UNIPROT:P06126 - FACTA Search

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Query: UNIPROT:P06126 (CD1a)
2,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dendritic cells (DC) express the ATP-binding cassette (ABC) transporters P-glycoprotein (ABCB1) and multidrug resistance protein 1 (MRP1; ABCC1). Functionally, both these transporters have been described to be required for efficient DC and T cell migration. In this study, we report that MRP1 activity is also crucial for differentiation of DC. Inhibition of MRP1, but not P-glycoprotein, transporter activity with specific antagonists during in vitro DC differentiation interfered with early DC development. Impaired interstitial and Langerhans DC differentiation was characterized by 1) morphological changes, reflected by dropped side scatter levels in flow cytometric analysis and 2) phenotypic changes illustrated by maintained expression of the monocytic marker CD14, lower expression levels of CD40, CD86, HLA-DR, and a significant decrease in the amount of cells expressing CD1a, CD1c, and Langerin. Defective DC differentiation also resulted in their reduced ability to stimulate allogeneic T cells. We identified the endogenous CD1 ligands sulfatide and monosialoganglioside GM1 as MRP1 substrates, but exogenous addition of these substrates could not restore the defects caused by blocking MRP1 activity during DC differentiation. Although leukotriene C(4) was reported to restore migration of murine Mrp1-deficient DC, the effects of MRP1 inhibition on DC differentiation appeared to be independent of the leukotriene pathway. Though MRP1 transporter activity is important for DC differentiation, the relevant MRP1 substrate, which is required for DC differentiation, remains to be identified. Altogether, MRP1 seems to fulfill an important physiological role in DC development and DC functions.
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PMID:Dendritic cells require multidrug resistance protein 1 (ABCC1) transporter activity for differentiation. 1662 83

Langerhans cell histiocytosis (LCH) is a neoplastic disorder that results in clonal proliferation of cells with a Langerhans cell (LC) phenotype. The pathogenesis of LCH is still poorly understood. In the present study, serial analysis of gene expression (SAGE) was applied to LCs generated from umbilical cord blood CD34+ progenitor cells to identify LC-specific genes and the expression of these genes in LCH was investigated. Besides the expression of several genes known to be highly expressed in LCs and LCH such as CD1a, LYZ, and CD207, high expression of genes not previously reported to be expressed in LCs, such as GSN, MMP12, CCL17, and CCL22, was also identified. Further analysis of these genes by quantitative RT-PCR revealed high expression of FSCN1 and GSN in all 12 LCH cases analysed; of CD207, MMP12, CCL22, and CD1a in the majority of these cases; and CCL17 in three of the 12 cases. Immunohistochemistry confirmed protein expression in the majority of cases. The expression of MMP12 was most abundant in multi-system LCH, which is the LCH type with the worst prognosis. This suggests that expression of MMP12 may play a role in the progression of LCH. These data reveal new insight into the pathology of LCH and provide new starting points for further investigation of this clonal proliferative disorder.
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PMID:Gene expression analysis of dendritic/Langerhans cells and Langerhans cell histiocytosis. 1671 46

Langerhans cells (LCs) play a sentinel role by initiating both adaptive and innate immune responses to antigens pertinent to the skin. With the discovery of various LCs markers including antibodies to major histocompatibility complex class II (MHC-II) molecules and CD1a, intracellular presence of racket-shaped "Birbeck granules," and very recently Langerin/CD207, LCs can be readily distinguished from other subsets of dendritic cells. Femtosecond two-photon laser scanning microscopy (TPLSM) in recent years has emerged as an alternative to the single photon-excitation based confocal laser scanning microscope (CLSM), particularly for minimally-invasive deep-tissue 3D and 4D vital as well as nonvital biomedical imaging. We have recently combined high resolution two-photon immunofluorescence (using anti MHC-II and Langerin/CD207 antibodies) imaging with microspectroscopy and advanced image-processing/volume-rendering modalities. In this work, we demonstrate the use of this novel state-of-the-art combinational approach to characterize the steady state 3D organization and spectral features of the mouse epidermis, particularly to identify the spatial distribution of LCs. Our findings provide unequivocal direct evidence that, in the mouse epidermis, the MHC-II and mLangerin/CD207 antigens do indeed manifest a high degree of colocalization around the nucleus of the LCs, while in the distal dendritic processes, mLangerin/CD207 antigens are rather sparsely distributed as punctuate structures. This unique possibility to simultaneously visualize high resolution 3D-resolved spatial distributions of two different immuno-reactive antigens, namely MHC-II and mLangerin/CD207, along with the nuclei of LCs and the adjacent epidermal cells can find interesting applications. These could involve aspects associated with pragmatic analysis of the kinetics of LCs migration as a function of immuno-dermatological responses during (1) human Immunodeficiency virus disease progression, (2) vaccination and targeted gene therapy, (3) skin transplantation/plastic surgery, (4) ultraviolet and other radiation exposure, (5) tissue-engineering of 3D skin constructs, as well as in (6) cosmetic industry, to unravel the influence of cosmeceuticals.
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PMID:Femtosecond two-photon high-resolution 3D imaging, spatial-volume rendering and microspectral characterization of immunolocalized MHC-II and mLangerin/CD207 antigens in the mouse epidermis. 1694 65

