UMLS:C0033036 - FACTA Search

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intraepithelial T lymphocytes (IEL) are dispersed throughout the intestinal epithelial lining but their role in cellular immune defense is unknown. Their location suggests that their highly activated state may be due to constant exposure to bacterial Ag. To study IEL specificity and function we have prepared a panel of IEL-T cell hybridomas from both adult and weanling C57B1/6 mice. Many of these expressed TCR-gamma delta, a cell type rare in peripheral lymph nodes and spleen but predominant at epithelial surfaces. We have identified a subset of gamma delta T cells from weanling mice which is self reactive, i.e., these hybrids secrete IL-2 spontaneously, without antigenic stimulation or a requirement for APC. Self-reactive TCR-gamma delta+ hybrids and lines, all of which bear a particular TCR (V gamma 1.1C gamma 4V delta 6), have previously been derived from neonatal thymus and the skin. Northern blot and immunoprecipitation analyses suggest that the self-reactive IEL hybrids also bear a C gamma 4/V delta 6 TCR. Antibody inhibition experiments showed that the self-reactivity of the IEL hybrids is TCR mediated. Spontaneous IL-2 production was blocked by soluble anti-CD3 and anti-TCR-gamma delta antibodies but not by antibodies to the TCR-alpha beta. The self-reactive IEL hybrids lack class II MHC and the class I-like proteins CD1 and TLA but express class I MHC. IEL hybrids may also require the vitronectin receptor as an accessory molecule for their activation because spontaneous IL-2 production is blocked by antibody to the vitronectin receptor as well as by the extracellular matrix protein active site peptide RGDS, but not the control peptide RGES. V gamma 1.1C gamma 4V delta 6 T cells in the thymus, skin, and intestine may represent a small and unique subpopulation of lymphocytes with a potential for autoimmune reactivity at peripheral sites.
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PMID:Self-reactive, T cell receptor-gamma delta+, lymphocytes from the intestinal epithelium of weanling mice. 138 95

In vivo UV exposure of human epidermis abrogates the function of CD1+DR+ Langerhans cells and induces the appearance of CD1-DR+ Ag-presenting macrophages. Epidermal cells from UV-exposed skin, in contrast to epidermal cells from normal skin, potently activate autologous CD4+ T cells, and, in particular, the CD45RA+ (2H4+) (suppressor-inducer) subset. We therefore determined whether UV-exposure in humans leads to a T cell response in which suppression dominates. Autologous blood T cells were incubated with epidermal cell suspensions from in vivo UV-irradiated skin. After activation, repurified T cells were transferred in graded numbers to autologous mononuclear cells (MNC) stimulated with PWM and the resultant IgG production analyzed by ELISA. Relative to T cells activated by unirradiated control epidermal cells, T cells activated by UV-exposed epidermal cells demonstrated enhanced capacity to suppress IgG production (n = 6; p less than or equal to 0.03). Within the T cell population, CD8+ cells stimulated by UV-exposed epidermal cells could be directly activated to suppress PWM-stimulated MNC Ig production if IL-2 was provided in the reaction mixture. The suppressive activity was also transferable with purified CD4+ T cells stimulated by UV-exposed epidermal cells (n = 10; p less than or equal to 0.01), and was radiosensitive. Suppression was decreased when PWM-stimulated MNC were depleted of CD8+ T cells before mixing with CD4+ T cells activated by UV-exposed epidermal cells, suggesting indirect induction of CD8+ Ts cells contained within the responding MNC populations. Indeed, physical depletion of CD45RA+ cells resulted in total abrogation of the suppressor function contained in the CD4+ T cells. Activation of suppressor function was critically dependent on DR+ APC contained in UV-exposed epidermis. The data suggest that UV-exposure modulates cutaneous APC activity in humans, as in mice, such that the dominant immune response is tilted toward suppression. These mechanisms in normal individuals may function to dampen responses to UV-induced endogenous Ag that are pathogenic in autoimmune disorders. However, these mechanisms might also facilitate the growth of UV-induced skin cancers.
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PMID:In vivo ultraviolet-exposed human epidermal cells activate T suppressor cell pathways that involve CD4+CD45RA+ suppressor-inducer T cells. 197 6

