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Query: UMLS:C0003864 (
arthritis
)
69,039
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
T cell recognition of the type II collagen (CII) 260-270 peptide is a bottleneck for the development of collagen-induced
arthritis
(CIA), an animal model of rheumatoid arthritis. We have earlier made C3H.Q mice expressing CII with glutamic acid instead of aspartic acid at position 266 (the MMC-C3H.Q mouse), similar to the rat and human CII epitope, which increases binding to MHC class II and leads to effective presentation of the peptide in vivo. These mice show T cell tolerance to CII, but also develop severe
arthritis
. The present investigation shows that non-MHC genes play a decisive role in determining tolerance and
arthritis
susceptibility. We bred MMC into
B10
.Q mice, which display similar susceptibility to CIA induced with rat CII as the C3H.Q mice. In contrast to MMC-C3H.Q mice, MMC-
B10
.Q mice were completely resistant to
arthritis
. Nontransgenic (
B10
.Q x C3H.Q)F(1) mice were more susceptible to CIA than either of the parental strains, but introduction of the MMC transgene leads to CIA resistance, showing that the protection is dominantly inherited from
B10
.Q. In an attempt to break the
B10
-mediated CIA protection in MMC-transgenic mice, we introduced a transgenic, CII-specific, TCR beta-chain specific for the CII(260-270) glycopeptide, in the highly CIA-susceptible (
B10
.Q x DBA/1)F(1) mice. The magnification of the autoreactive CII-specific T cell repertoire led to increased CIA susceptibility, but the disease was less severe than in mice lacking the MMC transgene. This finding is important for understanding CIA and perhaps also rheumatoid arthritis, as in both diseases MHC class II-restricted T cell recognition of the glycosylated CII peptide occurs.
...
PMID:Genetic control of tolerance to type II collagen and development of arthritis in an autologous collagen-induced arthritis model. 1450 Jun 45
The
B10
.Q/J strain of mice was serendipitously discovered to be highly susceptible to infection by the intracellular protozoan parasite, Toxoplasma gondii but markedly resistant to induction of autoimmune
arthritis
. We have previously shown that the
B10
.Q/J phenotype is controlled by a single recessive locus and is associated with lymphocyte hyporesponsiveness to IL-12. Using genetic approaches, we have now localized the
B10
.Q/J locus to chromosome 9 and established its identity as Tyk2, a Janus kinase essential for IL-12 and IFN-alpha/beta cytokine signaling. The
B10
.Q/J Tyk2 gene contained a single missense mutation resulting in a nonconservative amino acid substitution (E775K) in an invariant motif of the pseudokinase (Janus kinase homology 2) domain. This mutation appeared to result in the absence of the
B10
.Q/J-encoded Tyk2 protein, despite presence of Tyk2-specific transcripts. Phenotypically,
B10
.Q/J cells were indistinguishable from Tyk2-deficient cells, showing impaired signaling and biologic responses to IL-12, IL-23, and type I IFNs. The analogous E782K mutant of human Tyk2 failed to restore IFN-alpha responsiveness in Tyk2 null 11,1 cells. Our results indicate a crucial role for Tyk2 in T helper 1-mediated protective and pathogenic immune responses. An additional implication of our findings is that naturally occurring mutations in the Tyk2 gene may underlie altered susceptibilities to infectious or autoimmune diseases in human and animal populations.
...
