UMLS:C0026918 - FACTA Search

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Query: UMLS:C0026918 (Mycobacterium)
52,428 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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)
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PMID:Adjuvant arthritis and immunity to the mycobacterial 65 kDa heat shock protein. 149 83

A recombinant 60 kDa Brucella abortus protein expressed in Escherichia coli was recognized in immunoblots by sera from mice experimentally infected with B. abortus and a dog experimentally infected with B. canis. Sera from humans and dogs with naturally acquired brucellosis also recognized this protein, which was designated BA60K. The gene encoding BA60K was localized within an 18 kb B. abortus genomic fragment and its direction of transcription determined by subcloning and maxicell analysis of selected restriction fragments. The nucleotide sequence of 1800 bases encompassing the predicted gene location was determined, revealing an open reading frame encoding a protein of 546 amino acids (predicted relative molecular mass of 57515). Solid phase micro-sequencing of BA60K eluted from two-dimensional polyacrylamide gels confirmed the predicted amino acid sequence. Comparison of the predicted amino acid sequence of BA60K with a protein sequence database revealed that BA60K shares 67.9% identity with the GroEL protein of E. coli, a member of the Hsp60 family of chaperonins. The immunodominant Hsp60 homologs from Legionella pneumophila, Chlamydia trachomatis and Mycobacterium tuberculosis were also found to share greater than 59% amino acid sequence identity with the BA60K protein. The identification of BA60K as a member of the Hsp60 family of chaperonins supports its role in stimulating a prominent host immune response during the course of Brucella infections. It also indicates that BA60K is an important candidate for studies aimed at identifying the antigens responsible for eliciting the protective immune response to brucellosis.
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PMID:Molecular cloning and nucleotide sequence analysis of the gene encoding the immunoreactive Brucella abortus Hsp60 protein, BA60K. 156 Jul 53

Previously, we detected a subset of gamma delta T cells in the newborn mouse thymus that responded to the mycobacterial heat shock protein Hsp60, as well as with what seemed to be a self-antigen. All of these cells expressed V gamma 1, most often in association with V delta 6+. It was not clear, however, whether similar, mature gamma delta cells with Hsp60 reactivity are common outside of the thymus, or rather, whether they are largely eliminated during development. From the data presented here, we estimate that gamma delta cells responding to Hsp60 comprise 10-20% of normal splenic and lymph node gamma delta T cells. Such cells, derived from adult spleen, always express a V gamma 1-J gamma 4-C gamma 4 gamma chain, although not all cells with this gamma chain show Hsp60 reactivity. Many of these V gamma 1+ cells also express V delta 6-J delta 1-C delta, though fewer than in V gamma 1+ cells from the newborn thymus. Extensive diversity is evident in both the gamma and delta chain junctional amino acids of the receptors of these cells, indicating that they may largely develop in the thymus of older animals or undergo peripheral expansion. Finally, we found that all such cells responding to both a putative self-antigen and to mycobacterial Hsp60 respond to a 17-amino acid synthetic peptide representing amino acids 180-196 of the Mycobacterium leprae Hsp60 sequence. This report demonstrates that a large subset of Hsp60-reactive peripheral lymphoid gamma delta T cells preexists in normal adult mice, all members of which respond to a single segment of this common heat shock protein.
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PMID:Heat shock protein Hsp60-reactive gamma delta cells: a large, diversified T-lymphocyte subset with highly focused specificity. 158 68

T cell recognition of foreign antigens is a result of a ternary complex between T cell receptor, nominal peptide and major histocompatibility complex molecule. It has been proposed that the nominal peptide, which is presented by accessory cells to T cells, has a characteristic structure which can be predicted on the basis of physicochemical criteria. To further study this aspect, we stimulated T cells from normal human blood donors with synthetic peptides (each of approximately 15 amino acids in length) from the heat shock protein 65 of Mycobacterium tuberculosis-M. bovis. We found that while the characterization of certain epitopes follows commonly used predictions, other epitopes cannot be predicted by known methods.
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PMID:Epitopes of the mycobacterial heat shock protein 65 for human T cells comprise different structures. 169 34

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.
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PMID:Modulation of experimental autoimmunity: treatment of adjuvant arthritis by immunization with a recombinant vaccinia virus. 190 72

Recent studies in nonobese diabetic mice have implicated the autoimmune destruction of pancreatic islet cells with immunity to a beta cell protein cross-reactive to Mycobacterium tuberculosis heat shock protein 65 (hsp 65). Therefore, our studies examined serological immunity to islet cell hsp in humans with insulin-dependent diabetes (IDD). Heat shock of human islet cells in vitro markedly increased the synthesis of proteins of 72,000, 75,000, and 90,000 Mr. No autoantibodies reactive to these hsp, nor to the constituently expressed islet cell hsp 65 protein (identified as 60,000 Mr) were observed in IDD patients. The islet cell 64,000-Mr autoantigen and hsp 65 proteins were physiologically and immunocompetitively distinct. These experiments do not support the hypothesis that IDD in humans is associated with autoimmunity to islet cell heat shock proteins.
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PMID:No evidence for serological autoimmunity to islet cell heat shock proteins in insulin dependent diabetes. 199 54

