WO1990010449A1 - Diagnosis and treatment of insulin dependent diabetes mellitus - Google Patents
Diagnosis and treatment of insulin dependent diabetes mellitus Download PDFInfo
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- WO1990010449A1 WO1990010449A1 PCT/US1990/001397 US9001397W WO9010449A1 WO 1990010449 A1 WO1990010449 A1 WO 1990010449A1 US 9001397 W US9001397 W US 9001397W WO 9010449 A1 WO9010449 A1 WO 9010449A1
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- G01N2800/00—Detection or diagnosis of diseases
- G01N2800/04—Endocrine or metabolic disorders
- G01N2800/042—Disorders of carbohydrate metabolism, e.g. diabetes, glucose metabolism
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- Y10S435/00—Chemistry: molecular biology and microbiology
- Y10S435/965—Chemistry: molecular biology and microbiology involving idiotype or anti-idiotype antibody
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S436/00—Chemistry: analytical and immunological testing
- Y10S436/811—Test for named disease, body condition or organ function
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S530/00—Chemistry: natural resins or derivatives; peptides or proteins; lignins or reaction products thereof
- Y10S530/868—Chemistry: natural resins or derivatives; peptides or proteins; lignins or reaction products thereof involving autoimmunity, allergy, immediate hypersensitivity, delayed hypersensitivity, immunosuppression, or immunotolerance
Definitions
- the present invention relates to a method for detecting the existence of, a tendency to develop, or the initiation of a process leading to insulin dependent diabetes mellitus (IDDM) , and, more particularly, to such a method which detects the presence of a 65 KD heat shock protein (hsp65) (or a molecule immunologically cross- reactive therewith) or antibodies or T cells reactive with such a protein.
- IDDM insulin dependent diabetes mellitus
- the present invention further relates to a method for the prevention of IDDM or the treatment of IDDM in its incipient stages by administering hsp65 or an immunologically related protein or fragment, or by administering T cells activated by such protein or fragment, such T cells which have been treated to attenuate them or immunogenicity, or fragments of such T cells or treated T cells, in such a manner as to cause immunological tolerance therefor.
- IDDM insulin dependent diabetes mellitus
- IDDM neoplasm originating from BB rats and NOD mice.
- BB rats and NOD mice for example, see Rossini et al., Ann. Rev. Immunol.. 3:289-320, 1985.
- Many of the animals develop autoimmune IDDM spontaneously, and demonstrate many of the features of IDDM in humans.
- Heat shock proteins are a family of pro ⁇ teins produced by cells exposed to elevated temperatures or other stresses.
- the hsp's include proteins of various molecular weights, including 20KD, 65-68KD, 70 KD, 90 KD, 110 KD, and others.
- the heat shock proteins are ubiquitous throughout nature; they are produced by bacteria, yeasts, plants, insects, and higher animals, including humans.
- the hsp protein molecules are highly conserved and show remark ⁇ able homology between all of these diverse creatures. Because of their extreme conservation over evolutionary time, heat shock proteins are thought to perform vital functions. They usually exhibit increased synthesis follow- ing exposure of cells to stressful stimuli including heat, certain metals, drugs, or a ino acid analogues. Nonethe ⁇ less, the special functions of these proteins so far are obscure.
- Hsp65 was found to be involved in adjuvant arthri- tis in rats, cf. van Eden et al., Nature. 331:171-173, 1988.
- Adjuvant arthritis is an autoimmune arthritis triggered by immunizing certain strains of rats to Mvcobacterium tubercu ⁇ losis (MT) organisms. It was found that the disease could be transferred to immunologically naive, irradiated rats by a clone of T-lymphocytes reactive to a 9 amino acid peptide sequence (180-188) of the hsp65 of MT. Thus, adjuvant arthritis appeared to be an autoimmune disease produced by anti-hsp65 T-lymphocytes.
- the autoimmune attack against the joints was attributed to partial sequence homology between the 180-185 hsp65 peptide and a segment of the link protein of the cartilage proteoglycan (cf. Cohen, Scientific American. 256:52-60, 1988) . It was also found that T- lymphocytes from the synovial fluids of patients with rheu ⁇ matoid arthritis responded to the hsp65 of MT (cf. Res et al., Lancet. 11:478-480, 1988). Administration of hsp65 to rats before induction of adjuvant arthritis was found to prevent the later devel ⁇ opment of arthritis. Thus, the presence of an immune response to hsp65 was associated with arthritis in both rats and humans, and administration of hsp65 could lead to resis ⁇ tance to arthritis.
- European patent application 262,710 discloses polypeptides useful for alleviation, treatment, and diagno ⁇ sis of autoimmune arthritis and similar autoimmune diseases.
- European patent application 261,648 discloses the use of activated T cells specific for an autoimmune disease for the treatment of such disease.
- the T cells are prefera ⁇ bly first pressure treated, subjected to a chemical cross- linking agent and/or subjected to a cytoskeletal disrupting agent in order to improve their immunogenicity.
- the entire treated cell or fraction thereof may be used as a vaccine against the autoimmune disease for which the T cell is specific.
- the subject is immunized with a sample of attenuated or avirulent T cells of the particular auto ⁇ immune specificity, or fragments or fractions thereof.
- the subject responds by activating regulatory T cells of at least two types: anti-ergotypic T cells that recognize T cell activation markers and anti-idiotypic T cells that appear to recognize the self-antigen receptors present on the pathogenic endogenous autoimmune T cells.
- T cell vacci ⁇ nation in experimental animals is effective in inducing permanent remission of established disease as well as in preventing disease. Howell et al, Science. 246:668-670, 1989, and Vandenbark et al, Nature.
- T cells or fragments were known for autoimmune diseases in general, the particular antigen specific for IDDM was not previously known and, thus, acti ⁇ vated T cells for vaccination against IDDM were not obtain ⁇ able prior to the present invention.
- IDM insulin dependent diabetes mellitus
- animals express hsp65 molecules, or molecules which are cross-reactive therewith, which find their way into the blood and urine of the animals. They also express antibodies and T cells directed specifically to such molecules.
- hsp65 or molecules which are cross-reactive therewith
- antibodies or T cells specific thereto serve as an assay for the detection of the IDDM process before the destruction of beta cells is completed and the individual is doomed to life-long diabetes.
- the presence or incipience of IDDM in a patient can be diagnosed by testing for the presence of hsp65 (or molecules which are cross-reactive therewith) or antibodies or T cells specific thereto.
- the present invention also relates to means for performing such assays, as well as kits for performing such assays.
- the detection of incipient diabetes then permits a patient to begin measures aimed at terminating the auto ⁇ immune process.
- the administration of hsp65, or an active epitope thereof or another molecule (antigen) which is immunologically cross-reactive therewith is effec ⁇ tive in inducing resistance to the autoimmune process in ⁇ volved in IDDM.
- Administration of T cells specific to such antigens, in attenuated or avirulent form or after having been treated to improve their antigenicity, or fragments or active fractions thereof, will also serve to induce resis ⁇ tance to the autoimmune process involved in IDDM.
- the present invention further relates to means for preventing or treating IDDM. It has been discovered that immunization to hsp65, or the active epitope thereof or another molecule (antigen) which is immunologically cross- reactive therewith, in an appropriate adjuvant can induce IDDM. However, vaccination with such an antigen, without an effective adjuvant, and preferably with a tolerogenic carri ⁇ er, can produce a specific tolerance to the antigen. This effectively creates a resistance to the autoimmune process of IDDM. The same is true with respect to vaccination with T cells specific to such antigens, in attenuated or aviru ⁇ lent form or after having been treated to improve their antigenicity, or fragments or active fractions thereof.