PMID:A natural mutation in the Tyk2 pseudokinase domain underlies altered susceptibility of B10.Q/J mice to infection and autoimmunity. 1450 Jul 83
To investigate the role of HLA-DR4 in predisposition to
arthritis
, we generated transgenic mice carrying DRB1*0401 and DRB1*0402 genes. We have previously shown that DRB1*0401 molecule renders
B10
.RQB3 (H2A(q)) mice susceptible to porcine and human type II collagen-induced
arthritis
. We report that the introduction of DRB1*0402 transgene does not lead to development of
arthritis
in mice when they are immunized with porcine and human type II collagen. In addition, DRB1*0402 protects
B10
.RQB3 mice against developing
arthritis
with bovine type II collagen. These data show that DRB1 can modulate the disease mediated by A(q). In vivo depletion of DRB1*0402 did not lead to induction of collagen-induced
arthritis
in transgenic mice. In vitro cytokine analysis shows that mice protected from collagen-induced
arthritis
produce lower amounts of Th1 and higher levels of Th2 type cytokines upon immunization with type II collagen. Protection of mice was also related to higher apoptosis in DW10 mice as indicated by higher amounts of BclII in response to type II collagen. On the basis of our observations in HLA transgenic mice, we hypothesize that DRB1 polymorphism can modulate disease by shaping the T cell repertoire in thymus and select autoreactive T cells.
...
PMID:HLA-DRB1*0402 (DW10) transgene protects collagen-induced arthritis-susceptible H2Aq and DRB1*0401 (DW4) transgenic mice from arthritis. 1453 Mar 70
Self-reactivity is potentially so devastating to the organism that a variety of regulatory devices have evolved to control it. One broadly used strategy is that employing the processed T cell receptor (TCR) as a target for TCR-specific regulatory cells. In several autoimmune models, feedback regulation employing both CD4+ and CD8+ T cells of TCR specificity can be shown to occur and to account for remission from the transient disease state, or for its prevention. We will focus here on the experimental autoimmune encephalomyelitis (EAE) model in the
B10
.PL (H-2u) mouse. In this model, the acetylated 1-9 N-terminal antigenic determinant from myelin basic protein (MBP) induces a transient paralytic disease owing to the activation of self-directed, high-affinity, CD4+ T cells. Although the response is multiclonal, a particularly aggressive member of this repertoire, bearing a Vbeta8.2,Jbeta2.7 receptor, which we have termed a 'driver clone', appears to be largely responsible for the disease process. A CD4+ T cell directed against a TCR determinant in the framework region of the Vbeta chain, and a CD8+ T cell directed against an upstream, distinct framework determinant, both of which are necessary for regulation, bring about a reversal of the disease process. To accomplish this, there must be a Th1 milieu during the induction of regulation, which is provided in part by the CD4+ regulatory cells themselves. To act as a target, the Vbeta8.2 MBP-reactive T cell must be activated, and the Th1 driver clone(s) is down-regulated via apoptotic killing, leaving a group of Th2, MBP-specific clones of weak affinity, which themselves may help in perpetuating long-term regulation. Similar results are also found in the collagen
arthritis
and NOD diabetes models.
...
PMID:Seven surprises in the TCR-centred regulation of immune responsiveness in an autoimmune system. 1460 18
The Ncf1 gene was recently identified as a strong regulator of severe
arthritis
in rat. This finding was surprising, because the disease-promoting allele mediated a lower level of reactive oxygen species in NADPH oxidase-expressing cells. We have now investigated a splice mutation of the Ncf1 gene in
B10
.Q mice, causing a truncated and nonfunctional Ncf1 protein. We found that the mutated Ncf1 led to a more severe and chronic relapsing collagen-induced
arthritis
. Enhanced IgG and delayed-type hypersensitivity responses against type II collagen were seen, indicating increased activity of autoreactive T cells. Interestingly, female Ncf1-mutated mice spontaneously developed severe
arthritis
during the postpartum period. The
arthritis
was accompanied by an increased antibody response to type II collagen, with the same fine specificity as in collagen-induced
arthritis
. The enhancing effect of the mutated Ncf1 could also be shown to be more general in that it enhanced myelin oligodendrocyte glycoprotein protein-induced experimental autoimmune encephalomyelitis, a model for multiple sclerosis. These results show that Ncf1, a gene important for oxidative burst, regulates the susceptibility and severity of both
arthritis
and encephalomyelitis and modulates, directly or indirectly, the level of T cell-dependent autoimmune responses.
