NK killer cells.
- regulatory T cells suppress other T cells, inducing local decrease in IL-2 levels (Pandiyan, P., et al. (2007) Nat Immunol. 8, 1353-62).
- This suppressive effect is based on: a) In its ability to directly inhibit the production of new IL-2 by the effector T cells it suppresses (Almeida, AR, et al. (2002) J Immunol. 169, 4850-60; Takahashi, T., et al. (1998) Int Immunol.
- IL-2 is a cytosine with highly pleiotropic properties, being very relevant in the biological activity of different cell populations. This property makes IL-2 an important node in the regulation of the immune response, making it an attractive and complex target for immuno modulation therapies.
- IL-2 has been used for several years in cancer therapy. In particular, its use in high doses is an approved therapy in several countries for the treatment of melanoma and metastatic renal carcinoma.
- the direct use of IL-2 in patients is severely limited by the toxic effects and the low efficacy of it. So much so that only 20% of eligible patients receive therapy and more so only 17% of those treated show relevant objective response.
- the present invention relates to obtaining mutated variants of IL-2, which show greater therapeutic efficacy than native IL-2 in transplantable murine tumor models.
- These muteins are characterized by partial agonists of IL-2 activity and are selected for their especially low ability to stimulate natural regulatory T cells (CD4 + CD25 + FoxP3 + T) in vitro and / or in vivo.
- the therapeutic efficacy of these muteins in vivo proposes a practical solution to improve therapies with IL-2 in malignant tumors.
- these muteins will overcome the limitations observed in therapy with native IL-2 that derive from their proven ability to expand in vivo to natural regulatory T cells.
- the present invention relates to polypeptides that share primary sequence with human IL-2, except that several amino acids have been mutated.
- the mutations introduced substantially reduce the ability of these polypeptides to stimulate in vitro and in vivo regulatory T cells (CD4 + CD25 + FoxP3 +) and confer greater efficacy in the therapy of murine transplantable tumors.
- the present invention further includes the therapeutic applications of these mutated variants, alone or in combination with vaccines, for the therapy of diseases such as cancer or infections where the activity of regulatory T cells (Tregs) is relevant.
- the present invention will allow a substantial improvement of current immunomodulation strategies based on IL-2, both in direct cancer therapy, and in combination with different vaccines.
- substitution of native IL-2 with the mutated variants described in this invention will prevent the expansion of regulatory T cells that markedly reduce the desired therapeutic effects.
- the present invention relates to polypeptides of size between 100 and 500 amino acids, preferably of size 140 whose apparent molecular weight is at least 15 kD. These polypeptides maintain a high sequence identity with native IL-2, more than 90% identity, in an area of their sequence, include 3 to 6 mutations with respect to native IL-2. In these positions, these polypeptides are mutated by introducing amino acid residues different from those that exist in the same position in the native IL-2. The residues that replace the original residues are selected to possess physicochemical properties that are very different from the original amino acid, change of polar residue to apolar, loaded by not loaded, large by small, acidic by basic, among others.
- polypeptides of this invention can be obtained by different routes, among others, by protein synthesis. They could also be obtained by genetic engineering techniques, for example by expressing them in bacteria such as, among others E. coli, in mammalian cells such as, among others, NSO cells. Point mutations at specific positions could also be obtained by directed mutagenesis techniques by polymerase chain reaction.
- polypeptides of the present invention are selected by the following properties:
- Agonist action of native IL-2 This property can be directly assessed in in vitro proliferation assays with IL-2 dependent cell lines such as CTLL2 or Kitt225, or with assays with mixtures of mouse and / or human T lymphocytes. These muteins must possess a specific stimulatory activity that is 5 to 50 times lower than that of native IL-2 in these assays.
- the present invention is particularly related to the muteins detailed in Table 1. These muteins include multiple amino acid substitutions that together confer on them the aforementioned properties.
- Table 1 Muteins constructed that possess the three basic properties described in this patent. Mutations are referred to according to the numbering of human IL-2.
- the present invention also comprises additional modifications of the aforementioned class of muteins of IL-2 and especially those described in Table 1. Either to increase their affinity for specific components of the IL-2 receptor, but without affecting or even improving its agonist character that does not stimulate regulatory T cells; or to improve its pharmacodynamics in vivo: increase the life time or reduce its internalization by T cells. These additional mutations could be obtained by rational design with bioinformatics tools, or by using combinatorial molecular libraries of different nature (phage libraries, libraries of gene expression in yeast or bacteria).
- the present invention relates to a fusion protein comprising any of the immunomodulatory polypeptides described above, coupled to a transporter protein.
- the transporter protein can be Albumin or the Fe region of human immunoglobulins.
- This invention also includes pharmaceutical compositions comprising as active ingredient the IL-2 muteins and their analogs, disclosed by the present invention, as well as their possible therapeutic applications with the aim of enhancing the natural or vaccine-induced immune response in diseases such as cancer or chronic infections where regulatory T cells are particularly relevant.
- the polypeptide of the present invention should be administered to a subject carrying the disease independently or in combination with other polypeptides or with other substances that facilitate or enhance its therapeutic action.
