Modulation of experimental autoimmunity: treatment of adjuvant arthritis by immunization with a recombinant vaccinia virus.

Live recombinant vaccinia viruses, expressing antigens from pathogenic microorganisms, are studied for their use as vaccines designed for the protection against infectious diseases. Infections with these vaccinia virus recombinants, expressing proteins or epitopes from viruses, parasites, or bacteria, have resulted in the development of specific neutralizing antibodies or cytotoxic T lymphocytes. Here, we describe the generation of a recombinant vaccinia virus expressing the mycobacterial 65-kDa heat shock protein (HSP65). A vaccinia recombinant virus was constructed by placing the gene for the Mycobacterium bovis BCG HSP65 under control of a vaccinia virus promoter and inserting this mycobacterial gene in the thymidine kinase locus of the vaccinia virus genome. Mycobacterial HSP65 is a critical antigen in the autoimmune model of adjuvant arthritis induced in Lewis rats by the immunization with Mycobacterium tuberculosis. We report the induction of immunity directed to this mycobacterial HSP65 by testing for the presence of specific antibodies and T-cell proliferation. Furthermore, induction of such immunity resulted in a reduction of arthritis severity when given to rats before or, even more interestingly, during development of arthritis. Disease reduction was not found after administration of HSP65 in the absence of vaccinia virus as a vector when given during arthritis development. Therefore, recombinant vaccinia virus may offer new prospectives for specific intervention in autoimmunity.     

T cell reactivity to an epitope of the mycobacterial 65-kDa heat-shock protein (hsp 65) corresponds with arthritis susceptibility in rats and is regulated by hsp 65-specific cellular responses.

Adjuvant arthritis (AA) can be induced in genetically susceptible rats by immunization with heat-killed mycobacteria suspended in mineral oil. From our analysis of arthritogenic T cell clone A2b, obtained from an arthritic Lewis rat and specific for the 180-188 epitope of mycobacterial 65-kDa heat-shock protein (hsp 65), the possible origin of AA was explained by the existence of a molecular mimicry of the 180-188 epitope with a cartilage-associated self antigen. We now have shown that Lewis rats respond to the 180-188 epitope after Mycobacterium tuberculosis immunization and that arthritis-resistant Fisher and (Lewis x Fisher)F1 rats, although major histocompatibility complex class II identical with Lewis, do not respond to this epitope. However, in rare cases of arthritis in Fisher rats, responses to the epitope were seen. We obtained no evidence for a defect at the level of antigen processing and presentation or for suppression in Fisher rats. Thus, non-responsiveness in Fisher rats was likely due to a difference at the level of the T cell repertoire. Previously, we have reported that pretreatment with hsp 65 in experimental arthritis, and not only in AA, caused resistance to arthritis induction. We now present evidence that immunization with hsp 65 or in vitro stimulation with hsp 65 may lead to inhibition of responses specific for epitope 180-188. Thus the hsp 65-induced resistance to arthritis is probably caused by the induction of regulatory control specifically targeted at the 180-188 epitope. Especially in rats that tend to focus their responses on the critical 180-188 sequence, such as Lewis, regulation seems to develop following immunization with hsp 65. Since recent evidence suggests that hsp 65 and also the 180-188 epitope have a role in human arthritic conditions, the present findings are expected to contribute to further experimentation directed at exploiting hsp 65 or its epitopes for the development of new therapeutical approaches in humans.     

Diversification of response to hsp65 during the course of autoimmune arthritis is regulatory rather than pathogenic

Summary: Determinant spreading has been implicated in the pathogenesis of certain autoimmune diseases in animal models. We have observed that during the course of adjuvant arthritis (AA) in the Lewis rat, there is 'diversification' of response to the bacterial 65-kDa heat shock protein (Bhsp65) towards its carboxy-terminal determinants (BCTD). Strikingly, pretreatment of naive Lewis rats with BCTD affords significant protection from AA. Our preliminary studies indicate that the diversification of response to BCTD in the Lewis rat is probably triggered in vivo by the induction and enhanced processing of self(rat) hsp65. Thus, the self hsp65-directed T-cell responses appear to be involved in mediating natural remission from acute inflammatory arthritis induced by a foreign antigen, Myco-bacterium tuberculosis. This the first report describing that the new T-cell specificities arising during the course of an autoimmune disease are regulatory/protective rather than pathogenic. Moreover, our results suggest that a final common mechanism involving BCTD might be recruited by other rac strains which either are resistant to AA (WKY rats) or whose susceptibility to AA is modulated significantly by microbial flora (Fisher rats). The results of this study would contribute significantly to understanding of the pathogenesis of human rheumatoid arthritis, and in devising new therapeutic strategies for this disease.     

