Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 Bcl-2 proto-oncogene regulates cell survival by antagonizing events that lead to apoptotic cell death and has been reported to be expressed in situ in lymphoid tissues, glandular epithelium, neurons, and basal epidermal cells. When we performed immunostaining on cryostat sections of normal skin, anti-Bcl-2 reactivity was confined to scattered dendritic cells in the basal epidermal layer. Double-staining experiments showed that the Bcl-2+ cells were positive for vimentin but negative for cytokeratins, CD1a, and CD45 antigens, excluding keratinocytes and Langerhans cells as possible candidates for constitutive Bcl-2 expression. Bcl-2+ epidermal cells also reacted with the monoclonal anti-melanocyte antibody NKI/beteb, and were absent from lesional skin in vitiligo, confirming that they represented epidermal melanocytes. Western blot analysis of cultured melanocytes and melanoma cell lines revealed a 26-kd protein specifically reacting with the anti-Bcl-2 monoclonal antibody. Immunostaining of pigmented lesions revealed strong expression of Bcl-2 by five of five nevocellular nevi and seven of seven melanomas. Our observations demonstrate that, within normal human epidermis, melanocytes are the only cells that express Bcl-2 constitutively and that Bcl-2 is expressed in benign and malignant pigmented tumors of the skin in situ.
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PMID:Human melanocytes and melanoma cells constitutively express the Bcl-2 proto-oncogene in situ and in cell culture. 788 47

In lymphoproliferative diseases of the skin, DC have a key role in T- and B-cell homing. Furthermore, DC alterations may have a pathogenic role in the natural history of specific disorders, either in the neoplastic lymphoid cell progression or in antitumoral lymphocyte reaction. Finally, the morphoantigenic and topographic features of DC may have diagnostic and histogenetic relevance in specific conditions. In CTCL, dermal CD1a+ DC ("indeterminate cells") seem to play a significant role in the neoplastic progression of MF, whereas the possible pathogenetic role of specific alterations of epidermal LC is yet to be proven. Recently, a possible implication of DD (resident, perivascular factor XIIIa+/CD1a- DC) in the pathogenesis of MF has been also suggested. The presence and possible significance of DC in CTCL non-MF are presently poorly studied. At present, DC number, distribution, and phenotype seem possibly useful in the differential diagnosis between CTCL and pseudo-CTCL, but this hypothesis has to be adequately confirmed. CBCL has been recently proposed as a unique type of clinically low-grade lymphoma, namely, skin-associated lymphoid tissue (SALT)-related B-cell lymphoma. Both SALT- and mucosa-associated lymphoid tissue (MALT)-related B-cell lymphoma share with a peculiar nodal lymphoma of follicle mantle origin (parafollicular-monocytoid lymphoma) the nonaggressive clinical behavior and the uniform phenotype (CD5-, CD10-) and genotype (lack of bcl-2 gene rearrangement) of neoplastic B cells, despite the wide variability of cytomorphologic appearances. The putative origin of CBCL is further supported by the typical CD14-, nerve growth factor receptor (NGFr)+ immunophenotype of DRC. Moreover, the immunophenotype and architectural fashion of DRC are interesting clues to the differentiation between neoplastic and true reactive folliclelike nodules and may be of help in the differential diagnosis between CBCL and B-cell pseudolymphoma as well as in the correct interpretation of lesions showing monoclonal proliferations of B cells accompanied by polyclonal follicular reactions.
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PMID:Dendritic cells in T- and B-cell proliferation in the skin. 804 37

Mononuclear phagocytes and dendritic cells (DC) play an important role in the immune response in the lung. DC act in the afferent phase of the immune response by presenting antigen to T cells, while macrophages play a role in the efferent phase by exerting phagocytic/cytotoxic functions. We investigated the localization and the marker pattern of these cells in the human lung. Macrophages, identified as large, rounded, acid phosphatase-positive cells, were mainly detected in the alveolar spaces, in the lumen of the bronch(iol)us, and in the bronchoalveolar lavage (BAL). They were positive for major histocompatibility complex (MHC) class II antigens (DR, DQ), CD68, RFD7, RFD9, and partly positive for RFD1. Irregularly shaped cells with a marker pattern comparable to that of blood-derived DC (positive for DR, DQ, L25, RFD1, and CD68) were predominantly observed in the epithelium and subepithelial tissue of the bronch(iol)us and in the bronchus-associated lymphoid tissue. In the epithelium, approximately 30% of these cells were positive for CD1a (OKT6). In the subepithelial tissue, these DC formed characteristic small clusters with T cells. The BAL, the alveolar spaces, and the alveolar walls contained only a small number of DC. These immunohistologic data suggest that the bronch(iol)us is well equipped to initiate immune responses. The high number of macrophages in the alveolar compartment, which have been described to suppress T cell proliferation, together with low numbers of DC, makes the alveolar compartment less suited for mounting an immune response.
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PMID:Distribution and immunophenotype of mononuclear phagocytes and dendritic cells in the human lung. 817 11