For therapeutic medical, cosmetic, and recreational reasons, humans expose themselves to increasing amounts of UVA. However, little is known of the photobiologic events associated with cutaneous carcinogenesis and photoaging that occur as a result of UVA exposure. UVB exposure of human skin abrogates the function of epidermal CD1+DR+ Langerhans cells and induces the appearance of CD1-DR+ non-Langerhans cell APC. This non-Langerhans cell APC population activates autoreactive immunoregulatory T cells that lead to suppressor-effector T cell function. In this report we show that, similarly to UBV, UVA exposure abrogates the function of CD1+DR+ Langerhans cells. However, in contrast to UVB, there is rapid recovery of Langerhans cell antigen-presenting cell activity and that CD1-DR+ non-Langerhans cell APC failed to appear to a significant degree. In keeping with the lack of CD1-DR+ epidermal cells, UVA exposed epidermal cells harvested 3 days after exposure functioned similarly to normal epidermis in that they activated alloreactive T cells but not autoreactive T cells in the absence of added Ag. This was in contrast to UVB irradiated epidermal cells that potently activate autoreactive T cells and contain CD1-DR+ cells. Thus, although both UVA and UVB initially depletes and inactivates CD1+DR+ Langerhans cells, the subsequent APC function of epidermal cells exposed to UVA differ profoundly from that of cells exposed to UVB. UVA radiation is less carcinogenic than UVB; differences in host responses to UV tumors may be linked to the rapid recovery of Langerhans cell function and the lack of induction of CD1-DR+ non-Langerhans cell APC after UVA exposure.
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PMID:Rapid recovery of Langerhans cell alloreactivity, without induction of autoreactivity, after in vivo ultraviolet A, but not ultraviolet B exposure of human skin. 247 Aug 20

We found that human monocytes differentiate into macrophages (Mp) by GM-CSF and M-CSF. The Mp induced by GM-CSF and M-CSF are different in their morphology, cell surface antigen expression and functions. In the course of that study, we found that IL-4 modulate the differentiation of monocytes induced by GM-CSF and M-CSF. IL-4 alone did not induce the proliferation and differentiation of monocytes. IL-4, however, inhibited the proliferative response of monocytes to GM-CSF. When monocytes were incubated with GM-CSF and IL-4 simultaneously, the cells recovered were non-adherent, non-phagocytic, and did not form rosette with EA. The cells were also negative in nonspecific esterase and showed an appearance of dendritic cells (DC). The DC-like cells expressed CD1, DR, DQ and CD11c, but not CD14, CD71 and 710F. The cells showed strong APC activity in alogeneic and autologous mixed lymphocyte reaction (MLR). When monocytes were incubated with M-CSF and IL-4, TRAP positive multinucleated giant cells appeared. Taken together, these results suggest that IL-4 is a principal factor that control the differential development of human monocytes into DC and multinucleated giant cells.
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PMID:[Differentiation and function of human monocytes]. 787 93

