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Query: UNIPROT:P06889 (
Mol
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630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Complement proteins of the classical pathway can be immunohistochemically identified in cerebral amyloid plaques in Alzheimer's disease. Microglial cells in and around amyloid plaques express class II major histocompatibility (MHC) antigens and complement receptors CR3 and CR4. Negative immunostaining for immunoglobulins and for T-cell subsets in the brain parenchyma demonstrates a lack of evidence for the involvement of specific immune responses (such as an immune complex-mediated complement activation or a cell-mediated immune response) in cerebral amyloid deposits in Alzheimer's disease. Cerebral amyloid plaques in scrapie-affected mice (slow-virus induced encephalopathy) do not contain complement factors C1q and C3c and are not clustered with microglial cells expressing
MHC class II
molecules or complement receptor CR3. The data presented suggest the induction of a reactive inflammatory process by beta/A4 amyloid in the human brain, but not by scrapie-induced PrP amyloid in mice. Our findings do not support the hypothesis that the immune system is involved in the generation of amyloid plaques in Alzheimer's disease.
Virchows Arch B Cell Pathol Incl
Mol
Pathol 1991
PMID:Cerebral amyloid plaques in Alzheimer's disease but not in scrapie-affected mice are closely associated with a local inflammatory process. 168 40
The T cell response to L-tyrosine-azobenzenearsonate (ABA-tyr) has been studied using T cell lines and clones derived from three different mouse strains, B10.BR, B10.A (5R) and C57B1/6. In all cases, the arsonate group in conjunction with the amino group of tyrosine formed the functional T cell epitope. Molecules without any one or both of these groups are non-stimulatory. The hydrophobic moiety consisting of the azo-linked benzene rings forms the agretope of the molecule, as is evident from competitive inhibition of T cell stimulation by non-stimulatory analogues lacking the epitope. Substitutions on the benzene ring at ortho or meta positions resulted in decreases in ability to compete, indicating the likelihood of steric inhibition of binding of the agretope with the Ia molecule. This pattern was observed for clones and lines restricted by IAk, IAb and IEb/k
MHC class II
molecules. Peptides from lambda repressor protein, P84-98 and P73-88, showed haplotype specificity in their ability to inhibit ABA-tyr-induced proliferation of T cell clones, BRTC-4 and B6TC, respectively. The binding constants of ABA-tyr analogues were considered to be comparable to those of lambda repressor peptides because equimolar concentrations resulted in similar levels of competition. A cluster of aromatic amino acids on the floor of most
MHC class II
molecule binding sites might provide strong hydrophobic interaction with azo-linked benzene rings of ABA-tyr, thus accounting for its immunogenicity in all strains of mice studied.
Mol
Immunol 1990 Jan
PMID:The presentation of L-tyrosine-azobenzenearsonate by different mouse Ia molecules uses a common agretope. 169 Mar 51
The regulatory mechanisms controlling expression of the major histocompatibility complex (MHC) class II genes involve several cis-acting DNA elements, including the X and Y boxes. These two elements are conserved within all murine and human class II genes and are required for accurate and efficient transcription from
MHC class II
promoters. Interestingly, the distance between the X and Y elements is also evolutionarily conserved at 18 to 20 bp. To investigate the function of the invariant spacing in the human
MHC class II
gene, HLA-DRA, we constructed a series of spacing mutants which alters the distance between the X and Y elements by integral and half-integral turns of the DNA helix. Transient transfection of the spacing constructs into Raji cells revealed that inserting integral turns of the DNA helix (+20 and +10 bp) did not reduce promoter activity, while inserting or deleting half-integral turns of the DNA helix (+15, +5, and -5 bp) drastically reduced promoter activity. The loss of promoter function in these half-integral turn constructs was due neither to the inability of the X and Y elements to bind proteins nor to improper binding of the X- and Y-box-binding proteins. These data indicate that the X and Y elements must be aligned on the same side of the DNA helix to ensure normal function. This requirement for stereospecific alignment strongly suggests that the X- and Y-box-binding proteins either interact directly or are components of a larger transcription complex which assembles on one face of the DNA double helix.
