Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06126 (CD1a)
 2,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The distribution of CD1a-positive Langerhans cells, CD4-positive T-helper cells, and CD8-positive T-suppressor cells in 36 patients with transitional cell carcinoma of the urinary bladder was studied immunohistochemically on frozen sections. Multiple tissue specimens from the tumour, the adjacent mucosa, and random bladder wall biopsies were examined. Langerhans cells were mainly interspersed among the tumour cells, whereas T-helper cells were present in aggregates in the stroma. T-suppressor cells were present both in aggregates in the stroma and among the tumour cells. There was a marginal relationship between the density of Langerhans cells and the density of T-helper/inducer cells and a good relationship with CD8-positive cells. There was no statistically significant difference in the population density of Langerhans cells associated with the various clinicopathological variables, including growth pattern, histological grade and stage, or patient's age and sex. On the contrary, a statistically significant difference was found in the CD1a/CD4 ratio among specimens of different grades. These results show that CD1a cell populations correlate with T-cell populations in bladder cancer, suggesting that Langerhans cells take part in the immune response carried out by T lymphocytes, their task being apparently antigen presentation.
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PMID:Distribution of CD1a-positive Langerhans cells and lymphocyte subsets in transitional cell carcinoma of the urinary bladder. An immunohistological study on frozen sections. 856 95

Evidence for the involvement of cellular immunity in the etiopathogenesis of the hypopigmentary disorder vitiligo is provided by rare cases of inflammatory vitiligo. Nonlesional, perilesional, and lesional skin biopsies from three inflammatory vitiligo patients were immunohistochemically analyzed. The composition of inflammatory infiltrates present in perilesional skin was analyzed by antibodies to T cells (CD2, CD3, CD4, and CD8), Langerhans cells (CD1a), and macrophages (CD36 and CD68). The presence of activation markers on inflammatory cells was evaluated by analysis of HLA-DR, interleukin-2 receptor, and HECA452 expression. The presence or absence of melanocytes was determined by the antibody NKI-beteb. Moreover, the abundance of matrix molecule tenascin was semi-quantified using T2H5. Results indicate that within perilesional skin, epidermis-infiltrating T cells exhibit an increased CD8/CD4 ratio and increased cutaneous lymphocyte antigen and interleukin-2 receptor expression. These cells are frequently juxtapositionally apposed to remaining melanocytes. In perilesional dermis, CD68+OKM5- macrophages were more numerous than in lesional or nonlesional skin. Keratinocytes as well as melanocytes consistently express major histocompatibility complex class II antigens along stretches of basal and suprabasal layers in perilesional epidermis. Moreover, inflammation is accompanied by increased tenascin content. Although these observations do not permit differentiation between the immune infiltrates being a result as opposed to the cause of the disease process, results presented in this study are very suggestive of involvement of local immune reactivity in melanocyte destruction.
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PMID:Presence of T cells and macrophages in inflammatory vitiligo skin parallels melanocyte disappearance. 864 62

Determination was made of epidermal Langerhans cell (LC) distribution and infiltrating cellular events in lesional skin during varicella zoster virus (VZV) infection, and the results were compared with those for herpes simplex (HS), measles, and rubella by immunohistochemical staining with cell surface markers. CD1a positive epidermal LCs increased in number, particularly in measles and rubella. The number of LCs was within the normal range or slightly increased in the epidermis of VZV infection. In herpes zoster (HZ) and varicella, HLA-DR positive epidermal cells were present in the basal part of the epidermis. In measles, HLA-DR positive cells aggregated in papular lesions. In measles and rubella, the number of HLA-DQ positive epidermal cells appeared to increase. In HS cases, CD11b (OKM1) positivity of the upper epidermal keratinocytes was quite pronounced, but not in the basal layer. CD8 positive suppressor/cytotoxic cells extensively infiltrated the dermis of HZ and varicella. Dermal infiltrates were identified as CD8 positive cell dominant in measles, HZ, and varicella. These results provide a partial explanation as to why cellular events in skin lesions act immunosuppressively.
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PMID:Immunohistochemical study of cellular events in lesional skin during common virus infections. 872 Feb 54

The human dermis contains a heterogeneous network of cells with a dendritic morphology, including factor XIIIa+ dermal dendrocytes and CD34+ dendritic cells located around epidermal adnexae. Whereas dermal dendrocytes have been immunohistochemically studied, CD34+ dermal cells have not yet been well characterized. We studied by simple and double immunolabeling techniques on tissue sections of normal human skin the phenotype of these cells and found them to express vimentin and Te7 but none of the remaining markers sought (factor XIIIa, von Willebrand factor, CD1a, CD3, CD4, CD8, CD14, CD25, CD36, CD45, CD54, CD56, LFA-1, EGF-R, S-100 protein, Mac 387, and muscle-specific actin). Rare CD34+ cells of the interstitial dermis expressed human leukocyte antigen (HLA)-DR antigens, but this was not the case for periadnexal CD34+ cells. These results show that CD34+ dendritic cells of human dermis are mesenchymal cells bearing a unique immunophenotype different from that of (myo)fibroblasts, monocytes-macrophages, Langerhans cells, and factor XIIIa+ dermal dendrocytes. Whereas the involvement of CD34+ cells in some cutaneous tumors is well known, their physiologic role in normal skin remains to be established. On the basis of our results, we speculate that these cells could represent uncommitted mesenchymal cells, unique by virtue of CD34 antigen expression.
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PMID:Immunohistochemical study of CD34-positive dendritic cells of human dermis. 979 Jan 22