Little is known regarding the identification, classification, and function of class II MHC+ dendritic cells in the perivasculature of human connective tissues, such as the dermis. We developed a method for preparing papillary dermal cell suspensions from human keratome strips. Among the class II MHC+ populations of the dermis identified using triple color flow cytometry, cells of monocyte/macrophage lineage (CD45+ CD1- CD11b+ CD11clo-mid CD32+ CD36+ or - CD11a-) and mesenchymal cells of non-bone marrow origin (CD45-) were identified and characterized. Another distinct class II MHC+ subset was identified, which expressed a number of features analogous to epidermal Langerhans cells (LC) and other dendritic APC. These were a numerically minor population comprising only 2.7% +/- 1% (n = 7) of dermal cells. Like LC, they express HLA-DR, CD45, CD1a (albeit at a lower level of expression), CD1c, and CD32 and lack constitutive CD11a or ICAM-1. In contrast to LC, this dermal CD1a+CD1c+ subset expresses CD1b, CD11b, a higher level of CD11c, and intracytoplasmic factor XIIIa. Alloantigen presentation by unfractionated dermal cells was reduced by prior removal of this CD1b+ subset to the same degree achieved by removal of the entire DR+ population (20% of dermal cells), indicating that this was the critical DR+ subset. Cocultures of CD4+ T lymphocytes with cells sorted by flow cytometry into CD1c+DR+, CD1c-DR+ and DR- dermal cell subsets positively identified the CD1c+DR+ population as the most potent of potential APC subsets in human dermis. Thus, in distinction to other dermal macrophage and mesenchymal subsets with elongate morphology, the CD1aloCD1b,c+CD11c(hi)CD11b+CD32+DR+ population in human dermis is highly analogous to cells of LC/dendritic APC lineage in its phenotype and in its exclusive ability to potently present Ag to T lymphocytes. These studies identify and characterize the APC subset most potent in inducing activation of T cells initially entering the perivasculature of human dermis to be of LC/dendritic APC, and not tissue macrophage, lineage.
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PMID:Heterogeneous populations of class II MHC+ cells in human dermal cell suspensions. Identification of a small subset responsible for potent dermal antigen-presenting cell activity with features analogous to Langerhans cells. 840 86

Murine liver contains alpha beta T cells with intermediate TCR (TCRint) as well as alpha beta T cells with bright TCR. Liver TCRint cells express NK1.1 Ag (NK1+ TCRint) and IL-2 receptor beta chain, both of which are NK cell markers and are not expressed on conventional T cells. Liver NK1+ TCRint cells consist of CD4-8- double negative T cells and CD4+ T cells and have V beta 8+ T cell preponderance. They are dependent on class Ib or CD1 molecules of APC for their development. They can also develop thymus independent manner, because athymic nude mice have this population. These NK1+ TCRint cells in the livers of both euthymic and athymic mice were found to be activated by systemic administration of IL-12 and increased NK1 expression (NK1high TCRint) and cytotoxicity against various NK-sensitive and resistant tumors. Cytotoxicity assays after treatment of IL-12 stimulated hepatic MNC with respective Abs and C revealed that CD4+ NK1high TCRint cells are responsible for IL-12 induced cytotoxicity. Although NK1+ TCRint cells were normally few in the lungs, a significant proportion of NK1high TCRint cells with strong cytotoxicity was also induced in the lung by IL-12. Interestingly, adoptive transfer of IL-12 stimulated hepatic MNC into other mice, which were pre-injected with tumors, inhibits hepatic metastases of EL4 cells and pulmonary metastases of 3LL cells as similarly as IL-12 administration. Transfer experiments after treatment of IL-12 stimulated hepatic MNC with respective Ab and C revealed that depletion of either NK1+ cells, CD3+ cells or CD4+ cells but not CD8+ cells greatly impaired antimetastatic effect in both organs. Thus, CD4+ NK1high TCRint cells are a major antimetastatic population, especially, against hematogenous metastases.
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PMID:[The function and role of extrathymic T cells]. 853 54

The receptor for EBV, CD21 is expressed on a population of immature human thymocytes and facilitates infection of these cells by EBV. Thymocytes infected by EBV become responsive to exogenous rIL-2- or CD2-mediated stimulation in vitro. To address whether such costimulation may be provided by thymic presenting cells and to study the cellular effects of EBV infection, the present work utilizes thymocyte cultures containing autologous thymic presenting cells. In the presence of these presenting cells, EBV induces proliferation of thymocytes. EBV infection promotes the formation of adhesions between two populations of cells in an APC responder fashion, and separation of these two populations abrogates the proliferative response to EBV. The response is mediated by IL-2 because Ab blocking of the IL-2R inhibits proliferation as does cyclosporin A. EBV promotes an expansion in the number of CD4+8+ thymocytes, and the proliferating population is vulnerable to TCR/CD3-generated signals, indicating that the responding cells are phenotypically and functionally immature. Finally, addition of exogenous IL-2 to EBV-exposed thymocytes promotes a second wave of proliferation. Phenotypic characterization of the EBV-induced, IL-2-responding cells shows them to express reduced levels of CD1 and a transitional CD4(high)8(low) phenotype. These data characterize the cellular response to EBV infection in thymocytes and may offer insight into EBV-associated T lineage malignancies and autoimmune disorders.
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PMID:EBV induces proliferation of immature human thymocytes in an IL-2-mediated response. 866 90