- Figure 1 shows the amounts of hsp65, anti-hsp65, anti-insulin antibody, and anti-idiotypic antibody in the serum of NOD mice that did not develop IDDM.
- Figure 2 is a graph showing that marked increases in hsp65 and anti-hsp65 precede the development of overt
- IDDM in NOD mice that did develop the disease.
- Figure 3 shows the nucleotide and deduced amino acid sequences of the human Pl protein, which is an hHSP65. Numbers on the left refer to the nucleotide sequence rela ⁇ tive to coordinate 1 at the beginning of the putative initi ⁇ ation codon. The amino acid sequence is numbered starting with 1 at the same point. The 5' extension of this reading frame is shown in one-letter code. The position of the internal EcoRI site (nt 712) , which marks the beginning of the ⁇ 22a sequence, is indicated. The polyadenylation signal 15 nt from the A tail at the 3' end is underlined.
- the putative mitochondrial targeting sequence at the N- terminal end and a keratin-like amino acid sequence at the C-terminal end containing repeats of Gly-Gly-Met are boxed. Positively charged amino acids in the leader sequence are identified (+) .
- Figure 4 is a graph showing the degree of sponta ⁇ neous reactivity of NOD/Lt T cells to human hsp65, MT-hsp65 and MT-hsp70 as a function of age.
- Figure 5 is a graph showing the T cell prolitera ⁇ tive response to p277 and p278 as a function of the concen ⁇ tration of peptide.
- Figure 6 is a bar graph showing the proliferation of C7 and C9 T cell clones, which are capable of trans ⁇ ferring acute diabetes to young, prediabetic NOD/Lt mice, in response to p277, MT hsp65 and plasmid control.
- Figure 7 shows the results of immunization against peptides p277 and p278 in resisting induced diabetes.
- the dots show the blood glucose level three weeks after immuni ⁇ zation for each mouse in the test groups.
- EXAMPLE 1 Production of the MT hsp65 Molecule
- the hsp molecule of Mvcobacterium tuberculosis was transfected into E. coli by standard procedures and purified as described by van Eden et al. Nature. 331:171-173, 1988.
- Such genetically engineered E. coli cells will produce substantial quantities of MT hsp65.
- hsp65 of mammali ⁇ an or human origin is also effective when produced by genet- ic engineering or isolation from cells.
- Rabbits of a standard laboratory strain (New Zealand White) were inoculated subcutaneously in the back with 100 micrograms of MT hsp65 produced in accordance with Example 1, in 0.5 ml saline emulsified in 0.5 ml mineral oil (incomplete adjuvant) .
- One month later the rabbits were boosted, with 100 micrograms of MT hsp65 in 1.0 ml saline, and two weeks later the rabbits were bled and the serum collected.
- the rabbits were boosted in a similar manner after two months and bled again.
- the sera antibodies were used to detect hsp65 in the blood and urine of test animals and humans.
- a standard solid phase radioimmunoassay is used to detect the presence of hsp65 molecule.
- Flexible PVC micro- titer plates are coated with 100 ⁇ l test serum or urine for 18 hours at 4°C and washed with phosphate buffered saline (PBS) .
- PBS phosphate buffered saline
- Control rabbit serum or anti-hsp65 serum (produced in accordance with Example 2) is then diluted 1:100 in PBS + 0.1% bovine serum albumin (BSA) , and 50 ⁇ l is added to each well and incubated for 2-3 hours at 37°C.
- the wells are then washed three times in PBS.
- 125 I-goat anti-rabbit Ig, 100,000 cpm/well is added and the wells are maintained for two hours at 37°C.
- Antibodies to hsp65 are detected in a similar fashion except that the antigen bound to the plates is not test serum or urine, but purified MT hsp65 produced in accordance with Example 1, 5 ⁇ m/well.
- the serum to be tested for anti-hsp65 antibodies is diluted 1:50. Urine is used undiluted.
- the serum or urine is added to the wells containing hsp65 and the presence of antibodies binding to hsp65 is detected using radiolabelled goat anti-mouse Ig for mouse specimens and goat anti-human Ig for human specimens. The remainder of the assay is done as described in Example 3. Positive results are defined as cpm greater than 2 S.D. above the mean cpm obtained using control sera from healthy mice, rats, or humans.
- NOD mice Fourteen female NOD mice were bled beginning on day 21 of life at regular intervals for about 200 days and scored for the development of IDDM. The sera were tested for hsp65, anti-hsp65, anti-insulin antibodies, and anti- idiotypic antibodies to DM idiotype. The hsp65 was tested using the assay of Example 3.
- Anti-insulin antibodies are idiotypic antibodies which recognize the receptor binding sites of insulin, sometimes designated DM-idiotypic anti- bodies.
- Anti-idiotypic antibodies are antibodies against DM-idiotypic antibodies, sometimes designated anti-DM- idiotypic antibodies.
- U.S. application Serial No. 07/295,401 owned by the present assignee, it is disclosed that the presence of DM-idiotypic antibodies or anti-DM- idiotypic antibodies in the serum or urine of a patient is a positive indication of incipient or active IDDM. Such antibodies are not present in the serum or urine of healthy patients.
- the procedures used to assay for the presence of anti-insulin antibodies and anti-idiotypic antibodies are as set forth in said Serial No. 07/295,401, the entire contents of which are hereby incorporated herein by reference.
- Table 1 shows the cumulative data obtained from the fourteen individual mice.
- V t -Ld* .!_____'____'.-._. W11-3C --
- the mean age of IDDM onset was 150.5 days in the mice developing disease.
- the mean hsp65 serum test was positive 72.5 days before IDDM and the mean anti-hsp65 test was positive 44 days before IDDM.
- the anti-insulin and anti-idiotypic antibody tests were positive only 29 and 19 days before IDDM on the average. The tests were not signif ⁇ icantly positive in mice escaping IDDM. Therefore, hsp65 and anti-hsp65 are relatively early indicators of eventual development of IDDM.
- Urine was tested for the presence of hsp65 in the NOD mice at about 100 days of age. Table 2 shows that the urine of the mice tested positive in those mice that did develop IDDM.
- IDDM did not manifest hsp65 or anti-hsp65 in the serum or urine. Rats that did develop IDDM (on days 90-100) were positive when tested 10 to 20 days before the outbreak of IDDM.
- the assays were conducted as disclosed in Examples 3 and 4. Table 3
- hHSP65 or a molecule cross-reactive therewith
- anti-hHSP65 at some time early before the onset of IDDM.
- Assays for hHSP65 or anti-hHSP65 are there ⁇ fore useful in screening populations for those that may be in the process of developing IDDM.
- the hHSP65 appearing in the blood or urine of individuals developing IDDM could come from several sources.
- the sources may be hHSP65 expressed normally by healthy beta cells and released when the beta cells undergo viral infec ⁇ tion or toxic insult as a prelude to immunological destruc- tion, or it may be released from the beta cells by the stress of immunological destruction.
- the hHSP65 might also be expressed by the cells of the immune system during their prolonged activity against the beta cells. Although the sources of hHSP65 in the system are not at this time conclu- sively known, it has been determined that once the hHSP65 is released, the individual is stimulated to make antibodies to the hHSP65 molecule.