Natural antibodies to 65 kD mycobacterial heat shock protein in rats do not correlate with susceptibility for Mycobacterium tuberculosis induced adjuvant arthritis

Natural antibodies to 65 kD heat shock protein (hsp65) of Mycobacterium bovis were found in the sera of Lewis rats. The levels of these natural hsp65 antibodies differed substantially between the individual rats. Each rat was subsequently tested for its susceptibility to develop arthritis following injection of M. tuberculosis in incomplete Freund adjuvant. It was found that the incidence and severity of the induced arthritis did not differ between groups of Lewis rats with relatively high and relatively low natural antibody levels to hsp65. Inoculation of rats without natural antibodies to hsp65 with intestinal contents did not induce hsp65 antibodies, although the rats were able to respond to the antigen.     

Cellular and humoral reactivity pattern to the mycobacterial heat shock protein HSP65 in adjuvant arthritis susceptible and resistant Wistar rats.

We have analyzed the cellular and humoral immunity to the mycobacterial 65 KDa heat shock protein (hsp65) in a group of Freund's Adjuvant-immunized rats with a limited susceptibility to Adjuvant arthritis. According to the arthritis indices during the period of study (35 days), two different groups of rats could be distinguished; a) autoimmune Adjuvant arthritic rats (AA), and b) Non-arthritic animals (NA), including both rats which did not display any disease symptoms and rats suffering mild transient inflammation. The cellular response to the immunizing agent (Mycobacterium tuberculosis) or the mitogen Concanavalin A was comparable between both groups of rats. However, we detected an impaired cellular response to the individual hsp65 antigen in the animals that did not develop the disease. On the contrary, the level of hsp65-specific antibodies was much higher in NA animals than in AA rats suggesting a protective role for the hsp65 specific antibodies.     

The mode of action of treatment by IgG of haemolytic anaemia induced by an anti-erythrocyte monoclonal antibody

Tolerization of pathogenic antigens is one of the experimental strategies that has been proposed to prevent autoimmune disease. We have investigated here whether neonatal intraperitoneal infection of Lewis rats with Mycobacterium bovis-BCG has any effect on the expression of adjuvant arthritis (AA), an autoimmune disease that is produced by immunization of the rats with dead mycobacteria in mineral oil (i.e. Freund's complete adjuvant (FCA)). We found that neonatal infection with 10⁸ viable BCG bacilli rendered all Lewis rats resistant to the expression of AA after FCA immunization. This BCG-induced protection from reactive arthritis was not seen in Lewis rats infected with smaller inocula (10⁶ BCG bacilli) or if the infection was performed after the neonatal period (e.g. at 3 weeks of age). Neonatal administration of 65-kD mycobacterial heat shock protein (hsp65, a key antigen in the etiopathogenesis of AA) failed to protect Lewis rats from AA; injection of lactoferrin (an autoantigen that may be involved in the physiopathology of autoimmune arthritis) to newborn Lewis rats decreased the severity of AA observed after FCA immunization of the animals. Western blotting revealed that Lewis rats that had acquired resistance to AA also showed changes in their repertoire of antibody specificities; among these alterations was decreased anti-hsp65 reactivity. We conclude that neonatal infection with BCG, but not hsp65 injection, renders Lewis rats resistant to AA and that the phenomenon is associated with change in the repertoire of specificities of circulating antibodies.     

Heat shock protein 60 and adjuvant arthritis: a model for T cell regulation in human arthritis

Heat shock proteins (hsp) are highly conserved, immune-dominant microbial proteins, whose expression is increased at sites of inflammation. In the experimental model of adjuvant arthritis (AA) immune responses to hsp determine the outcome of disease. AA can be transferred with a single T cell clone specific for a sequence of mycobacterial hsp65 (Mhsp65). Immunization with whole Mhsp65 on the other hand, protects in virtually all forms of experimental arthritis, including AA. This protective effect seems the consequence of the induction of a T cell response directed against self-hsp60. A similar protective effect of self-hsp60-specific T cells seems present in patients with a spontaneous remitting form of juvenile idiopathic arthritis. Next to hsp60, other hsp have similar protective effects in arthritis, while other conserved microbial proteins lack such capacity. Nasal administration of hsp60 peptides induces IL-10-driven regulatory T cells that are highly effective in suppressing arthritis. Thus hsp60, or peptides derived from hsp60, are suitable candidates for immune therapy in chronic arthritis.     