The upper airway is the first site of exposure to inhaled antigens and the site of initiation of mucosal immunity to certain antigens; however, the intraepithelial lymphoid populations of this region have not been well characterized. We studied 6-mu frozen tissue sections from tonsils, adenoids, and nasal mucosae using immunohistochemistry and a panel of antibodies to mononuclear antigens to determine whether nasal mucosa contained distinctive populations of mononuclear cells. Intraepithelial lymphocytes (IELs) of nasal mucosa were CD3+, CD8+, and mainly CD5+. Tonsil and adenoid both showed diffuse CD8+ IELs; clusters of CD4+ IELs were associated with B cells within the crypt epithelium. All nasal IELs were uniformly negative for Leu8 (homing receptor analog of Mel14). Scattered Leu8-positive cells were present within tonsil and adenoid crypt epithelium only. Nasal IELs rarely expressed HML1 and were often CD7-, whereas the majority of tonsillar and adenoidal IELs were HML1+ and variably CD7+. In nasal mucosa and in deep submucosa of tonsil and adenoid, 80 to 90% of T cell receptor expression was of alpha/beta type. There was a concentration of gamma/delta T cell receptor-positive cells in intraepithelial and subepithelial zones of tonsil and adenoid, with areas of up to 30% gamma/delta T cell receptor positivity. A population of intraepithelial dendritic cells was identified in all three tissues expressing mononuclear phagocyte system antigens CD14 and KiM1P, but lacking CD1a. Virtually no B cells and no organized subepithelial lymphoid tissue were identified in nasal mucosa. Nasal mucosal lymphoid tissue seems to differ from that of endodermally derived mucosae, tonsil, and adenoids to share similarities with both mucosa-associated lymphoid tissue and peripheral lymph nodes.
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PMID:Immunohistochemical characterization of intraepithelial and subepithelial mononuclear cells of the upper airways. 823 57

Dendritic cells (DC) comprise a system of cells in lymphoid and nonlymphoid organs that are specialized to present antigens and to initiate primary T cell responses. The Langerhans cell of the epidermis is used as a prototype for studies of DC in the skin. We have characterized a population of DC in human dermis, one of the first examples of these cells in nonlymphoid organs other than epidermis. To identify their distinct functions and phenotype, we relied upon the preparation of enriched populations that emigrate from organ explants of dermis. The dermal cells have the following key features of mature DC: (a) sheet-like processes, or veils, that are constantly moving; (b) very high levels of surface MHC products; (c) absence of markers for macrophages, lymphocytes, and endothelium; (d) substantial expression of adhesion/costimulatory molecules such as CD11/CD18, CD54 (ICAM-1), B7/BB1, CD40; and (e) powerful stimulatory function for resting T cells. Dermal DC are fully comparable to epidermis-derived DC, except for the lack of Birbeck granules, lower levels of CD1a, and higher levels of CD36. DC were also detected in explants of mouse dermis. We conclude that cutaneous DC include both epidermal and dermal components, and suggest that other human nonlymphoid tissues may also serve as sources of typical immunostimulatory DC.
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PMID:Human and murine dermis contain dendritic cells. Isolation by means of a novel method and phenotypical and functional characterization. 825 16