- hsp65 is a defined protein whose amino acid sequence is known (Thole et al, Infection and Immunity. 55:1466-1475, 1987). Similarly, the amino acid sequence of hHSP65 is shown and set forth in Figure 3.
- C57BL/Ksj mice develop IDDM approximately two weeks after receiving five consecutive daily inoculations of the beta cell toxin streptozotocin at doses of 40 mg/kg per day.
- mice groups of ten male C57BL/Ksj mice, aged 3 months, were or were not sub- jected to low-dose streptozotocin injections (40 mg/kg daily x 5) to induce IDDM (appearing at day 14) and were ban ⁇ gated for the development of IDDM, as measured by blood glucose higher than 250 mg%, and for the appearance of hsp65 and anti-hsp65 antibodies in the blood. As shown in Table 5, the hsp65 appeared by day 10 (before clinical manifesta ⁇ tion of IDDM) , followed by anti-hsp65.
- EXAMPLE 7 Multiple Murine Molecules are Cross-reactive with hsp65 of Mycobacteria
- TB78 a monoclonal antibody designated as TB78.
- This antibody was developed and supplied by Dr. J. Ivanyi, of the MRC Tuberculosis Unit, Hammersmith Hospital, London. This antibody is spe ⁇ cific for the hsp65 molecule of M_ t _ tuberculosis.
- Hsp65 was prepared as described in Example 1. Rat embryonic fibroblasts were cultured using standard proce ⁇ dures. To induce heat shock proteins, cultures of fibro ⁇ blasts were incubated at 42.5°C for two hours and then for 1/2 hour at 37 ⁇ C.
- the heat shocked fibroblasts and control fibroblasts were cultured at 37 ⁇ C, and about 5 x 10 6 cells each were then lysed using a lysis buffer composed of 0.1% SDS and 1% Triton together with protease inhibitors.
- the protein concentration was adjusted by Bradford determination to 2 mg/ml.
- the material was run in 10% polyacrylamide gel, 100 micrograms per lane, for standard electrophoresis, under reducing conditions (2% 2-mercaptoethanol) .
- Mouse sera from healthy control mice and from NOD mice developing IDDM were diluted to a concentration of 2 mg/ml. Each of these serum preparations was separated by polyacrylamide gel electropho ⁇ resis as above. The separated proteins were then trans ⁇ ferred overnight to nitrocellulose paper by standard procedures.
- the papers were then incubated for one hour at room temperature with 1% hemoglobin (for blocking) and then with either normal rabbit serum or anti-hsp65 at a dilution of 1:100, or with TB 78 or a control monoclonal antibody at dilutions of 1:100 for two hours at room temperature. Binding of the antibodies to any of the separated bands was detected by incubation with 125 1-radiolabelled goat anti- rabbit Ig or goat anti-mouse Ig, washed and developed by autoradiography. Molecular weight standards were included. It was found that several bands were detected by the anti-hsp65 antibodies. Mycobacterial hsp65 was detected by both the rabbit antiserum and monoclonal TB68.
- the antibodies also recognized a 65 KD band in the murine fibro ⁇ blasts that was expressed in an augmented fashion after heat shock. In the heated fibroblast lysates there were also positive bands at 30 KD and 47 KD. An additional band at about 25 KD was detected in the sera from the NOD mice developing IDDM. Therefore, mammalian molecules of 65 KD, 47 KD, 30 KD and 25 KD are cross-reactive with mycobacterial hsp65.
- HSP65 is Expressed in the Islets of the Pancreas Because the development of IDDM is accompanied by augmented expression of hsp65 in the blood and urine, it was thought that the beta cells in the islets might be the source of the hsp65. In order to test this theory, rabbit anti-hsp65 was tested to see if it would bind to islet cells.
- Bovine serum albumin (BSA) emulsified in oil was used as a control. The results are shown in Table 6. It was found that hsp65 in oil, but not in PBS, induced IDDM. Therefore, an immune response to hsp65 can trigger IDDM, probably because the beta cells express an antigen cross- reactive with hsp65.
- mice that had been injected with hsp65 in PBS were tested to determine if these mice had acquired resistance to IDDM induced by hsp65 in oil.
- C57BL/Ksj mice were challenged with hsp65 in oil, and none of these mice developed IDDM as measured by blood glucose greater than 250 mg% three weeks later.
- 8 of 10 con ⁇ trol mice that had not received hsp65 in PBS developed IDDM after receiving hsp65 in oil.
- hsp65 was given to 30 day old female NOD mice in PBS, intraperitoneally, 15 days before challenge with 50 ⁇ g hsp65 in oil to induce IDDM.
- the presence of IDDM was measured by blood glucose concen ⁇ tration of greater than 200 mg% 35 days after challenge.
- the presence of IDDM was again measured when the mice were 5 months of age. At this age it is known that 50% of all untreated female NOD mice have detectable IDDM.
- hsp65 can be used to induce tolerance to a diabetogenic immune process. Not only is this tolerance effective with respect to an immunogenic attack of hsp65, but it remains effective as a treatment against the natural development of spontaneous IDDM in NOD mice.
- EXAMPLE 11 Treatment of Incipient IDDM Using hHSP65
- hsp65 can be used to induce resistance to the autoimmune process of IDDM. This appears to be caused by a mechanism of immunological toler ⁇ ance to the hHSP65 of the beta cells through exposure to exogenous hsp65.
- hsp65 can be useful in treating IDDM before the disease becomes clinically evident and the auto- immune process can be arrested before significant, permanent damage is done.
- Table 8 The results of the experiment summarized in Table 8 to the effect that the natural development of spon ⁇ taneous IDDM in NOD mice can be arrested is significant evidence that hsp65, and particularly hHSP65, can be used therapeutically.
- the autoimmune process begins very early in NOD mice. At the age of one month insulitis can already be detected. IDDM becomes clinically evident at 5 months in 50% of the female mice of this strain. Administration of hsp65 in 30 day old mice stops this natural development. This establishes that treatment can be effective even after autoimmunity to the islets has already begun.
- EXAMPLE 12 T cell Response to hHSP65 is Associated with Developing Diabetes
- the human hsp65 gene shown in Fig. 3 was cloned for expression in a conventional manner and substantially pure recombinant human hsp65 was obtained therefrom.
- the present experiment establishes that mice spontaneously destroying their beta cells manifest T cell reactivity to recombinant human hsp65.
- Spleen cell suspensions obtained from groups of five to seven female NOD/Lt mice of various ages were assayed for T cell proliferation, essentially as described for T cell responses to thyroglobulin (Maron, R. et al., J. Immunol. , 131, 2316- 2322 (1983)).
- the cells at 1 x 10 6 cells per ml were incubated in triplicate for 72 hours in 0.2 ml of culture medium in microtiter wells in the presence or absence of the following antigens at 5 ⁇ g/ml: human hsp65, MT hsp65, or MT hsp70.
- Proliferation was measured by the incorporation of [ 3 H] thymidine into DNA during the final 12 hours of incubation.
- the results are shown as the ⁇ cpm: the mean cpm of the wells containing test antigen minus the mean cpm of the control wells cultured without added antigen ⁇ the standard error (SE) .
- SE standard error
- the control cpm's varied from 9,000 to 10,500.
- the onset of IDDM in about 50% of the mice was between 4 and 5 months of age, as marked by "IDDM" in Fig. 4.
- T cell response to human hsp65 appeared to be associated with the increase in the beta cell damage preceding overt IDDM.
- the fall in T cell reactivity with the outbreak of IDDM can be explained by decreased immune stimulation as the beta cells and their antigens are lost.