...
PMID:Enhanced autoimmunity, arthritis, and encephalomyelitis in mice with a reduced oxidative burst due to a mutation in the Ncf1 gene. 1531 Aug 53
Relapsing polychondritis (RP) is an autoimmune disease that affects extra-articular cartilage. Matrilin-1-induced relapsing polychondritis (MIRP) is a model for RP and is useful for studies of the pathogenic mechanisms in this disease. There are indications that the major histocompatibility complex (MHC) class II plays a major role in RP, since DR4+ patients are more commonly affected than controls. We have now addressed the role of the MHC region, as well as the non-MHC contribution, using congenic mouse strains. Of the MHC congenic strains,
B10
.Q (H2q) was the most susceptible, the
B10
.P (H2p) and
B10
.R (H2r) strains developed mild disease, while
B10
strains carrying the v, b, f, or u H2 haplotypes were resistant. A slight variation of susceptibility of H2q strains (
B10
.Q> C3H.Q> DBA/1) was observed and the (
B10
.Q x DBA/1)F1 was the most susceptible of all strains. Furthermore, macrophages and CD4+ T cells were the most prominent cell types in inflammatory infiltrates of the tracheal cartilage. Macrophages are the major source of many cytokines, such as interleukin-10 (IL-10), which is currently being tested as a therapeutic agent in several autoimmune diseases. We therefore investigated
B10
.Q mice devoid of IL-10 through gene deletion and found that they developed a significantly more severe disease, with an earlier onset, than their heterozygous littermates. In conclusion, MHC genes, as well as non-MHC genes, are important for MIRP induction, and IL-10 plays a major suppressive role in cartilage inflammation of the respiratory tract.
Arthritis
Res Ther 2004
PMID:Critical role of the major histocompatibility complex and IL-10 in matrilin-1-induced relapsing polychondritis in mice. 1538 48
Collagen-induced
arthritis
(CIA) is an animal model of human rheumatoid arthritis that can be induced in susceptible mice by immunization with type II collagen (CII) or with collagen fragments, including cyanogen bromide (CB) peptides. One susceptible mouse strain,
B10
.RIII (I-Ar), has previously been found to respond to two major T-cell determinants, namely CII 610-618 (GPAGTAGAR) within CB10 and CII 445-453 (GPAGPAGER) within CB8. Although CB10 contains the immunodominant determinant, it is not arthritogenic. Using recombinant techniques, the determinant within CB10 was mutated to rCB10(T614P,A617E), generating a recombinant CB10 that in effect contained the arthritogenic epitope. When used for immunization, rCB10(T614P,A617E) was arthritogenic. This suggested that the arthritogenic property was intrinsic to the epitope and unrelated to its position within the CII molecule. To test this hypothesis, additional mutants were generated. The wild-type T-cell epitope of CB10 was deleted from its natural position, and the 'arthritogenic' GPAGPAGER T-cell epitope was inserted into the C-terminal portion of the CB10 peptide. The resulting peptide induced
arthritis
in
B10
.RIII mice. Adding a second copy of the T-cell determinant to other sites within CB10, however, had varying results. A second T-cell epitope located at the C-terminus of rCB10 significantly increased the incidence and severity of
arthritis
, while determinants placed in other positions had little effect. These data indicate that the T-cell epitope has intrinsic arthritogenic properties, but there are positional and structural constraints that affect its arthritogenicity. Enhanced
arthritis
was associated with an increased T-cell proliferation to the peptides, an increase in the level of inflammatory cytokines, and higher levels of anti-CII immunoglobulin. These data suggest that the position and copy number of T-cell determinants also affect the overall immune T-cell responses.
...