An 8-year-old otherwise healthy girl presented with a 3-month history of multiple asymptomatic, reddish-brown papules over the face and upper limbs. Histopathological and immunohistochemical examinations demonstrated an infiltrate of mononuclear cells containing abundant histiocytic cells in the dermis, and microabscess-like accumulation of the histiocytic cells in the epidermis. The histiocytic cells were positive for antibodies against S-100 protein and CD1a, but negative for anti-CD68. Lag and anti-langerin monoclonal antibodies reacted more weakly with these histiocytic cells than with Langerhans cells in the surrounding epidermis. The skin lesions spontaneously regressed within the following 3 months, and neither systemic involvement nor local recurrence was observed during the next 10 months. This case should be categorized as congenital self-healing reticulohistiocytosis (Hashimoto-Pritzker), although the onset was not early in life.
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PMID:Late-onset self-healing reticulohistiocytosis: pediatric case of Hashimoto-Pritzker type Langerhans cell histiocytosis. 1729 4

Since during the generation of dendritic cells transforming growth factor (TGF)-beta1 is required to generate specifically Langerhans cells, we have addressed whether TGF-beta1 also affects the number and immunophenotype of Langerhans cells within the epidermis. Isolated human epidermal sheets were cultured as follows: serum free; with serum; serum free with TGF-beta1; with serum plus anti-TGF-betal; with serum plus an irrelevant antibody of the same isotype as anti-TGF-beta1. The expression of Langerhans cell antigens was analyzed by immunofluorescence and the preservation of epidermal structure and the expression of E-cadherin by electron microscopy. The number, surface area and perimeter length of Langerhans cells were measured and the results subjected to analysis of variance. Independent of serum, the architecture of the isolated epidermis was well preserved and E-cadherin was expressed for at least 48 h. In cultures without serum, Langerhans cells appeared well preserved when stained for MHC-II antigens. On the contrary, their number, surface area and perimeter length were significantly decreased upon labeling for CD1a and langerin, indicating altered expression and distribution of these differentiation specific antigens. These alterations were not accompanied by the expression of antigens of mature dendritic cells and were almost entirely prevented by serum. TGF-beta1, 1.0 ng/mL, had similar effects as serum on CD1a and langerin expression and distribution within cells, whereas anti-TGF-beta1 antibodies neutralized the effect of serum. The results indicate that Langerhans cells depend on soluble factors for the maintenance of the differentiated state within epidermis and that TGF-beta1 is a major one of such factors.
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PMID:A role for transforming growth factor-beta1 in maintaining the differentiated state of Langerhans cells in human epidermis. 1731 20

Langerhans cell sarcoma (LCS) is a neoplastic proliferation of Langerhans cells that occurs in lymph nodes, liver, skin, spleen, lung, and bone. We report a case of LCS in a 47-year-old man with a 6-month history of scalp mass and cervical lymphadenopathy. Clinical and pathologic data were available. A histologic examination demonstrated a proliferation of cells with malignant cytologic features. Because of its poorly differentiated morphologic features, hematologic and nonhematologic entities were ruled out by immunohistochemical screening with a broad panel of antibodies. Ultrastructural studies demonstrating Birbeck granules and consistent expression of CD1a, S-100 protein, and langerin by immunohistochemistry were helpful in identifying the Langerhans cell origin.
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PMID:Cutaneous Langerhans cell sarcoma: a case report and review of the literature. 1732 88