- EXAMPLE 13 T Cells Responding to Human hsp65 Cause
- Suspensions of spleen cells were obtained from groups of five 3.5 month old female mice of the strains NOD/Lt, C57BL/6 or C57BL/KS.
- NOD/Lt mice Group 2 had been primed 9 days earlier by intraperitoneal immunization with 50 ⁇ g/ml of MT hsp65 in oil.
- Some of the spleen cells (Groups 4, 6 and 8) were activated by incubation for 48 hours with 1.25 ⁇ g/ml of Con A. The post- Con A cells were then transferred into growth medium that lacked Con A for an additional 5 days of culture.
- the spleen cells were tested for their proliferative responses to recombinant human hsp65, recombinant MT hsp65 or to control E. coli antigen a week after activation as described in Example 12.
- Control E. coli were transfected with the pEX2 plasmid that did not contain the hsp65 genes.
- the antigens were used at a concentration of 5 ⁇ g.
- Proliferative responses done in triplicate, are shown as the stimulation index (SI): ratio of cpm of 3 H-thymidine incorporated in the spleen cells incubated with test antigen to the cpm of 3 H-thymidine incorporated in control cultures without added antigen.
- SI stimulation index
- the cpm of control cultures were 5000-7000 and the standard deviations from the mean cpm were always less than 10% of the mean.
- the ability of the cells to produce diabetes was tested by activating some of them by culture with Con A for 48 hours.
- Groups of prediabetic, one month old female recipient mice were inoculated intraperitoneally with 25 x 10 6 naive spleen cells or with Con A activated spleen cells from MT hsp65 primed or naive mice.
- the recipient mice were scored for the development of acute diabetes 21 days later manifested by hyperglycemia (blood glucose > 200 mg/dl) and histologic evidence of insulitis. Blood glucose was measured by removing blood from the tail vein of individual mice at about 9 a.m.
- glucose was measured using a Diascan Glucose Meter and test strips (Behringwerke, West Germany) . Insulitis was determined by histological evidence (hematoxylineosin and light green staining done at the Histology Laboratory of The Weizmann Institute) . Grading of insulitis was done by an individual blinded to the identity of the test slides.
- Human hsp65 is not itself a mitogen; adult mice of strains that do not spontaneously develop IDDM, such as C57BL/6, (Groups 5 and 6) or C57BL/KS (Groups 7 and 8) , do not manifest T cell reactivity following Con A stimulation.
- Table 9 illustrates that activation of the anti-human hsp65 T cell populations in vitro with Con A enabled the T cells to transfer acute diabetes to 1 month old, pre- diabetic NOD/Lt mice (Groups 2 and 4) .
- T cell lines were obtained by repeatedly stimulating the spleen cells with MT hsp65 (5 ⁇ g/ml) as described in Maron (supra) . Clones were isolated by limiting dilution of the line cells. The T cell clones were tested for their ability to transfer acute diabetes essentially as described with respect to Table 9, except that 5 x 10 6 Con A activated cells were transferred intraperitoneally. The proliferative responses of the clones to the antigens were measured as the SI, as described for Table 9. The cpm of control cultures were 4,500-6,500 cpm and the standard deviations from the mean cpm were always less than 10%.
- mice Groups of 5-7 prediabetic, two month old female NOD/Lt mice were primed or not by intraperitoneal immunization with 50 ⁇ g of antigen in oil. Spleen cells of the mice were or were not activated by incubation with antigens (5 ⁇ g/ml) or Con A (1.25 ⁇ g/ml) as described with respect to Table 9 in Example 13. The cells were then transferred (25xl0 6 ) intraperitoneally into groups of 1 month old, prediabetic mice. The mice were examined for acute diabetes (hyperglycemia; blood glucose>200 mg/dl) 3 weeks later in the manner described in Example 13. Spontaneous IDDM was assayed at 8 months of age by hyperglycemia and insulitis. The results of this experiment are shown in Table 11. The differences from the control (group 1) were significant *p ⁇ 0.01 as indicated. The numbers represent the cumulative results of 2-3 experiments.
- mice were not hyperglycemic at 7 weeks of age and spontaneous IDDM was seen in 81% at 8 months of age.
- acute diabetes blood glucose above 200 mg/dl
- spleen cells of pre-diabetic mice provided that the spleen cells had been activated in vitro by MT hsp65 (Group 2) or by Con A (Group 3) .
- Spleen cells obtained from mice that had been primed in vivo with MT hsp65, BSA or MT hsp70 were administered after activation with the respective antigen in vitro.
- Acute diabetes was induced by the anti-MT hsp65 cells (Group 6) but not by the anti-BSA or anti-MT hsp70 cells (Groups 4 and 5) .
- proliferative assays of the BSA or the MT hsp70 reactive cells detected no reactivity to MT hsp65 or to human hsp65 (not shown) .
- mice were injected with virulent clones 27, C7 or C9 and all became acutely diabetic within 1-2 weeks. They all recovered spontaneously from hyperglycemia within 2 weeks, and only 2 of the 31 developed spontaneous IDDM at the age of 8 months. In contrast, 13 mice injected with avirulent clone 21 did not develop acute diabetes, and 6 of these mice became spontaneously diabetic by the age of 6 months (P ⁇ 0.01). Thus, diabetes produced by adoptive transfer of anti-human hsp65 T cells is transient.
- mice not only did the mice recover from acute diabetes, they acquired resistance to the development of late spontaneous IDDM. Hence, rather than accelerating the onset, or aggregating the severity of the natural IDDM, exposure of pre-diabetic mice to virulent T cells actually led to acquisition of resistance to the diabetic process.
- EXAMPLE 15 Attenuated T Cells Vaccinate against Autoimmunity to Hsp65 and Abort IDDM
- T cell vaccines were constructed from the spleen cells of 3 month old prediabetic NOD/Lt mice by activating the cells by incubation with Con A or with MT hsp65 as described with respect to Table 8 in Example 13, and then attenuating the activated cells with gamma irradiation
- mice Groups of 15 or 25, five week old prediabetic NOD/Lt female mice were then left unvaccinated or were vaccinated by intraperitoneal inoculation with 10 7 treated spleen cells. At the age of 6 months, 5 mice of each group were studied for the proliferative responses of their splenic T cells to human hsp65 shown as the stimulation index (SI) . The control cpm without added antigen were 2,465 ⁇ 235 and 2,246 ⁇ 185 for unvaccinated and vaccinated mice respectively. The remaining mice were bled for determination of antibodies to human hsp65 in a standard solid phase radioimmunoassay (Schechter et al, J. Biol.
- the microtiter plates were coated by incubation (50 ⁇ g/ml) , with hsp65 (for anti-hsps65) , insulin (for anti-insulin) or guinea pig anti-insulin positive for the DM idiotype (for anti-idiotypic antibody) .
- the presence of antibodies to these antigens was detected by incubating the coated wells with test mouse sera (diluted 1:50) and developing the test with 125 1-labelled goat anti-mouse Ig (Amersham, U.K.; 10 5 cpm per well) .
- hsp65 antigen or an antigen cross-reactive therewith
- the wells were incubated with 1.5 ⁇ l of test serum diluted 1:5 and then overlayed with rabbit anti-hsp65 Ig (diluted 1:100). Binding was measured using 125 1-labelled goat anti-rabbit Ig (Amersham) .
- the relative titer signifies the cpm of the binding to human hsp65 of serum diluted 1:100.