The prevalence of anoperineal diseases, i.e. sexual transmitted infections, is increasing particularly in AIDS, a fact which is likely due to the alteration of mucosal immunity. However, no data were available on normal anal status. In order to study anal immunity in man, we characterized lymphocytes subtypes and Langerhans' cells (LC) using quantitative morphometric analysis and immunohistochemistry. Anal normal mucosal samples obtained from surgical specimens of 45 patients (30 suffering from hemorrhoids and 15 from fissurations) were analyzed. Immunohistochemistry was performed on frozen sections with antibodies recognizing CD1a (LC), CD3 (T lymphocytes), CD4 (T4), CD8 (T8) and CD22 (B-lymphocytes). Immunostained cells were counted per square millimeter of mucosal epithelium. The surface of CD1a cells was measured using a computerized software program and a percentage of CD1a immunostained area was calculated in comparison to the whole mucosal surface. LC and T-Lymphocytes were found in the squamous epithelium in all analyzed samples. The mean values of LC number were 84.13 +/- 9.6 and 64.77 +/- 9.8 in hemorroid- and fissure-patients, respectively. The mean values of LC area (% of CD1a stained area over total mucosal surface) were 3.89 +/- 0.44 and 4.84 +/- 0.64, respectively. In the two groups, the number of intraepithelial CD8 lymphocytes was higher than that of CD4 lymphocytes. These data suggest for the first time that anal mucosa could be considered as a part of MALT system.
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PMID:Quantitative analysis of the immune cells in the anal mucosa. 882 6

The CD1 family of proteins are structurally related to MHC class I proteins, but are only distantly related to the class I proteins or other MHC-linked class I-like proteins. Sequence comparisons indicate that the CD1 proteins have evolved into two subfamilies, those which are similar to human CD1a, b, and c and those which are similar to human CD1d. The CD1A-, B-, and C-like genes were deleted from rodents and the CD1D gene was duplicated. CD1a, b, and c are expressed by thymocytes, dendritic cells, activated monocytes, and B cells (CD1c), a tissue distribution which strongly suggests a role in antigen presentation. In contrast, CD1d and its murine homologues are expressed by many cells outside of the lymphoid and myeloid lineages. The CD1 proteins are in most cases expressed as beta 2mg-associated membrane glycoproteins, but may associate with additional proteins. CD1d is expressed on the surface of intestinal epithelial cells in a nonglycosylvated form without beta 2mg. Whether the CD1 proteins function as antigen-presenting molecules is unresolved, but it is unlikely that they present conventional peptide antigens. Strong evidence indicates that murine CD1 proteins are recognized by a population of NK1.1+, CD4+ or CD4-CD8- (double negative, DN) T cells which express an invariant TCR alpha chain. CD1d is most likely recognized by the homologous T cell population in humans. DN alpha beta T cells which recognize CD1a, b, or c have been isolated, including clones which recognize a lipid antigen from mycobacteria presented by CD1b. A third potential population of CD1 reactive cells are CD8+ T cells in the intestinal epithelium. Taken together, these observations indicate that CD1 proteins interact with several specialized populations of T cells. The precise biological functions mediated through these interactions remain to be determined.
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PMID:Structure and function of the CD1 family of MHC-like cell surface proteins. 884 79

The characteristics of a feline homologue of CD1, defined by a murine monoclonal antibody, Fe1.5F4 (IgG1), are described. This antibody precipitated a 49 kDa protein from biotinylated feline thymocyte extract in conjunction with a 14 kDa protein, consistent with beta 2 microglobulin subunit. The tissue distribution of this antigen was restricted to cortical thymocytes and antigen presenting cells of the thymic medulla, epidermis (Langerhans cells), dermis and occasional dendritic cells in the mantle and periarteriolar lymphoid areas of the spleen. Although flow cytometry demonstrated a continuous distribution of antigen expression on thymocytes, antigen density was found to decrease with age, consistent with physiological thymic involution. Thymocytes with high density expression of this antigen were predominantly restricted to cells with dual expression of CD4 and CD8 as defined by feline specific murine monoclonal antibodies Fe1.7B12 (IgG1) and Fe1.10E9 (IgG1) respectively. The tissue distribution of this CD1 homologue indicates that it is a member of the classic thymic CD1 family. This feline homologue of CD1 was distinct from CD1c by virtue of its lack of expression in peripheral blood and splenic mantle zone B cells. An unequivocal distinction could not be made between CD1a and CD1b based on tissue distribution due to species variation in expression of these CD1 molecules. Although the biochemical characteristics of this feline CD1 homologue more closely match with CD1a. The pattern of tissue expression and biochemical characteristics of the feline CD1 antigen appear largely similar to those described for human and other species.
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PMID:A feline homologue of CD1 is defined using a feline-specific monoclonal antibody. 909 31