Differential rat T cell recognition of cathepsin D-released fragments of mycobacterial 65 kDa heat-shock protein after immunization with either the recombinant protein or whole mycobacteria

T cells specific for the mycobacterial 65 kDa heat-shock protein(hsp65) play a pivotal role in the development of adjuvant arthritis(AA) in Lewis rats. Upon adoptive transfer, CD4⁺ T cells recognizinga particular hsp65 epitope trigger the onset of disease. Activationof hsp65-reactlve T cells can be achieved by immunization withheat-killed mycobacteria in mineral oil—complete Freund'sadjuvant (CFA)—or with purified recombinant hsp65. Arthritis,however, will only develop after immunization with CFA. In fact,prelmmunlzatlon with hsp65 protects against any subsequent attemptto induce AA. In this study, we examined polyclonal lymph nodecell responses in Lewis rats, Immunized with either CFA or purifiedrecombinant hsp65 in incomplete Freund's adjuvant, to a setof hsp65 fragments generated by a mild digestion with cathepsinD. Prollferatlve responses to several hsp65 fragments variedwith the type of antigen used for immunization. A cathepsinD-released fragment, Identified as residues 376–408, preferentiallytriggered proliferation of rat T cells after hsp65 Immunization.Prelmmunlzatlon of Lewis rats with this peptlde delayed theonset and reduced the severity of AA. Prelmmunlzatlon with anotherfragment which was preferentially recognized after CFA immunization,representing residues 40–60, did not have such a protectiveeffect. Our findings suggest the presence of mycobacterial hsp65determinants that selectively trigger AA-regulatlng T cellsand illustrate that cathepsin D may be used as an experimentaltool to generate such determinants.     

Role of the Bowel Flora for Development of Immunity to hsp 65 and Arthritis in Three Experimental Models

An infectious aetiology in rheumatoid arthritis (RA) has for long been suggested, although no conclusive evidence for this is at present available. Lately a large interest has been devoted to the involvement of heat shock proteins (hsps) in autoimmune disorders due to their conserved structure and immunogenic properties. Immunity to hsps has been observed both in human autoimmune conditions and in experimental models of autoimmune disease. We have studied the role of the bacterial flora and hsp immunity in the arthritic response in three experimental models of arthritis; type II collagen arthritis (CIA), adjuvant arthritis (AA) and oil induced arthritis (OIA); by using germ free and conventional DA rats.
A high incidence of severe arthritis developed in all the models evaluated irrespectively of whether the animals were in the conventional or germ free state. This confirms earlier results which show a minor effect of the bacterial flora in CIA and AA in high responder strains. These results also show that a severe OIA can develop in germ free animals. Despite the severe arthritic response induced, no serum antibody levels to hsp 65 could be detected in the germ free animals, which was in contrast to the conventional animals where a positive anti-hsp 65 serum response was seen in 35–80% of the animals with CIA, AA or OIA.
These results show that development of a humoral response to hsp 65 in these models of arthritis is dependent on the presence of a bacterial flora. Further, the lack of humoral immunity in germ free animals despite a severe arthritic response indicates that humoral immunity to hsp 65 is not involved in development of disease in these three models of experimental arthritis.     

Lactoferrin Triggers In Vitro Proliferation of T Cells of Lewis Rats Submitted to Mycobacteria-Induced Adjuvant Arthritis

We have recently reported antigenic (B-ccll) cross-reactivity between the mycobacterial 65 kDa heat shock protein (hsp65) and human lactoferrin (LF) and we suggested that this cross-reactivity might have a role in mycobacteria-associated autoimmune disease. Here, we have searched for anti-LFT-cell reactivity in Lewis rats submitted to a mycobacteria-triggered autoaggressive disorder (adjuvant arthritis, A A), an autoimmune disorder characterized by high anti-hsp65 reactivity. We have quantified the in vitro proliferate response to LF of lymph node and spleen cells of Lewis rats killed 9, 14 and 21 days after the immunization with the AA-triggering, mycobacteria-containing adjuvant (complete Freund's adjuvant. CFA). We found that LF induced significant proliferation of lymph node T cells of rats undergoing AA. This T-cell proliferation was not as marked as the one provoked by hsp65; it was, nevertheless, significantly higher (P < 0.05) than that produced by a non-arthritogenic antigen (i.e. albumin). T cells from naive or mineral oil (incomplete Frcund's adjuvant, IFA) injected rats did not respond to LF or hsp65. These data indicate that LF may work as an accessory stimulatory factor of the T-cell autoreactivity associated with mycobacteria-induced arthritis.     