- the mean cpm of serum anti-human hsp65 antibody obtained from non-diabetic 1 month old NOD/Lt mice was 1,450 ⁇ 194 cpm.
- mice Sera of the mice were assayed for the presence of hsp65 or cross-reactive antigen using a solid phase radioimmunoassay as described above. The results are shown in Table 12. The vaccinated mice differed significantly from the non-vaccinated control mice by *p ⁇ 0.01.
- T Cell Vaccination Controls T Cell and Antibody Reactivity to Human hsp65, Reduces Serum hsp65 Cross-Reactive Antigen and Aborts IDDM
- the vaccinated state was marked by a decrease in the immunological signs of the IDDM process: anti-human hsp65 T cells and antibodies. At the same time, there was a decrease in the amount of hsp65 or serum antigen cross- reactive with hsp65, explainable by the cessation of insulitis.
- EXAMPLE 16 T Cell Vaccination Produces Resistance to
- Example 9 it was shown that acute diabetes marked by insulitis and hyperglycemia could be induced in pre-diabetic NOD/Lt mice by immunizing them with MT hsp65 in oil. It was also noted that this form of acute diabetes was transient and actually led to resistance to late, spontaneous IDDM. This experiment investigates the effects of immunization to human hsp65 and the influence of T cell vaccination on acute, induced diabetes. Groups of 4 week old female NOD/Lt mice were or were not vaccinated with 10 7 Con A activated, glutaraldehyde treated spleen cells as described with respect to Table 12 in Example 15.
- mice Two weeks later the mice were challenged with MT hsp65 or human hsp65 (50 ⁇ g in oil) to induce acute diabetes. The mice were then investigated for the development of spontaneous IDDM at the age of 8 months by measuring hyperglycemia and insulitis as described in Example 13. The results are shown in Table 13. Significant differences were *p ⁇ 0.01. TABLE 13
- mice responded to human hsp65 or to MT hsp65 and developed acute, transient diabetes. This was followed by resistance to spontaneous IDDM.
- the T cell treated mice in contrast, were resistant to antigen-induced acute diabetes. They were also protected against spontaneous IDDM.
- T cell vaccination effectively produces resistance both to acute diabetes induced by artificial immunization and to late, spontaneous IDDM.
- the key epitope on the human hsp65molecule was an amino acid sequence which shows partial, but not perfect, homology with the MT hsp65 sequence. As the latter works less well, the sequence of the corresponding epitope is presumably slightly different.
- a series of peptides beginning at the carboxy terminus of the human hsp65 sequence were synthesized, choosing sequences that showed slight differences between the mycobacterial and human sequences.
- One such peptide has amino acid sequence 437-460 of the human hsp65 molecule shown in Fig.
- Control peptide p278 overlaps the carboxy end of p277 by 3 amino acids and has the following sequence: H-
- EXAMPLE 18 Immune Response to p277 in Diagnosis of
- Figure 6 demonstrates that the C7 and C9 T cell clones, capable of transferring acute diabetes to young, prediabetic NOD/Lt mice (see Table 10, above) , respond to p277.
- the clones are seen to respond to p277 as well as to the whole mycobacterial hsp65, but not to a control preparation of the plasmid not containing the hsp65 gene.
- the p277 peptide contains a pathogenic epitope because pathogenic T cells recognize it.
- the p277 epitope is also present in the mycobacterial hsp65 molecule because C7 and C9 also respond to that molecule.
- the mycobacterial hsp65 sequence which is homologous to the p277 sequence is immunologically functional.
- the mycobacterial sequence follows, with the substitution from the p277 human sequence underlined: H- Val-Ala-Gly-Gly-Gly-Val-Thr-Leu-Leu-Gln-Ala-Ala-Pro-Thr-Leu- Asp-Glu-Leu-Lys- — -Leu-Glu-Gly-Asp-OH. It can be seen that 13 of the 24 amino acids are substituted. Therefore, we can conclude that the immunological properties of the p277 peptide can tolerate about 60% changes in the sequence. Even if the minimal epitope were to be 10 amino acids rather than 24, there is no 10 amino acid sequence of p277 that does not differ by at least 4 to 6 amino acids from the mycobacterial sequence.
- EXAMPLE 20 Peptide p277 Can be Used as Treatment against Diabetes
- Example 10 It was demonstrated in Example 10 that the whole hsp65 molecule in non-immunogenic form can induce resistance in NOD/Lt mice to acute diabetes induced by immunization to immunogenic hsp65 in adjuvant.
- Figure 7 shows that peptide p277, but not p278, could also be used to obtain resistance to induced diabetes. Groups of 7 five week old pre-diabetic
- NOD/Lt female mice were treated with 50 ⁇ g of p277 or p278 in incomplete Freund's adjuvant. Two weeks later, the mice were immunized with 50 ⁇ g of immunogenic hsp65 in incomplete Freund's adjuvant to induce acute diabetes. Three weeks later, blood glucose was measured. It can be seen that none of the mice treated with p277 became hyperglyce ic (blood glucose of 200 mg/dl or greater) . In contrast, 5 of the 7 mice treated with peptide p278 became diabetic.
- the treatment with p277 also prevented the development of spontaneous diabetes in all 7 of these mice, while 80% of control mice that had been treated with a variety of antigens, such as bovine serum albumin or hsp70, went on to develop diabetes by 7 months of age. Thus, treatment with p277 led to resistance to both induced and spontaneous diabetes. Hence, a specific peptide can produce the therapeutic effect seen with the whole hsp65 molecule administered in non-immunogenic form.
- human and NOD diabetogenic T cells both should recognize the same peptide sequence presented by the MHC class II molecule lacking aspartic acid at position 57 of the DQ ⁇ chain. If humans and NOD mice developing diabetes see a similar peptide antigen, such as p277, then such peptide can be used in humans as well as in NOD mice for diagnosis and treatment of IDDM.
- the particular protein produced by the human body during development of IDDM which serves as a diagnostic marker in accordance with the present invention for the incipient outbreak of IDDM, is the human heat shock protein having a size of about 65 KD (or an antigen cross-reactive therewith) .
- the nucleotide and deduced amino acid sequence of the 65 KD human heat shock protein are set forth in Figure 3.
- This protein will hereinafter be referred to as hHSP65.
- Other proteins may also be produced in vivo which cross-react with the same antibodies which bind the 65 KD protein. For example, in mice and rats, 47 KD, 30 KD and 25 KD molecules were found which also cross-react with a monoclonal antibody specific to the hsp65 molecule of M.
- tuberculosis A 47 KD molecule has also been discovered in rat fibroblasts which is cross-reactive with such an antibody. In view of the cross-species preservation of heat shock protein, it is fully expected that these will also be present in humans. Furthermore, the protein released into the blood and urine during development of IDDM may be a molecule other than hHSP65 but which is cross-reactive therewith. It may be a surface protein found on beta cells or even a fragment of a protein which retains an epitope which is present on hHSP65.
- the molecule which serves as the diagnostic marker for the presence or incipience of IDDM, the presence of which in the blood or urine is being assayed in accordance with the present invention is one which immunologically reacts with polyclonal antibodies raised against hHSP65, and, preferably, with monoclonal or polyclonal antibodies raised against the p277 sequence of hHSP65.
- hHSP65 is intended to comprehend not only the 65 KD human heat shock protein, but also any other related molecule found in the human serum which cross-reacts with polyclonal antibodies raised against a 65 KD heat shock protein of any species.