Classical MHC class I glycoproteins (HLA-A, B, and C) present endogenous cytosolic peptide antigen fragments to CD8-positive T-cells. CD8-positive T-cell recognition and destruction of virus-infected cells are dependent on adequate cellular MHC class I expression. Constitutive MHC class I expression is ubiquitous, but known to be deficient on specific differentiated cell types which include hepatocytes, neurones, chondrocytes and myocytes. Although enabling assessment of MHC class I expression on individual cells, limitations of immunocytochemistry were encountered with this assessment on Langerhans cells and melanocytes. These dispersed intraepidermal cells were obscured by adjacent keratinocytes in sections immunostained for MHC class I glycoproteins. Initiatives designed to resolve the issue have included immunoelectron microscopy, cell culture techniques, and animal bone marrow chimera models. Despite the elegance of these techniques, the issue of MHC class I expression on Langerhans cells and melanocytes remains unresolved. In this immunocytochemical study, an alternative strategy was based upon the recognized deficiency of epithelial MHC class I expression within pilosebaceous adnexal units. Langerhans cells and melanocytes were therefore studied within this microenvironment of deficient MHC class I expression, using monomorphic and polymorphic MHC markers. Langerhans cells and melanocytes were demonstrated within pilosebaceous units of scalp skin by immunocytochemistry. Differentiation markers OKT6 (CD1a) and TMH1 defined Langerhans cells and melanocytes, respectively. Monomorphic MHC markers W6/32 and TAL IB5 defined invariant epitopes of HLA class I and II, respectively. Polymorphic MHC class I markers defined the HLA-Bw4 and HLA-Bw6 supertypic determinants. Constitutive MHC class I expression was shown to be deficient on Langerhans cells and melanocytes.
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PMID:An immunocytochemical study of MHC class I expression on human Langerhans cells and melanocytes. 919 40

Immunophenotyping of cells by flow cytometry has become a routine test to diagnose pulmonary and mediastinal diseases. Peripheral blood, extravascular fluids, bronchoalveolar lavage (BAL) and suspension of single cells obtained by fine-needle aspiration can be used. Peripheral blood (MOAb for immunophenotyping of lymphocytes: CD14, CD45, CD3, CD19, CD4, CD8, CD16/56, HLA DR, CD38, CD25) is the material of choice for detection and monitoring of immunodeficiences. BAL (MOAb for immunophenotyping of lymphocytes: CD14, CD45, CD3, CD19, CD4, CD8, CD16/56, HLA DR) is used mainly for differential diagnosis of extrinsic allergic alveolitis (low CD4/CD8 ratio) and sarcoidosis (high CD4/CD8 ratio). The enumeration of alveolar macrophage subsets is an important tool to establish diagnosis of histiocytosis X (CD1a > 3%). Extravascular fluids, suspension of single cells and BAL are preferred materials for detection and classification of non-Hodgkin lymphomas (MOAb for immunophenotyping of lymphocytes: CD14, CD45, CD3, CD19, CD4, CD8, CD16/56, HLA DR, CD38, CD25, CD23, CD5, CDl1c, CD30, light chain immunoglobulins).
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PMID:[Flow cytometry for extensive thoracic diagnosis]. 920 29

The Phenotype and distribution of immunocompetent cells in oral leukoplakia with different levels of dysplasia were analyzed. Cells were identified in two compartments of the oral mucosa, the epithelium and subepithelial connective tissue. One hundred cases of neutral-buffered formalin-fixed paraffin embedded biopsy materials including 10 cases of acetone-fixed frozen tissue sections were studied immunohistochemically. In the main lymphoid population of each groups, the T lymphocytes predominated over the B lymphocytes. The lymphoid cells were present either as diffuse aggregates or organized in follicular patterns with or without germinal center-like structures. When present, B lymphocytes were seen to constitute the above mentioned structures. T lymphocytes made up the paracortical areas. A decrease in CD4/CD8 ratio was observed in cases with severe dysplasia. Specimens classified as mild to severe dysplasia presented a significant increase in the number of CD1a (+) dendritic Langerhans cells when compared with those of epithelial hyperplasia. A significant increase in macrophage count was also obtained in the subephitelial connective tissue of all dysplastic cases. A significant increase of CD57 (+) natural killer/killer cells in the subephitelial connective tissue and HLA-DR expression by the keratinocytes was observed in cases with severe dysplasia. Correlation and analysis of the results revealed an immunocellular reaction that varied according to the degree of dysplasia in oral leukoplakia. Immunologic events, i.e. decreased CD4/CD8 ratio, increased density of natural killer/killer cells and HLA-DR expression by keratinocytes, occurring simultaneously in severe dysplasia are speculated to be indicative of early malignant transformation.
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PMID:Histological and immunochemical studies of oral leukoplakia: phenotype and distribution of immunocompetent cells. 922 8


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