Regulation of autoimmune arthritis by the pro-inflammatory cytokine interferon-gamma

The pathogenesis of T cell-mediated diseases like rheumatoid arthritis (RA) has typically been explained in the context of the Th1-Th2 paradigm: the initiation/propagation by pro-inflammatory cytokines, and downregulation by Th2 cytokines. However, in our study based on the adjuvant-induced arthritis (AA) model of RA, we observed that Lewis (LEW) (RT.1(l)) rats at the recovery phase of AA showed the highest level of IFN-gamma in recall response to mycobacterial heat-shock protein 65 (Bhsp65), whereas AA-resistant Wistar-Kyoto (WKY) (RT.1(l)) rats secreted high levels of IFN-gamma much earlier following disease induction. However, no significant secretion of IL-10 or TGF-beta was observed in either strain. Furthermore, pre-treatment of LEW rats with a peptide of self (rat) hsp65 (R465), which induced T cells secreting predominantly IFN-gamma, afforded protection against AA and decreased IL-17 expression by the arthritogenic epitope-restimulated T cells. These results provide a novel perspective on the pathogenesis of autoimmune arthritis.     

The Dynamics of Articular Leukocyte Trafficking and the Immune Response to Self Heat-Shock Protein 65 Influence Arthritis Susceptibility

INTRODUCTION: Adjuvant arthritis (AA) shares several features with human rheumatoid arthritis, and it can be induced in the Lewis (LEW) rat but not the Wistar Kyoto (WKY) rat (both RT.1(l)) by immunization with heat-killed Mycobacterium tuberculosis (Mtb). We set out to unravel the mechanisms underlying the differential susceptibility to AA of these MHC-compatible rat strains. MATERIALS AND METHODS: We compared the levels of T-cell proliferative and cytokine response to the immunoregulatory self (rat) hsp65 (Rhsp65) after an arthritogenic (Mtb) challenge and the kinetics of migration of adoptively transferred, (111)Indium-labeled, Mtb-primed leukocytes into the hind paw joints of recipient rats. RESULTS AND DISCUSSION: The WKY rats raised a significantly higher level of T-cell proliferative response coupled with a temporally opposite cytokine profile against the disease-regulating Rhsp65 compared to that of LEW rats. Moreover, the arthritogenic leukocytes accumulated into the joints of WKY rats at significantly lower numbers than that in LEW rats. CONCLUSIONS: These results offer novel insights into the immune events influencing the pathogenesis of autoimmune arthritis.     

The 65-kDa heat-shock protein in the pathogenesis, prevention and therapy of autoimmune arthritis and diabetes mellitus in rats and mice

Conclusions hsp are molecules which are highly conserved from procaryotes to eukaryotes. At a first glance the immune system should treat these molecules as self. However, strong immune reactions to bacterial hsp are observed during infection in mammals.hsp65 plays a role in several autoimmune diseases in animal models. In AA in Lewis rats the involvement of hsp65 has been revealed by T cell clones which induce disease in naive recipients, or by T cell vaccination experiments. T cell clones which show in vivo activity have been used as tools in vitro to define epitopes involved in the disease process. In this manner mycobacterial hsp65 and its epitope peptide 180–188 were deduced for AA in Lewis rats. Similarily the epitope p277 was defined for diabetes in NOD mice.The role of hsp65 in several other autoimmune diseases was seen when animals were pretreated with hsp65 and found to be protected from subsequent induction of autoimmune disease. From the involvement of hsp65 in several different autoimmune diseases, it would appear that hsp65 is somehow a key factor in natural autoimmunity. At a fist glance this is surprising since mycobacterial hsp65 shows 50% amino acid homology with human hsp65, in other words it is half-self.Peptide epitopes, peptide 180–188 in AA in Lewis rats and p277 in IDDM in NOD mice, have been used for peptide vaccination, which represents another possibility for prevention of autoimmune disease. The immunological mechanism which leads to resistance from autoimmune disease involves hsp65 immunity and appears not to be associated with tolerance or non-responsiveness to hsp65, but seems to be due rather to modulation of naturally existing networks of idiotype-anti-idiotype T cells organized around hsp65 as the target antigen.     

Cellular and humoral reactivity pattern to the mycobacterial heat shock protein hsp65 in pristane induced arthritis susceptible and hsp65 protected DBA/1 mice.