- the route of administration may be any of the routes of administration described by the prior art for parenteral drug administration. It may preferably be administered intravenously, intramuscularly, subcutaneously or intratumorally.
- polypeptides described in the present invention can also be administered as part of a pharmaceutical composition useful in the therapy of cancer and chronic infectious diseases or to enhance the cellular and / or humoral response to vaccines in substitution of native IL2.
- the polypeptides of the present invention can be used in combination with therapeutic vaccines for cancer or with prophylactic vaccines in infectious disease where regulatory T cells are relevant.
- the polypeptide of the present invention must be administered at doses high enough to guarantee a concentration thereof in the lymph node or peripheral site relevant to the disease under study, which is in the range of concentrations for the which mutein shows an immune-stimulatory effect.
- the dose in question should therefore be adjusted for the type of disease and route of administration under study.
- the dose in the case of tumor therapy, the dose must be adjusted to achieve concentrations of the mutein inside the tumor and / or in the loco-regional lymph node that guarantee the stimulation of an antitumor immune response.
- the dose ranges to explore can vary from hundreds of micrograms to hundreds of milligrams per dose.
- the dose of mutein to be used must be less or equivalent in activity (determined using a CTLL2 line test) to that traditionally used for native IL-2.
- the number of administrations to be applied must also adjust to the biodistribution of the mutein in question.
- the aforementioned effective concentrations must be sustained for a time ranging from 2 days to 30 consecutive days.
- the frequency of administrations thereof must be adjusted accordingly.
- the mutein administration schedule may be similar to that applied in traditional therapy.
- Therapeutic action should be understood as the total or partial remission of the symptoms of the disease. In cancer, the decrease in tumor volume or the increase in relapse time will be, among others, the criteria for disease remission.
- polypeptides of the invention are particularly useful in the therapy of tumors such as among other melanomas and renal tumors.
- Figure 1 Obtaining the mutein.
- FIG. 3 Mutein does not induce proliferation of regulatory T cells in vitro.
- a) Flow cytometry graph showing the purity of the population CD3 + CD4 + CD25 + purified from the ganglia of a C57BL6 mouse.
- Treg cells were stimulated in vitro with an anti-CD3 AcM and were given native IL-2 in a concentration of 0.5 ng / mL or mutein in a concentration of 32 ng / mL for 72 hours, the graph shows No. of Live cells recovered after each treatment compared to the control where no cytokine was added. The selected concentrations correspond to the concentration at which each molecule induces the same proliferation of the CTLL2 line.
- Figure 4 Evaluation of the effect of mutein treatment on the proliferation of lymphocyte populations.
- a) Quantification of the relative weights of the spleens of the mice treated with the mutein for five days. The weights of the spleens of the treated mice were statistically higher than those of the control group. The Kruskal-Wallis non-parametric test and the Dunn multiple comparisons test were used.
- FIG. 6 The administration of mutein in combination with the OVA / VSSP vaccine enhances the antitumor effect of this vaccine.
- Mice carrying the EG7 tumor were treated with the OVA / VSSP vaccine alone or in combination with the mutein.
- the graph shows tumor growth, the group treated with the combination of the vaccine and the mutein showed a statistically different tumor size reduction from the control group.
- the muteins were computationally designed, based on bioinformatics techniques, using as a basis the reported structure of human IL-2 in the PDB database (Protein Data Bank) and amino acid sequences of IL-2 in various species that are available in the Swissprot database.
- Several muteins were designed including 3 to 6 mutations (introducing non-conservative amino acid substitutions) in solvents exposed to the solvent and strongly conserved in evolution. These muteins were expressed in E.coli from a genetic construct in the pET28a vector including a sequence of 6 histidines in the terminal amino.
- the muteins were purified by reverse phase (Figure 1) obtained with high purity (> 95%).
- the obtained muteins were selected from their properties in experimental tests in vitro and in vivo to show the 3 basic properties described in the body of this invention.
- Table 1 a set of specific mutations are described that have the desired property of being agonists of IL-2 activity without significantly stimulating regulatory T cells and showing greater therapeutic efficacy than IL- 2 native in the treatment of transplant murine tumors.
- Table 2 refers to other muteins constructed but which did not show the desired properties.
- Figure 2 exemplifies how muteins of those referred to in Table 1 bind to components of the IL-2 receptor on the surface of the CTLL2 cell line ( Figure 2a).
- the constructed muteins bind to CTLL2 cells, of which it is known to possess both high affinity and intermediate affinity receptors for IL-2.
- the binding detected in our assays turns out to be similar to that obtained with native IL-2.
- Figure 2b then illustrates the ability of the muteins given in Table 1 to stimulate the growth of the CTLL2 cell line ( Figure. 2b).
- These muteins turn out to be partial agonists of the activity of IL-2 in this assay. Their specific activity is between 5 and 50 times less than that of native IL-2.