Mol
Cell Biol 1991 May
PMID:Stereospecific alignment of the X and Y elements is required for major histocompatibility complex class II DRA promoter function. 190 41
Study of the
MHC class II
region is complicated by strong linkage disequilibrium between DR and DQ. Comparison of DR-DQ haplotypes between different races partly resolves this problem. We present the results of an analysis of DRB, DQA and DQB restriction fragment length polymorphisms in serologically DR-typed subjects of Negroid origin. Clearly distinguishable DRB RFLPs were observed for DR1,2,5,7 and w8. DR4,9 and w10 were uncommon in this group. DR3 was associated with two extended haplotypes, one characterised by the DQw4 allele, the other by the DQw2 allele. A recently recognised DQB RFLP (DQB 2c) was associated with DR7 and also occurred on DR5 and DR9 haplotypes. Both DR5 and DRw6 were heterogeneous in their DR-DQ relationships. Negroid subjects exhibit DR-DQ relationships distinct from other races. These provide scope for further study of
MHC class II
associations with disease.
Mol
Immunol 1990 Mar
PMID:Analysis of MHC class II DNA polymorphisms in Negroid subjects. 197 22
We have investigated the expression of intercellular adhesion molecule-1 (ICAM-1) by novel functional human thyroid cell lines (designated SGHTL). ICAM-1 is constitutively expressed and it is rapidly upregulated in response to each of the recombinant cytokines: gamma-interferon, interleukin-1 and tumour necrosis factor. This contrasts with the more slowly increased expression of major histocompatibility complex (MHC) class II antigens in response to gamma-interferon alone. We have also demonstrated binding of activated lymphocytes to SGHTL cells: this interaction is increased following treatment with these cytokines and is inhibited by monoclonal antibodies directed against ICAM-1 or lymphocyte function-associated antigen-1 (LFA-1) but not by antibodies against CD2 or
MHC class II
antigens. Hence, we conclude that the binding of lymphoblasts to human thyroid cells involves an LFA-1- and ICAM-1-dependent pathway as well as other basal and cytokine-inducible pathway(s). These do not appear to involve
MHC class II
antigens, CD2 or an LFA-1 ligand other than ICAM-1.
Mol
Cell Endocrinol 1990 May 28
PMID:Expression of intercellular adhesion molecule-1 (ICAM-1) on human thyroid cells lines correlated with their binding of lymphoblasts. 197 27
The invariant chain (Ii) is a glycoprotein coexpressed with the major histocompatibility complex (MHC) class II antigens. Although Ii is encoded by a single gene unlinked to the MHC gene complex, Ii and
MHC class II
appear to have similar patterns of tissue specific expression and generally are coordinately regulated by cytokines. Here we present evidence that transcription of the murine Ii gene is controlled by multiple cis-acting elements. The 5' regulatory region of the Ii gene appears to be combined of conserved class II regulatory elements with promoter elements commonly found in other eucaryotic genes. A region containing characteristic class II promoter elements (H box, X box, and a modified Y box) serves as an upstream enhancer in the Ii gene and might contribute to the coexpression of
MHC class II
and Ii genes. A series of positive control elements, the kappa B element, Sp1-binding site, and CCAAT box, are present in the Ii promoter and apparently serve distinct regulatory functions. The kappa B site in the Ii gene is a cell type-specific element, contributing to expression in a B-cell line but not in a fibroblast cell line, and the Sp1 site is required by the H-X-Y' enhancer element to stimulate promoter activity. In addition, an Ii enhancer in the first intron that specifically stimulates its own promoter has been identified. Our results suggest that a sequence match between enhancers and certain promoter elements is critical.
Mol
Cell Biol 1990 Aug
PMID:Transcriptional control of the invariant chain gene involves promoter and enhancer elements common to and distinct from major histocompatibility complex class II genes. 211 16
B lymphocytes cultured with LPS show increased expression of Fc gamma R II and increased binding of Ag-IgG complexes (both greater than 200%). In contrast, B lymphocytes cultured with either IL-4 or anti-mu show a marked loss (85-90%) of binding of Ag-IgG complexes that is specific, time and temperature dependent, and reversible. Decreased binding of complexes was not due to decreased expression of the receptor and therefore appears to be due to some form of alteration of the receptor. Based on the observation that the loss of binding of complexes requires protein synthesis, we favor the view that the loss is due to association of Fc gamma R II with another membrane molecule whose expression is induced or increased by IL-4 or anti-mu. Anti-mu induced loss of Fc gamma R II ligand binding capacity does not require cross-linking of surface IgM because the effect can be generated with F(ab') anti-mu. Anti-mu induced loss of Fc gamma R II binding of complexes was substantially prevented by IFN-gamma, whereas IFN-gamma did not reduce the anti-mu caused increase in expression of
MHC class II
molecules. This result shows that increased expression of the latter molecules can be dissociated from loss of Fc gamma R II ligand binding capacity. A myeloid cell line was identified that constitutively expresses Fc gamma R II binds relatively few complexes. This cell line may be useful in identifying alterations of Fc gamma R II which lead to the loss of binding of complexes. These results indicate that various B lymphocyte activators have different effects on B lymphocyte expression and function, and can thereby affect Fc gamma R II generated regulatory signals.