Dendritic cells (DC) have been isolated from blood, lymphoid tissue, and other tissues, as potential members of a hemopoietic lineage of specialist APC for naive T lymphocyte activation. To define human bone marrow (BM) DC we have attempted to identify allostimulatory cells with DC-like characteristics among human BM mononuclear cells (BMMC) by FACS cell sorting and immunophenotyping, monitoring the APC function of different cell lineages in the human primary MLR. We show that fresh human BM stimulates allogeneic T lymphocytes with an activity equal to or greater than that of peripheral blood. As with DC from other tissue sources, the most potent stimulatory activity was found in the low density BMMC, and these cells, like peripheral blood, stimulated a maximal allogeneic MLR response at days 5 to 6. FACS purification of the allostimulatory population in fresh human BMMC was undertaken by using a wide range of mAb directed against lineage-associated molecules of mature and immature lymphoid, erythroid, and myeloid cells. The most potent constitutive BMMC stimulatory activity was located in the CD3-, CD11b-, CD14-, CD15-, CD16-, CD19-, CD57-, and glycophorin A- population. A mixture of antibodies to these Ag was used to isolate a "mix-negative" BMMC population, which contained the most highly potent MLR-stimulatory cells. Further cytologic and immunophenotypic analysis of this population revealed an enriched population of HLA-DP+, HLA-DQ+, HLA-DR+, and CD45+ cells, with morphologic similarities to the human tonsil and blood DC. These cells were CD4- and CD1a- and were weakly CD33+ (but CD15-), suggesting a possible early myeloid origin distinct from both the committed granulocytic and monocytic lineages. In addition, they lacked both CD10 and CD20, making a lymphoid origin unlikely. Further identification of these putative DC precursors will allow analysis of the early phases of DC hemopoiesis, whereas the characterization of the MLR-stimulatory cells in human BM will be of major importance in the understanding of BM transplant failure and graft-vs-host disease.
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PMID:Identification of potent mixed leukocyte reaction-stimulatory cells in human bone marrow. Putative differentiation stage of human blood dendritic cells. 845 72

The immunophenotype of 304 adult lymphoblastic leukemias (> 18 years) diagnosed on the basis of the FAB criteria was determined at the time of diagnosis using a panel of monoclonal antibodies. The series comprised cases diagnosed and immunophenotyped in 43 Italian centers (GIMEMA Cooperative Group) between April 1988 and June 1991. The immunophenotypic characterization consisted of two consecutive steps. The initial screening was based on the reactivity for TdT, HLA-Dr, CD7, CD10, CD13, CD19, CD24, CD33 and CD41. According to the results obtained, the second level of investigation assessed the positivity for intra cytoplasmic (Cy) Ig, CD1a, CD2, CD3, CD4, CD5, CD8 and CD20. Based on the hierarchical expression of the different B- and T-cell related antigens, each case was assigned to a given differentiation stage. B-lineage ALL were classified in five subgroups (B0-B4) and T-lineage ALL in four subgroups (T0-T3). Cases in which the blasts were lymphoid according to the FAB criteria, but expressed myeloid antigens in association with B- and T-lymphoid markers were defined as hybrid leukemias. As expected, CD10+ cases (B2-B3) were the most frequent within the B-lineage ALL (83.2% of cases). CyIg+ (B3) accounted for about 20% of CD10+ ALL. Twenty eight cases (13.4%) were at a pre-cALL stage (B0-B1) and of these, 8 (3.8% of the total series) were positive only for TdT and HLA-Dr (B0). Intermediate and mature thymic phenotypes (T2-T3) were predominant within the T-ALL (67.2%) groups. Five cases, were positive only for TdT and CD7 (CD5+), and classified as T0. 9.2% of cases fulfilled the definition of hybrid leukemia, largely in view of the co-expression of B-lymphoid and myeloid markers.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunophenotype of acute lymphoblastic leukemia cells: the experience of the Italian Cooperative Group (Gimema). 847 81

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

Although it is known that dendritic cells (DC) migrate in response to inflammatory stimuli. There is little information about the expression of receptors for chemotactic factors on DC. The present study has demonstrated by double immunostaining and flow cytometry of Langerhan's cell (LC)-enriched epidermal cell suspensions that a small subpopulation (5-6%) of epidermal resident DC (rLC) expresses receptors for C5a (C5aR). Epidermal rLC positive for C5aR show a round-shape morphology, were located next to the basement membrane and express HLA-DR molecules higher than C5aR negative rLC. These observations suggest that rLC would express C5aR as part of their process of maturation during tissue trafficking. To investigate whether epidermal LC up-regulate C5aR along their differentiation pathway. LC were differentiated in vitro after culture in epidermal cell suspensions supplemented with granulocyte macrophage colony-stimulating factor (GM-CSF). As a result, in vitro differentiated LC increased the expression of C5aR up to 69% of the DC population. In accordance with this observation, interdigitating DC of secondary lymphoid organs (lymph node and tonsil) also expressed (5aR. Migratory CD1a positive DC that spontaneously migrated out of dermal or split-skin organ explants were also positive for C5aR and were used for chemotaxis and chemokinesis assays in response to human recombinant C5a (rC5a). Optimum migration to rC5a was observed at 10(-8)M with a sigmoidal dose response curve. Checkboard analysis demonstrated that locomotion in response to rC5a was chemotaxis and not chemokinesis.
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PMID:Expression and modulation of C5a receptor (CD88) on skin dendritic cells. Chemotactic effect of C5a on skin migratory dendritic cells. 891 Nov 50

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


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