A number of antigen-presenting cells (APCs) expressing major histocompatibility complex class II (MHC-II) have been identified in healthy human skin including the Langerhans cells of the epidermis and the three recently defined dermal APC subsets. It is well documented that in other tissues HLA-DR expression is not exclusive to APCs. Following a comprehensive analysis of the cells in human skin using flow cytometry and fluorescence immunohistochemistry, we have identified additional cell subsets that express HLA-DR. Using markers exclusive for blood and lymphatic endothelium, we demonstrated that both of these cell populations have the capacity to express HLA-DR. In addition, a small subset of dermal T lymphocytes was found to express low-level HLA-DR suggesting an activated phenotype. Dermal T lymphocytes were often in intimate contact with either CD1a(+) CD207(-) dermal APCs or CD1a(+) CD207(+) dermal Langerhans cells, possibly explaining the activated phenotype of a subset of dermal T lymphocytes.
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PMID:Comprehensive analysis of MHC-II expression in healthy human skin. 1734 64

Langerhans cell histiocytoses (LCH) represent rare diseases of unclear etiology and pathogenesis. Most of the cases include children, 1 to 15 years of age, and various organs are involved (bones, skin, liver, lymph nodes, bone marrow and other). The diagnosis of LCH used to be established by biopsy of the inflamed tissue and demonstration of expression of markers specific for Langerhans cells: CD1a and langerin. The diagnosis can be ultimately confirmed by demonstration of Birbeck's granules in the electron microscopy. The present study was aimed at immunocytochemical demonstration, in the examined LCH material (skin, bones, lymph nodes), of the specific antigen expression and at comparing it with the presence of Birbeck's granules. In the examined 11 cases co-expression of CD1a with langerin and with the presence of Birbeck's granules was noted. Also in all examined biopsies the expression of S-100 protein on inflammatory cells was found. The results corroborate the usefulness of immunocytochemical studies on CD 1 a and langerin expression in diagnosis of LCH.
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PMID:Coexpression of CD1a, langerin and Birbeck's granules in Langerhans cell histiocytoses (LCH) in children: ultrastructural and immunocytochemical studies. 1737 41

Langerhans cells (LCs) are a subset of dendritic cells (DCs) that reside within epidermal and mucosal tissue. Because of their location, LCs are potentially the first cells to encounter human immunodeficiency virus (HIV) during sexual transmission. We report that LCs purified from CD34(+)-derived DCs can facilitate the transinfection of target cells but only after activation. Virions were observed in an intracellular compartment that contains several tetraspanins, in addition to the unique LC markers langerin and CD1a. This reveals that the trafficking of HIV within LCs is reminiscent of that which occurs in mature monocyte-derived DCs and that it varies with the activation state of the cell. The observation that activated LCs can mediate transinfection suggests a potential role for these cells in the known increase in HIV transmission associated with sexually transmitted infections that would cause inflammation of the genital lining.
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PMID:Activated CD34-derived Langerhans cells mediate transinfection with human immunodeficiency virus. 1744 11

Early inflammatory changes in psoriatic plaques were investigated immunohistochemically by studying the normal-appearing skin adjacent to the plaques (perilesional skin), lesional skin, and distant uninvolved skin from psoriasis patients. Perilesional epidermis contained numerous CD1a-positive Langerhans cells, some of which expressed HLA-DR, CD83, CD80, and CD86, at the same time expressing Langerin. There were also numerous CD83-positive, CD11c-positive, Langerin-negative dendritic cells (DCs) in the epidermal-dermal junction of perilesional skin. CD3-positive T lymphocytes were sparse in the perilesional skin. Perilesional epidermis expressed keratin K6 and K16, inflammatory keratins, and C/EBPbeta, a transcription factor related to inflammatory cytokines. Our results demonstrated the abundant distribution of activated DCs in the perilesional skin of psoriatic plaques, where early inflammatory changes occur in the epidermal keratinocytes, which suggests their involvement in the provocation of epidermal inflammation in the perilesional epidermis and further pathogenic roles in the formation of psoriatic plaques.
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PMID:Early inflammatory changes in the "perilesional skin" of psoriatic plaques: is there interaction between dendritic cells and keratinocytes? 1744 2

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