- the muteins described in Table 1 show a very reduced ability to stimulate regulatory T cells in vitro (Figure 3). As seen in this Figure, although native IL-2 is capable of significantly proliferating regulatory T cells (CD4 + CD25 + FoxP3 + T) by stimulating them with an anti-CD3 antibody attached to the bottom of the culture plate. The muteins described in Table 1 at significantly higher concentrations in mass than that of native IL-2 do not stimulate regulatory T cells. It should be noted that the results described above are valid even by increasing the amount of mutein to be used so that that amount capable of showing an activity equivalent to native IL-2 is used in the proliferation assay with the CTLL2 line. The muteins described in Table 1 typically exhibit an ability to stimulate regulatory T cells at least 1000 times less than native IL-2. Example 4. Characterization of the immunostimulatory activity in vivo of the designed muteins.
- FIGS. 4a, b show how the muteins induce a splenomegaly greater than that of native IL2 in naive mice after treatment for five days with two daily intraperitoneal doses of 20 ⁇ g of the mutein.
- This stimulation correlates with a clear increase in effector populations, such as CD8 + T lymphocytes.
- this treatment with muteins does not stimulate the expansion of regulatory T cells (TCD4 + CD25 + FoxP3 +), unlike those observed for native IL2 ( Figures 4c, d).
- Example 5 Measurement of the therapeutic efficacy of muteins in a murine model of transplanted tumors.
- the ability of the designed mutein to enhance the antitumor effect of a vaccine was demonstrated.
- the primary tumor model of the EG7 line was used, which is a modified tumor line to express the OVA antigen. Mice carrying the tumor were immunized with the OVA antigen adjuvant in VSSP alone or in combination with the mutein.
- Figure 6 shows that the decrease in tumor growth was greater in the group of mice treated with the combination of the vaccine and the mutein than in the group treated with the vaccine alone.
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CN201180054156.2A CN103201284B (zh) | 2010-11-12 | 2011-11-10 | 用于癌症和慢性感染的治疗的具有激动剂活性的衍生自il-2的多肽 |
UAA201307450A UA106318C2 (ru) | 2010-11-12 | 2011-11-10 | Производный полипептид il-2 с агонистической активностью для лечения рака и хронических инфекций |
US13/885,021 US9206243B2 (en) | 2010-11-12 | 2011-11-10 | IL-2 derivative polypeptides |
EP11797102.8A EP2639241B1 (en) | 2010-11-12 | 2011-11-10 | Polypeptides derived from il-2 having agonist activity, for the therapy of cancer and chronic infections |
MX2013005250A MX346222B (es) | 2010-11-12 | 2011-11-10 | Polipeptidos derivados de la il-2 con actividad agonista para la terapia del cancer e infecciones cronicas. |
BR112013010127-0A BR112013010127B1 (pt) | 2010-11-12 | 2011-11-10 | Polipeptídeo agonista da interleucina 2, proteína de fusão, composição farmacêutica útil na terapia do câncer e enfermidades infecciosas crônicas, e, uso do polipeptídeo |
AU2011328688A AU2011328688B2 (en) | 2010-11-12 | 2011-11-10 | Polypeptides derived from IL-2 having agonist activity, for the therapy of cancer and chronic infections |
JP2013538062A JP5761831B2 (ja) | 2010-11-12 | 2011-11-10 | 癌及び慢性感染の治療のための作動薬活性を有するil−2由来のポリペプチド |
KR1020137012452A KR101559330B1 (ko) | 2010-11-12 | 2011-11-10 | 암 및 만성 감염 치료를 위한, 효능제 활성을 갖는 인터루킨 2로부터 유도된 폴리펩티드 |
EA201390681A EA026022B1 (ru) | 2010-11-12 | 2011-11-10 | Производные полипептиды il-2 с агонистической активностью для лечения рака |
ES11797102.8T ES2543915T3 (es) | 2010-11-12 | 2011-11-10 | Polipéptidos derivados de la IL-2 con actividad agonista para la terapia del cáncer e infecciones crónicas |
MYPI2013700752A MY171356A (en) | 2010-11-12 | 2011-11-10 | Polypeptides derived from il-2 having agonist activity for the therapy of cancer and chronic infections |
CA2814814A CA2814814C (en) | 2010-11-12 | 2011-11-10 | Polypeptides derived from il-2 having agonist activity, for the therapy of cancer and chronic infections |
TNP2013000151A TN2013000151A1 (en) | 2011-11-10 | 2013-04-04 | Polypeptides derived from il-2 having agonist activity for the therapy of cancer and chronic infections |
CL2013001107A CL2013001107A1 (es) | 2010-11-12 | 2013-04-23 | Polipeptido derivado de la il-2 con actividad agonista; proteina de fusion que lo comprende; composicion farmaceutica que lo comprende; y su uso para tratar cancer y enfermedades infecciosas cronicas. |
IL226221A IL226221B (en) | 2010-11-12 | 2013-05-07 | Polypeptides derived from 2-il have agonistic activity, for the cure of cancer and chronic inflammations |
HK13109794.4A HK1182403A1 (en) | 2010-11-12 | 2013-08-21 | Polypeptides derived from il-2 having agonist activity, for the therapy of cancer and chronic infections il-2 |
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CU2010000216A CU23923B1 (es) | 2010-11-12 | 2010-11-12 | Polipéptidos derivados de la il-2 con actividad agonista |
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