- This definition is specifically intended to include, although it is not limited to, the 65 KD, 30 KD, 25 KD and 47 KD proteins which have already been discovered and are discussed herein.
- the presence of the diagnostic marker disclosed herein can be detected by polyclonal or monoclonal antibodies specifically raised against the heat shock protein of any organism.
- the heat shock protein of J . tuberculosis (MT) can be readily produced in high quantity by genetic engineering techniques. This protein can be used to raise antibodies in rabbits or mice.
- the polyclonal rabbit anti-MT-hsp65 antibodies can be used in accordance with the present invention to assay for the presence of hHSP65.
- monoclonal antibodies obtained from the spleens of mice immunized against MT hsp65 can be selected which react with MT hsp65. Such monoclonal antibodies will also cross-react with hHSP65.
- Preferred monoclonal antibodies are those raised against the p277 protein as this protein has been shown to contain a pathogenically active epitope.
- any specific monoclonal antibodies used in the examples of the present specification are for the purpose of exemplification only. There is no reason to believe that any one such monoclonal antibody specifically raised for its property of specifically reacting with a given antigen, would be better than any other for the purpose of the present invention.
- the hHSP65 protein or a molecule cross-reactive therewith
- antibodies against hHSP65 can also be used as such.
- Antibodies which spontaneously form when hHSP65 or related protein is released in the human patient can be assayed.
- a positive assay for the presence of such antibodies will serve as an indication of impending IDDM to the same extent as an assay for the hHSP65 or related proteins themselves will serve this purpose.
- the anti-hHSP65 antibodies may be assayed for by looking for reaction with any hsp65 protein.
- the MT hsp65 protein will cross-react with anti-hHSP65 antibodies.
- the preferred protein for use in assaying for the presence of anti-hHSP65 antibodies is the hHSP65 protein, and, more preferably, the p277 sequence thereof.
- those of ordinary skill in the art can readily empirically determine, without undue experimentation, whether any given protein or protein fragment will cross-react with anti-hHSP65 antibodies. Simple in vitro tests can be used to determine if any such protein or other molecule will immunoreact with anti-hHSP65 antibodies. If it does, then it can be used in the method of the present invention and it is intended to be comprehended by the present invention.
- p277 sequence has been shown to correspond to a pathogenic epitope in NOD/Lt mice in the experiments detailed above, in another strain of mouse, C57BL/6, in which diabetes can be induced by human hsp65 and whose T cells respond to human hsp65, the T cells do not respond to p277.
- this is not the only pathogenic epitope on hHSP65.
- the diagnostic marker protein found in the blood and urine of pre- diabetic human patients has been characterized as having a molecular weight of about 62 KD. Accordingly, it would be expected that the particular epitope (human leukocyte antigen, HLA) presented by the major histocompatibility complex (MHC) may differ from individual to individual.
- HLA human leukocyte antigen
- MHC major histocompatibility complex
- p277 sequence is presently preferred, those of ordinary skill in this art will understand that other antigenic sequences in the hHSP65 protein will also be found to have the same or related effect as p277.
- the present invention is intended to cover all such sequences.
- T cells which are specific to such proteins. Indeed, it appears that the appearance of such specific T cells may preceed the appearance of antibodies. It is the T cells which actually attack the beta cells, rather than the antibodies.
- Those of ordinary skill in the art will be aware of many assays for T cell activity against a particular antigen. For example, peripheral lymphocytes can be obtained from a test subject, subjected to hHSP65 or a cross-reactive antigen, and any of various known effects which occur upon activation can be measured, such as proliferation, cytokine or lymphokine production, enzyme production, calcium flux, etc.
- hsp65 is known to be associated with adjuvant arthritis in rats and with rheumatoid arthritis in humans. There would be no uncertainty regarding the assay of hsp65 or anti-hsp65 in discriminating between persons developing IDDM and those suffering from arthritis because, unlike the IDDM process, the process of arthritis is manifested clearly by blatant signs and symptoms of arthritis. Hence, detection of hsp65 or anti- hsp65 without signs or symptoms of arthritis would serve to call attention to the possibility of subclinical beta cell destruction and incipient IDDM. Additional tests such as antibodies to beta cells could then be used to confirm a diagnosis of autoimmunity to beta cells.
- SLE systemic lupus erythematosus
- Antibodies against hsp65 or related protein can be used for the diagnosis of IDDM in which hsp65 or another immunologically cross-reactive molecule is injected subcutaneously into a patient, and the occurrence of a detectable skin reaction is observed.
- hsp65 or related molecule may be contacted with a patient's blood or blood component, and the occurrence of any immunological reaction with anti-hHSP65, i.e., any antibody which cross- reacts with hsp65, present in the patient's blood, detected by any known immunological method.
- Such well known immunological methods include radioimmunoassay, fluorescent immunoassay, ELISA, chemiluminescent assay, and the like.
- the skin reaction at the site of the injection is measured after a sufficient time period, for example, 24 to 72 hours after administration. Swelling and/or redness is due to a delayed hypersensitivity-like reaction.
- hsp65 For the in vitro serological tests, serum of a patient is contacted with hsp65 or related molecule. If the serum contains antibodies against antigenic determinants of hsp65, an immunological reaction will occur which may be detected and assayed by means of standard techniques such as ELISA, agglutination, etc. Any well known immunoassay technique can be used to detect the presence of hHSP65, anti-hHSP65 or hHSP65 specific T cells.
- any conventional immunoassay technique can be used, such as enzyme-linked immunosorbent assay (ELISA) , heterogeneous immunoassay (both competitive and non-competitive) using labels other than enzymes and radioisotopes, homogeneous immunoassays based on fluorescence quenching and enzyme channeling, immune precipitation (including radial immune diffusion) and agglutination assays based on visual semiquantitative detection or quantitative turbidimetric detection.
- ELISA enzyme-linked immunosorbent assay
- heterogeneous immunoassay both competitive and non-competitive
- homogeneous immunoassays based on fluorescence quenching and enzyme channeling
- immune precipitation including radial immune diffusion
- agglutination assays based on visual semiquantitative detection or quantitative turbidimetric detection.
- the assay may use any conventional solid phase or sandwich assay techniques.
- kits may be prepared for carrying out any of the various assays used for accomplishing the present invention.
- Each such kit would include all of the materials necessary to conduct a single assay or a fixed number of assays.
- a kit for determining the presence of anti-hHSP65 antibodies may contain solid-phase immobilized hsp65 and a tagged antibody capable of recognizing the non-variable region of the anti-hHSP65 antibody to be detected, such as tagged anti-human Fab.
- a kit for determining the presence of hHSP65 may contain solid-phase immobilized antibody which reacts or cross- reacts with hHSP65, and a tagged antibody capable of reacting with a different epitope of hHSP65 than that recognized by the immobilized antibody.
- the kit should also contain reagent capable of precipitating immune complexes of hsp65 and anti-hHSP65 antibodies and may contain directions for using the kit and containers to hold the materials of the kit.
- Any conventional tag or label may be used, such as a radioisotope, an enzyme, a chromophore or a fluorophore.
- a typical radioisotope is iodine-125 or sulfur-35.
- Typical enzymes for this purpose include horseradish peroxidase, ⁇ - galactosidase and alkaline phosphatase.
- Diagnostic compositions according to the present invention are prepared by combining hsp65 with suitable adjuvants and auxiliary components.
- islet cells and heat shocked fibroblasts release molecules cross- reactive with mycobacterial hsp65.