We have analysed the cellular and humoral immunity to the mycobacterial 65 kD heat shock protein (hsp65) in groups of DBA/1 mice with arthritis induced by intraperitoneal injection of the mineral oil pristane. Here we confirm that DBA/1 mice are highly susceptible to pristane induced arthritis (PIA) and demonstrate that the incidence of arthritis can be modulated by either pretreatment with low dose irradiation or by preimmunisation with recombinant hsp65. Global cellular responses to antigens such as BSA or type II collagen were not enhanced or impaired within groups of arthritic (A) or non-arthritic (NA) mice. However, the cellular response to hsp65 in arthritic animals preimmunised with the 65 kD antigen was significantly elevated in comparison to hsp65 preimmunised mice that were resistant to the induction of disease. On the contrary, the level of hsp65 specific antibodies was much high in NA animals than in PIA mice. CBA/Igb mice are partially susceptible to the induction of PIA. We have previously reported that arthritic CBA/Igb mice have both elevated cellular and humoral reactivity to hsp65. Although a central pivotal role for hsp65 has been postulated in autoimmune diseases these results indicate that there is no simple relationship between the pathogenesis of PIA and immune responses to hsp65.     

Juvenile rheumatoid arthritis patients manifest immune reactivity to the mycobacterial 65-kDa heat shock protein, to its 180-188 peptide, and to a partially homologous peptide of the proteoglycan link protein.

Immune reactivity to the 65-kDa mycobacterial heat shock protein (hsp65) has been associated with arthritis in rats and humans. In this report we evaluated patients with juvenile rheumatoid arthritis for such immunity. A high proportion of affected children showed both antibody and T lymphocyte responses to hsp65 and to two related peptides: the nonapeptide 180-188 sequence of hsp65 and a partially homologous peptide of the cartilage proteoglycan link protein. The titer of circulating antibodies was generally higher in patients with clinically active disease. In contrast to the juvenile rheumatoid arthritis patients, patients with adult rheumatoid arthritis tended to have lower responses of their peripheral blood T lymphocytes to the whole hsp65 molecule. Moreover, the adult rheumatoid arthritis patients did not respond to the peptides. Thus, there appear to be immunological differences between juvenile and adult forms of rheumatoid arthritis related to hsp65 reactivity.     

A synthetic 10-kD heat shock protein (hsp10) from Mycobacterium tuberculosis modulates adjuvant arthritis

The heat shock protein, hsp10, is an abundant protein in Mycobacterium tuberculosis (Mtb), its nucleotide sequence encoding a protein of 99 amino acids with a molecular mass of 10±7kD. This sequence is phylogenetically conserved, being represented by the GroES homologue of Escherichia coli. Hsp 10 and GroES are members of the chaperonin 10 family of molecular chaperones, and GroES is necessary for the optimal activity of GroEL, a member of the chaperonin 60 family and the E coli homologue of mycobacterial hsp65. Since hsp65 has been implicated in both experimental and human rheumatoid arthritis, we aimed to assess the immunomodulatory effects of its co-chaperonin, hsp10, in experimental arthritis. Our results show that an aqueous solution of a mycobacterial hsp10 delayed the onset and severity of adjuvant-induced arthritis in rodents when administered after disease induction but before joint involvement occurred. This biological activity was specific for the hsp10 of Mtb, since neither GroES nor the rat homologue was effective. Using synthetic hsp10 fragments, the activity was localized to the N-terminal region of the molecule. Assessment of circulating antibody levels to mycobacterial hsp10 and hsp65 indicated that all arthritic rats had increased litres to both hsp10 and hsp65: hsp10-treated rats showed further elevation of this humoral response not only to hsp10 but also to hsp65 when compared with the untreated arthritic control. This is the first report of the immunomodulatory activity of mycobacterial hsp10 in experimental arthritis, and exhibits a potential role for this co-chaperonin in pathophysiological situations.     

Searching for the cartilage-associated mimicry epitope in adjuvant arthritis

Adjuvant arthritis (AA) is a T cell mediated disease which can be induced in genetically susceptible rats by immunization with heat-killed Mycobacterium tuberculosis (Mt) suspended in incomplete Freund's adjuvant. The critical mycobacterial T cell epitope for the induction of AA was previously identified as residues 178-186 of the mycobacterial 65 kDa heat shock protein (Mt. hsp65(178-186)). It was suggested that the development of AA was due to molecular mimicry between a mycobacterial epitope and a cartilage-associated self-antigen. However, until now such cartilage-associated mimicry epitope has not been identified. In this study we designed a computer search profile to predict mimicry self-epitopes, and investigated whether one or more of these self-epitopes could serve as mimicry epitopes in AA. Although several of these self-epitopes were recognized by arthritogenic T cells, no cross-reactivity was found between T cells specific for these self-epitopes and Mt. hsp65(178-186) specific T cells.     