Mol
Immunol 1990 Dec
PMID:Regulation of Fc gamma R II expression and function by B lymphocyte activators. 214 3
Evidence from epidemiological and histopathologic studies in humans with autoimmune type 1 (insulin-dependent) diabetes suggests that beta-cell destruction within the islets of Langerhans progresses through a number of stages. In this review we draw on recent experimental evidence in an attempt to define the molecular pathology of these stages. Stage 1 is postulated to be initiated by modification of the beta cell by virus, chemical or other factors, leading to the production of interferon-alpha, hyperexpression of major histocompatibility complex (MHC) class I molecules and induction of
MHC class II
molecules. Experiments in transgenic mice suggest that overexpression of MHC molecules is in itself detrimental to beta-cell function. Shedding of antigen(s) from dying beta cells in combination with hyperexpression of MHC molecules may be a powerful immunogenic stimulus. Stage 2 commences with infiltration of the islets by immuno-inflammatory cells (termed insulitis). It is proposed that production of cytokines from the infiltrating cells induces "phenotypic switching" in beta cells, with further upregulation of MHC molecules and the induction of intracellular adhesion molecule-1 expression and interleukin-6 production. Together, these properties are seen as a prerequisite for the presentation of autoantigen by beta cells to adherent T lymphocytes and autoimmune activation. The final stage encompasses autoimmune-mediated destruction of the beta cells by the targeted delivery of cytotoxic cytokines and other mediators.
Mol
Biol Med 1990 Aug
PMID:Molecular pathology of type 1 diabetes. 223 44
The regulation of major histocompatibility complex (MHC) class II gene expression is a key feature of the control of normal and abnormal immune responses. In humans, class II alpha - and beta-chain genes are organized in a multigene family with three distinct subregions, HLA-DR, -DQ, and -DP. The regulation of these genes is generally coordinated, and their promoters contain highly conserved motifs, in particular the X and Y boxes. We have identified five distinct proteins that bind to specific DNA sequences within the first 145 base pairs of the HLA-DR promoter, a segment known to be functionally essential for class II gene regulation. Among these, RF-X is of special interest, since mutants affected in the regulation of
MHC class II
gene expression have a specific defect in RF-X binding. Unexpectedly, RF-X displays a characteristic gradient of binding affinities for the X boxes of three alpha-chain genes (DRA greater than DPA much greater than DQA). The same observation was made with recombinant RF-X. We also describe a novel factor, NF-S, which bound to the spacer region between the X and Y boxes of class II promoters. NF-S exhibited a reverse gradient of affinity compared with RF-X (DQA greater than DPA much greater than DRA). As expected, RF-X bound well to the mouse IE alpha promoter, while NF-S bound well to IA alpha. The drastic differences in the binding of RF-X and NF-S to different
MHC class II
promoters contrasts with the coordinate regulation of HLA-DR, -DQ, and -DP genes.
Mol
Cell Biol 1990 Mar
PMID:Two DNA-binding proteins discriminate between the promoters of different members of the major histocompatibility complex class II multigene family. 230 71
Monoclonal antibodies, 21w4 and 44H10, against human
MHC class II
determinants, were analysed for their reactivity with rabbit lymphoid cells. Both MAb bind to all human B lymphoblastoid lines, irrespective of their HLA-DR phenotype. HLA-DR antigens, purified by affinity to 21W4 IgG Sepharose, can be precipitated with 44H10 MAb, indicating that both antibodies react with the same molecules. Competitive inhibition studies with purified MAb IgG show that 44H10 and 21w4 recognize different epitopes of HLA-DR molecules. The 21w4 MAb, previously shown to cross-react with cells of pig, mouse and sheep, does not react with rabbit lymphoid cells. The 44H10 MAb binds to lymphoid cell suspensions prepared from rabbit appendix, spleen and mesenteric lymph nodes. Its reactivity correlates with that of RABELA, a polyclonal antibody specific for rabbit B cells. Mesenteric lymph node and spleen cell suspensions, depleted of sIg+ cells, are devoid of 44H10+ cells, while similarly-treated appendix B cells still contain a subset of B cells which are sIg-, RABELA+ and 44H10+. These studies thus report on the presence of
MHC class II
determinants on rabbit B cells, cross-reacting with human HLA-DR.
Mol
Immunol 1988 Aug
PMID:Cross-reaction of a monoclonal antibody to human MHC class II molecules with rabbit B cells. 246 Jul 57
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