- immunization of mycobacterial hsp65 can cause IDDM indicates that an immune attack against antigens cross-reactive with mycobacterial hsp65 damages beta cells.
- Such an immune response could occur as a primary event following accidental immunization to a cross-reactive hHSP65 or an invading microbe.
- the release of hHSP65 or related protein could also arise subsequent to beta cell damage inflicted by a virus or toxins.
- anti-hHSP65 antibodies are a reliable sign of impending IDDM because an immune response to hHSP65 can itself cause IDDM.
- T cell vaccination using attentuated autoimmune T cells appears to be a way of activating regulatory mechanisms without paying the price of acute disease.
- Anti- idiotypic and anti-ergotypic T cells of the kinds demonstrated in T cell vaccination against EAE quell the autoimmune anti-hsp65 T cells and so prevent the clinical emergence of IDDM.
- hsp65 low molecular weight molecules (25, 30 or 47 KD) cross-reactive with hsp65, or fragments, modified peptide sequences, synthetic peptides or even organic molecules based on the fusion-protein blueprint and designed so as to satisfy the physico-chemical requirements of hsp65, can be used to prevent or treat the IDDM process, as long as they are cross-reactive with polyclonal antibodies raised against hHSP65 or they raise antibodies which are cross-reactive with hHSP65.
- the p277 sequence of hHSP65 is a preferred substance for this purpose.
- Attentuated T cells specific to hHSP65 or related antigen can be used to induce such immunity or suppress such immune response, as can fragments or active portions thereof.
- the hsp65 molecule has been shown to be useful as a therapeutic composition which is effective against continued development of IDDM by creating tolerance to hHSP65 and thus stopping the self-destruction of the beta cells.
- the active principle for use in such treatment of incipient IDDM can be any material which is immunologically cross-reactive with hHSP65, i.e., it either cross-reacts with polyclonal antibodies raised against hHSP65 or it raises antibodies which cross-react with hHSP65.
- Such material be it a peptide, protein, carbohydrate or other substance, if administered in a tolerogenic manner, will serve to induce tolerance to hHSP65 by virtue of this cross- reactivity.
- the substance is an hsp65 protein, it can come from any species.
- the substance need not be an entire protein in order to be immunologically cross-reactive with hHSP65. It could be a fragment of the protein which retains the antigenic activity of the protein itself, such as the p277 sequence. Routine experimentation will determine whether any given substance is cross-reactive with hHSP65.
- the substance cross-reacts with a polyclonal antibody raised against hHSP65 or if it raises antibodies which are cross-reactive with hHSP65, then it is intended to be within the scope of the present invention insofar as therapy of incipient IDDM is concerned. Additional verification of the capability of such a substance to be operable in human therapy would be by means of testing for induction of tolerance in the mouse test described in Example 10. Such experimentation would be routine and would not involve undue experimentation.
- the preferred compound for treatment of human IDDM is hHSP65.
- the amino acid sequence of a human heat shock protein is set forth in Fig. 3. This protein may be used for this purpose.
- the p277 sequence thereof is another particularly preferred molecule for this purpose.
- salts, functional derivatives, precursors and active fractions thereof having the ability to immunologically cross-react with hHSP65 may also be used. Sequences such as those of Fig. 3 or those disclosed in Van Eden et al, supra, in which one or more amino acids are deleted, added, or replaced with other amino acids, are intended to be encompassed by the present invention as long as they have the ability to immunologically cross-react with hHSP65.
- salts refers to both salts of carboxyl groups and to acid addition salts of amino groups of the protein molecule.
- Salts of a carboxyl group may be formed by means known in the art and include inorganic salts, for example, sodium, calcium, ammonium, ferric or zinc salts, and the like, and salts with organic bases as those formed, for example, with amines, such as triethanolamine, arginine or lysine, piperidine, procaine and the like.
- Acid addition salts include, for example, salts with mineral acids such as, for example, hydrochloric acid or sulfuric acid, and salts with organic acids such as, for example, acetic acid or oxalic acid.
- “Functional derivatives” as used herein covers derivatives which may be prepared from the functional groups which occur as side chains on the residues or the N- or C- terminal groups, by means known in the art, and are included in the invention as long as they remain pharmaceutically acceptable, i.e., they do not destroy the activity of the protein, do not confer toxic properties on compositions containing it and do not adversely affect the antigenic properties thereof.
- These derivatives may, for example, include aliphatic esters of the carboxyl groups, amides of the carboxyl groups by reaction with ammonia or with primary or secondary amines, N-acyl derivatives of free amino groups of the amino acid residues formed with acyl moieties (e.g., alkanoyl or carbocyclic aroyl groups) or O-acyl derivatives of free hydroxyl group (for example that of seryl or threonyl residues) formed with acyl moieties.
- acyl moieties e.g., alkanoyl or carbocyclic aroyl groups
- O-acyl derivatives of free hydroxyl group for example that of seryl or threonyl residues
- Precursors are compounds formed prior to, and converted into, hsp65 in the animal or human body.
- active fractions of the substantially purified protein covers any fragment or precursors of the polypeptide chain of an hsp65 protein molecule alone or together with associated molecules or residues linked thereto, e.g., sugar or phosphate residues, or aggregates of the protein molecule or the sugar residues by themselves, provided said fraction has the ability to immunologically cross-react with hHSP65.
- an active fraction is the p277 sequence of hHSP65.
- a preferred way of administering the active principle such that it will induce tolerance is to administer it with a carrier that favors induction of tolerance to the antigen when the antigen-carrier conjugate is administered.
- Such carriers are known as tolerogenic carriers. Examples of known tolerogenic carriers are polymers of D-amino acids, polyethylene glycol, polymers of sugar molecules, self-IgG molecules, self-spleen cells, and fatty acid molecules.
- An antigen may also be administered in a monomeric highly soluble form to induce tolerance.
- Another known method of inducing tolerance to an antigen is to administer it orally, even without any carrier specifically chosen for its tolerogenic characteristics.
- Particular manners of administering an antigen so as to induce tolerance are known to those of ordinary skill in the art and any such manner may be used in accordance with the present invention. Such techniques are not, per se, part of the present invention.
- T cell preparations which may be used for prevention or treatment of IDDM are obtained from T cells which have developed specificity for the IDDM specific antigens discussed above, i.e., specific to hHSP65 or an antigen cross-reactive therewith, such as p277. These specific cells must also have been activated either by incubating in the presence of such antigen or by incubating with a mitogen capable of inducing an immune response by the T cells, such as concanavalin A. Such activated IDDM specific T cells are preferably attentuated, such as by irradiation.
- a preferred means of attenuation which also has the salutary effect of increasing the immunogenicity of the T cells, is by pressure treatment by means of hydrostatic pressure of sufficient pressure and time to cause augmented immunogenicity of the T cells without substantial loss of membrane protein therefrom.
- the pressure may be of sufficient magnitude and duration to cause the cell surface proteins to be shed from the cells.
- the fragments obtained after high speed centrifugation may be used as the vaccine, as well as the soluble proteins remaining in the supernatant after high speed centrifugation. All of these techniques are described in detail in European patent publication 261,648 of the present assignee, the entire contents of which are hereby incorporated by reference.
- the IDDM specific, activated T cells may also be treated with a chemical cross-linking agent, such as formaldehyde, glutaraldehyde or a photoactivatable psoralen cross-linking agent such as 8-methoxypsoralen (see European patent publication 333,606 to the present assignee, the entire contents of which are hereby incorporated by reference) .