Mouse CD1 (mCD1) glycoproteins are known to present peptides, while human CD1 molecules present glycolipids. In mice, mCD1-autoreactive NK T cells play critical roles in various immune responses, through the secretion of high amounts of cytokines. This study was initiated to determine whether glycolipids are involved in the autorecognition of mCD1 by NK T cells. Alpha-galactosylceramide (alpha-GalCer) was the only glycolipid tested capable of eliciting an mCD1-restricted response by splenic T cells. Moreover, splenic T cells derived from mCD1-deficient mice were not stimulated by alpha-GalCer, suggesting that the responsive T cells are selected by mCD1. Using cytoflow techniques, we confirmed that, in response to alpha-GalCer, IFN-gamma-secreting cells displayed an NK T cell phenotype. The predominance of IFN-gamma vs IL-4, however, is determined by the type of mCD1+ APC, suggesting the potential for APC regulation of cytokine production by NK T cells. Among a panel of 10 mCD1-autoreactive T cell hybridomas, only the ones that express the typical V alpha 14 J alpha 281 TCR rearrangement of NK T cells responded to alpha-GalCer. Fixation or treatment of mCD1+ APCs with an inhibitor of endosomal acidification and the use of mCD1 mutants unable to traffic through endosome still allowed alpha-GalCer to stimulate NK T cells. Thus, endosomal trafficking and Ag processing are not required for glycolipid recognition. In summary, alpha-GalCer might be the autologous ligand, or a mimic of a glycolipid ligand, involved in the mCD1-mediated stimulation of NK T cells.
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PMID:Selective ability of mouse CD1 to present glycolipids: alpha-galactosylceramide specifically stimulates V alpha 14+ NK T lymphocytes. 975 42

Intracellular pathogens have developed efficient evasion strategies to survive the defenses of the host immune system. In this study, we describe a new escape mechanism utilized by Mycobacterium tuberculosis that involves the down-regulation of the Ag-presenting molecule CD1 from the cell surface of CD1+ APCs. The loss of CD1 from the cell surface is associated with a complete inhibition of the ability of the infected cells to present Ag to CD1-restricted T cells. The down-regulation of Ag-presenting molecules on CD1+ APC by infection with M. tuberculosis is unique for CD1, since the expression of the classical Ag-presenting molecules MHC class I and MHC class II is not influenced. Our data show that efficient down-regulation of CD1 requires infection of the cells with live mycobacteria, since heat killing of the bacteria completely abrogates the effect. The observed down-regulation is not due to the secretion of cytokines or other host- or pathogen-derived factors. Investigation of upstream events responsible for the down-regulation of CD1 revealed that infection with live M. tuberculosis decreased the steady state CD1-mRNA levels. This study introduces a novel evasion mechanism of M. tuberculosis that could contribute to persistence of intracellular infection by avoiding immune recognition.
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PMID:Down-regulation of CD1 on antigen-presenting cells by infection with Mycobacterium tuberculosis. 975 80

Protection against intracellular bacteria by T cells is regulated by Ag-presenting molecules, which comprise classical MHC class I molecules, MHC class II molecules, and nonclassical MHC class Ib molecules. The role of CD1 molecules, which are structurally similar to classical MHC class I gene products, but less polymorphic, is not understood so far. We show that CD1 surface expression increased on APC in Listeria-infected mice. The in vivo treatment with anti-CD1 mAb reduced TGF-beta 2 levels and concomitantly increased secretion of the proinflammatory cytokine TNF, the Th1 cell promoting cytokine IL-12, and the Th1 cell cytokine IFN-gamma at the onset of listerial infection. These findings point to a regulatory role of CD1-reactive cells in the immune response against listeriosis.
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PMID:Cutting edge: anti-CD1 monoclonal antibody treatment reverses the production patterns of TGF-beta 2 and Th1 cytokines and ameliorates listeriosis in mice. 1035 32

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