Chlamydia trachomatis infection of humans is commonly a localized inflammation that can result in infertility, blindness, and perhaps arthritis. The pathogenic process(es) that cause these sequelae are thought to be immunological. A 57-kD protein that is common among Chlamydia elicits ocular inflammation when introduced onto the conjunctivae of guinea pigs or nonhuman primates previously sensitized by chlamydial infection. This protein is thought to mediate the immunopathology that follows chlamydial infection. To more thoroughly characterize this chlamydial component, we cloned its gene from a C. psittaci strain and identified a particular recombinant that produced the 57-kD polypeptide. The recombinant gene product was immunoreactive with a monospecific anti-57-kD serum, and elicited an ocular inflammation similar to that produced by the 57-kD antigen isolated from chlamydiae. Sequencing identified two ORFs that encode polypeptides of 11.2 and 58.1 kD and are co-transcribed. These two polypeptides show homology with Escherichia coli groE and Coxiella burnetii htp heat-shock proteins. Striking homology (greater than 50%) was found between the 57-kD protein and the HtpB, GroEL, 65-k Mycobacterium tuberculosis and Hsp60 proteins. Thus, the 57-kD chlamydial protein, previously implicated as mediating a deleterious immunologic response to chlamydial infections, is a stress-induced protein similar to those that occur universally in both prokaryotic and eukaryotic organisms.
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PMID:Chlamydial disease pathogenesis. The 57-kD chlamydial hypersensitivity antigen is a stress response protein. 257 68

A phylogenetic analysis of chaperonin (heat shock protein 60) sequences from prokaryotes and eukaryotes indicated that a single gene duplication event in the common ancestor of Mycobacterium tuberculosis, M. leprae, and Streptomyces albus gave rise to the duplicate chaperonin genes found in these species (designated HSP65 and GroEL in the mycobacterial species). Comparison of rates of synonymous and nonsynonymous nucleotide substitution in different gene regions suggested that the 5' end of the HSP65 gene was homogenized by an ancient recombination event between M. tuberculosis and M. leprae. In S. albus, the two duplicated chaperonin genes have evolved at essentially the same rate. In both M. tuberculosis and M. leprae, however, the GroEL gene has evolved considerably more rapidly at nonsynonymous nucleotide sites than has the HSP65 gene. Because this difference is not seen at synonymous sites, it must be due to a difference in selective constraint on the proteins encoded by the two genes, rather than to a difference in mutation rate. The difference between GroEL and HSP65 is striking in regions containing epitopes recognized by T cells of the vertebrate host; in certain cross-reactive epitopes conserved across all organisms, nonsynonymous sites in GroEL have evolved twice as fast as those in HSP65. It is suggested that these differences are correlated with differences in the way in which the duplicate chaperonins of M. tuberculosis and M. leprae interact with the host immune system.
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PMID:Contrasting evolutionary rates in the duplicate chaperonin genes of Mycobacterium tuberculosis and M. leprae. 750 44

Immunological cross-reactivity between Mycobacterium bovis BCG stress protein (heat shock protein: HSP64) and Meth A tumour cells was analysed by using anti-BCG HSP64 mAb whose recognition epitopes were characterized against BCG HSP64 peptides. By indirect immunofluorescence analysis (IIFA), it was found that one of seven anti-BCG HSP64 mAb, XVIIIG1, bound to the cell surface of Meth A in BALB/c mice. This result was further confirmed by western blot analysis, demonstrating the presence of a 64 kDa protein which reacted with mAb XVIIIG1 that recognizes the 110-123 amino acid peptide of the BCG HSP64. Comparison of the amino acid sequence between the mouse HSP65 and BCG HSP64 recognized by mAb XVIIIG1 revealed 50% amino acid sequence homology. It was concluded from these results that Meth A tumour cells continuously express the stress protein HSP64 as a kind of tumour-associated antigen on the surface of tumour cells.
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PMID:The expression of mycobacterial heat shock protein (HSP64) on Meth A tumour cells. 753 Jun 94

Sheep infected with maedi visna virus were tested for immune reactivity to recombinant HSP65 and tuberculin PPD from mycobacteria. The results showed that both naturally and experimentally infected animals had elevated IgM but not IgG or IgA antibodies to HSP65 from Mycobacterium leprae or M. bovis. In experimentally infected animals, the elevated IgM antibodies appeared in blood from about 3 to 4 weeks postinfection. Increased T cell proliferative responses to HSP65 and PPD were also found in both naturally and experimentally infected sheep. The T cell responses to HSP65 were substantially inhibited by antibodies to ovine major histocompatibility complex class II molecules, indicating that the responses were class II restricted. Increased expression of a putative HSP65 molecule was observed in synovial membranes from sheep infected with maedi visna virus and goats infected with the related, caprine arthritis encephalitis virus. The results thus show that lentivirus infection induces T and B cell anti-HSP65 immune responses and suggest that synovial inflammation may be due, at least in part, to T and B cell recognition of HSP65-like molecules expressed in joints.
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PMID:T and B cell responses to mycobacterial 65-kDa heat-shock protein in sheep infected with maedi visna virus. 753 20

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