Searching for the Cartilage-associated Mimicry Epitope in Adjuvant Arthritis

Adjuvant arthritis (AA) is a T cell mediated disease which can be induced in genetically susceptible rats by immunization with heat-killed Mycobacterium tuberculosis ( Mt ) suspended in incomplete Freund's adjuvant. The critical mycobacterial T cell epitope for the induction of AA was previously identified as residues 178-186 of the mycobacterial 65 kDa heat shock protein ( Mt. hsp65 178-186 ). It was suggested that the development of AA was due to molecular mimicry between a mycobacterial epitope and a cartilage-associated self-antigen. However, until now such cartilage-associated mimicry epitope has not been identified. In this study we designed a computer search profile to predict mimicry self-epitopes, and investigated whether one or more of these self-epitopes could serve as mimicry epitopes in AA. Although several of these self-epitopes were recognized by arthritogenic T cells, no cross-reactivity was found between T cells specific for these self-epitopes and Mt. hsp65 178-186 specific T cells.     

A Monoclonal Antibody to the Mycobacterial 65kDa Heat Shock Protein (ML 30) Binds to Cells in Normal and Arthritic Joints of Rats

A monoclonal antibody reactive with the mycobacterial 65 kDa heat shock protein (ML 30) was investigated for reactivity with biopsies from normal rat joints and with inflamed joints due to adjuvant arthritis (AA) or collagen induced arthritis (CIA). Immunohistochemical stainings with the anti-hsp 65 antibody on paraffin sections from normal rat joints revealed a weak but exclusive staining of cells within the synovial lining. Also normal chondrocytes and bone marrow cells showed occasional staining. In biopsies from inflamed joints obtained from rats suffering from AA or CIA, an intense staining with ML 30 was seen within the cartilage-pannus junction as well as sites of bone erosion. An increased staining, compared with the normal, was also seen in chondrocytes of the eroded cartilage and in some bone marrow cells. No staining with ML 30 was seen in biopsies from inflammatory lesions due to delayed type hypersensitivity reactions in the skin of rats. Reactivity of ML 30 was also seen in a Western blot assay performed on lysates from inflamed synovia from rats with CIA, preferentially with a component slightly below 60 kDa in molecular weight. The demonstration of epitopes cross-reactive with hsp 65 of mycobacteria in normal and, in higher quantity, in arthritic rat joints, suggests, together with our preliminary biochemical findings, that a recently identified mammalian counterpart to bacterial hsp 65 is both preferentially expressed in normal joints and subject to increased expression in arthritis of different aetiologies.     

Adjuvant arthritis and immunity to the mycobacterial 65 kDa heat shock protein.

The mycobacterial 65 kDa heat shock protein (HSP65) is of critical significance in the model of adjuvant arthritis (AA). Arthritogenic and protective T cell clones obtained from arthritic rats recognized the 180-188 sequence of HSP65. Previous reports have shown that administration of HSP65 prior to disease induction led to resistance to arthritis in the AA model and in several other models of experimental arthritis. Here, we report the development of immunity to HSP65 and the critical 180-188 epitope during the course of AA. Following Mycobacterium tuberculosis (MT) immunization both antibodies and T cell responses to HSP65 were detected. Proliferative responses to the 180-188 epitope were seen exclusively in the local draining lymph node cells at day 14 after immunization. The anatomical distribution and course of T cell responses to HSP65 and its 180-188 epitope are compatible with T cell regulated control of the disease. Although lower HSP65 antibody levels were observed in the animals with severe arthritis, in individual animals no evidence was obtained for a relationship between development of HSP65 humoral immunity and arthritis severity. Nevertheless, during disease exacerbation, elicited by HSP65 immunization during disease development, elevated T cell responses against HSP65 and its 180-188 epitope were found. In contrast, we obtained evidence that successful transfer of arthritis resistance to naive recipients depends on the transfer of HSP65 specific T cells. On the basis of these results, it seems that HSP65 plays a crucial role in the T cell regulatory events involved in both the induction of, and protection against, AA.(ABSTRACT TRUNCATED AT 250 WORDS)