- a chemical cross-linking agent such as formaldehyde, glutaraldehyde or a photoactivatable psoralen cross-linking agent such as 8-methoxypsoralen (see European patent publication 333,606 to the present assignee, the entire contents of which are hereby incorporated by reference) .
- Such T cells may also be treated with a cytoskeletal disrupting agent, such as cytochalsin or colchicine. Any one or more of the pressure-treatment, chemical cross-linker treatment and cytoskeletal disrupting agent treatment steps can be combined.
- the cells so treated may be lysed
- variable region of the T cell receptor specific to the IDDM antigen i.e., hHSP65 or an antigen cross-reactive therewith, and preferably the VDJ region thereof, may be isolated and, preferably, cloned for expression, and used as the T cell vaccine preparation of the present invention in the manner discussed in Howell, supra. and Vandenbark, supra. for the autoimmune encephalomyelitis T cell receptor.
- IDDM antigen is known, as is disclosed herein, all of these known techniques may be applied for the first time with respect to IDDM. All of such techniques can be accomplished by those of ordinary skill in this art without undue experimentation once the antigen is known. Accordingly, the present invention is intended to comprehend all such techniques. All of these represent additional methods of using the antigen of the present invention.
- a tolerogenic composition may be administered as a vaccine for the prevention of the development of IDDM, for example in family members of IDDM patients who may be genetically at risk for the development of IDDM.
- the composition is used to stop the continued development of IDDM in persons having detectable hHSP65 in the blood or urine but preferably before they have developed an immune response to the hHSP65.
- the hsp65 or related molecule can be used as immunogen in pharmaceutical compositions, particularly vaccines for the alleviation and treatment of IDDM, as well as antigens in diagnostic compositions for the diagnosis of IDDM.
- pharmaceutical compositions particularly vaccines for the alleviation and treatment of IDDM, as well as antigens in diagnostic compositions for the diagnosis of IDDM.
- Another way to improve the efficacy as a vaccine or therapeutic agent of the hsp65 is to construct, by known genetic engineering methods, microorganisms expressing the hsp65 either as such or as part of a fusion protein or as a multimer thereof. These microorganisms themselves can be used for the preparation of a live vaccine which will provoke not only the production of antibodies against the micro-organism in question, but will also be useful for the alleviation and treatment of IDDM. These genetically engineered microorganisms, and pharmaceutical compositions containing these, are also part of the present invention. Examples of suitable genetically engineered microorganisms are Vaccinia and Salmonella strains.
- composition in accordance with the present invention may be administered orally or parenterally, such as subcutaneously, intramuscularly, intravenously, intranasally or intrarectally.
- the pharmaceutical tolerogenic compositions may be prepared in a manner known in the art.
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Abstract
Description
Claims
Priority Applications (7)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP90908064A EP0417271B1 (en) | 1989-03-14 | 1990-03-14 | Diagnosis and treatment of insulin dependent diabetes mellitus |
DE69032833T DE69032833T2 (en) | 1989-03-14 | 1990-03-14 | DIAGNOSIS AND TREATMENT OF INSULIN-DEPENDENT DIABETES MELLITUS |
CA002029861A CA2029861C (en) | 1989-03-14 | 1990-03-14 | Diagnosis and treatment of insulin dependent diabetes mellitus |
NO904919A NO300594B1 (en) | 1989-03-14 | 1990-11-13 | Analogous Procedure for Preparation of Polypeptide and Method for Preparation of T-Cells with Specificity to the Polypeptide |
FI905614A FI103976B (en) | 1989-03-14 | 1990-11-13 | Method for Diagnosis of Insulin Dependent Diabetes Mellitus (IDDM) in vitro, and Equipment and Polypeptide |
FI961398A FI104179B1 (en) | 1989-03-14 | 1996-03-27 | Process for the preparation of a therapeutically useful polypeptide |
NO964483A NO304233B1 (en) | 1989-03-14 | 1996-10-22 | Polypeptide and kit for the diagnosis of insulin-dependent diabetes mellitus and the preparation of such material |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US32286489A | 1989-03-14 | 1989-03-14 | |
US322,864 | 1989-03-14 | ||
US371,249 | 1989-06-26 | ||
US07/371,249 US5114844A (en) | 1989-03-14 | 1989-06-26 | Diagnosis and treatment of insulin dependent diabetes mellitus |
Publications (1)
Publication Number | Publication Date |
---|---|
WO1990010449A1 true WO1990010449A1 (en) | 1990-09-20 |
Family
ID=26983648
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/US1990/001397 WO1990010449A1 (en) | 1989-03-14 | 1990-03-14 | Diagnosis and treatment of insulin dependent diabetes mellitus |
Country Status (10)
Country | Link |
---|---|
US (2) | US5114844A (en) |
EP (1) | EP0417271B1 (en) |
JP (3) | JP3165148B2 (en) |
AT (1) | ATE174689T1 (en) |
AU (1) | AU639456B2 (en) |
CA (1) | CA2029861C (en) |
DE (1) | DE69032833T2 (en) |
FI (1) | FI103976B (en) |
NO (1) | NO300594B1 (en) |
WO (1) | WO1990010449A1 (en) |
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EP1835933A2 (en) * | 2005-01-04 | 2007-09-26 | Yeda Research And Development Company Ltd At The W | Hsp60, hsp60 peptides and t cell vaccines for immunomodulation |
EP1835933A4 (en) * | 2005-01-04 | 2015-01-07 | Yeda Res & Dev | Hsp60, hsp60 peptides and t cell vaccines for immunomodulation |
EP2402022A2 (en) | 2005-03-14 | 2012-01-04 | Yeda Research And Development Co., Ltd. | Compositions of HSP60 peptides and viral antigens for vaccination and diagnosis |
US8652439B2 (en) | 2005-03-14 | 2014-02-18 | Yeda Research And Development Co. Ltd. | Compositions of HSP60 peptides and viral antigens for vaccination and diagnosis |
US8414899B2 (en) | 2006-04-11 | 2013-04-09 | Yeda Research And Development Co. Ltd. | Vaccines comprising multimeric HSP60 peptide carriers |
US9345753B2 (en) | 2008-01-16 | 2016-05-24 | Yeda Research And Development Co. Ltd. At The Weizmann Institute Of Science | Vaccine for alzheimer's disease |
Also Published As
Publication number | Publication date |
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FI103976B1 (en) | 1999-10-29 |
NO300594B1 (en) | 1997-06-23 |
CA2029861C (en) | 2001-01-16 |
JPH04502920A (en) | 1992-05-28 |
DE69032833D1 (en) | 1999-01-28 |
ATE174689T1 (en) | 1999-01-15 |
JP2000055916A (en) | 2000-02-25 |
JP3203323B2 (en) | 2001-08-27 |
FI905614A0 (en) | 1990-11-13 |
FI103976B (en) | 1999-10-29 |
EP0417271A1 (en) | 1991-03-20 |
AU5546790A (en) | 1990-10-09 |
US5671848A (en) | 1997-09-30 |
US5114844A (en) | 1992-05-19 |
EP0417271A4 (en) | 1992-09-09 |
EP0417271B1 (en) | 1998-12-16 |
JP3165148B2 (en) | 2001-05-14 |
JP2001010962A (en) | 2001-01-16 |
AU639456B2 (en) | 1993-07-29 |
NO904919D0 (en) | 1990-11-13 |
NO904919L (en) | 1991-01-14 |
CA2029861A1 (en) | 1990-09-15 |
DE69032833T2 (en) | 1999-05-12 |
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