PMID:Pathogenesis of collagen-induced arthritis: modulation of disease by arthritogenic T-cell epitope location. 1550 Jun 26
Among the
arthritis
-susceptible MHC (H-2)-congenic mouse strains,
B10
.RIII mice are highly susceptible to collagen-induced
arthritis
. Surprisingly, the
B10
.RIII strain was also more susceptible to the T cell independent model CAIA (collagen-antibody-induced
arthritis
). Through genome-wide genotyping, we found that the
B10
.RIII and
B10
.Q strains differed not only in chromosome 17 (MHC) but also in a region on chromosome 10, which contained a fragment from the MHC donor RIIIS/J. We isolated the chromosome 10 as well as the chromosome 17 segments on the
B10
.RIII and
B10
.Q backgrounds. Congenic mice containing the RIIIS/J-derived chromosome 10 segment showed significantly higher susceptibility and severity of
arthritis
with an enhanced autoimmune response to type II collagen. Furthermore, this chromosomal segment significantly promoted CAIA. Similarly, the RIIIS/J segment in chromosome 17 also promoted CAIA independently of other gene segments. These data show that other gene regions, apart from MHC class II, may explain effects both at the priming and effector level of
arthritis
observed in widely used MHC congenic strains. These new congenic fragments, on both chromosome 10 and 17, provide new mouse strains suitable for studies aiming at positional cloning of new genes associated with
arthritis
.
...
PMID:A genetic contamination in MHC-congenic mouse strains reveals a locus on chromosome 10 that determines autoimmunity and arthritis susceptibility. 1576 51
One of the major quantitative trait loci (QTLs) associated with
arthritis
in crosses between
B10
.RIII and RIIIS/J mice is the Cia5 on chromosome 3. Early in the congenic mapping process it was clear that the locus was complex, consisting of several subloci with small effects. Therefore, we developed two novel strategies to dissect a QTL: the partial advanced inter-cross (PAI) strategy, with which we recently found the Cia5 region to consist of three loci, Cia5, Cia21 and Cia22, and now we introduce the QTL-chip strategy, where we have combined congenic mapping with a QTL-restricted expression profiling using a novel microarray design. The expression of QTL genes was compared between parental and congenic mice in lymph node, spleen and paw samples in five biological replicates and in dye-swapped experiments at three time points during the induction phase of
arthritis
. The QTL chip approach revealed 4 genes located in Cia21, differently expressed in lymph nodes, and 14 genes in Cia22, located within two clusters. One cluster contains six genes, differently expressed in spleen, and the second cluster contains eight genes, differently expressed in paws. We conclude the QTL-chip strategy to be valuable in the selection of candidate genes to be prioritized for further investigation.
...
PMID:Gene expression profiling of arthritis using a QTL chip reveals a complex gene regulation of the Cia5 region in mice. 1601 70
Antibodies against type II collagen (CII) are important in the development of collagen-induced
arthritis
(CIA) and possibly also in rheumatoid arthritis. We have determined the fine specificity and arthritogenicity of the antibody response to CII in chronic relapsing variants of CIA. Immunization with rat CII in
B10
.Q or
B10
.Q(BALB/cxB10.Q)F2 mice induces a chronic relapsing CIA. The antibody response to CII was determined by using triple-helical peptides of the major B cell epitopes. Each individual mouse had a unique epitope-specific response and this epitope predominance shifted distinctly during the course of the disease. In the
B10
.Q mice the antibodies specific for C1 and U1, and in the
B10
.Q(BALB/cxB10.Q)F2 mice the antibodies specific for C1, U1 and J1, correlated with the development of chronic
arthritis
. Injection of monoclonal antibodies against these epitopes induced relapses in chronic arthritic mice. The development of chronic relapsing
arthritis
, initially induced by CII immunization, is associated with an arthritogenic antibody response to certain CII epitopes.
Arthritis
Res Ther 2005
PMID:Chronic development of collagen-induced arthritis is associated with arthritogenic antibodies against specific epitopes on type II collagen. 1620 32
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