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Target Concepts:
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Query: UNIPROT:P06126 (
CD1a
)
2,221
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dendritic cells (DCs) are present in essentially every mammalian tissue, where they operate at the interface of innate and acquired immunity by recognizing pathogens and presenting pathogen-derived peptides to T lymphocytes. According to the research group of Shortman, experimental results suggest a "dual" DC differentiation model, demonstrating the existence of both myeloid-derived (with characteristic IF: CD11b+, CD11c+, CD8alpha- and DEC205+) and lymphoid-derived DCs (showing CD11b- CD11c-, CD8alpha+ and DEC205+ IF). DCs, including interdigitating cells (IDCs) and Langerhans cells (LCs), are characterized by dendritic morphology, high migratory mobility and are the most effective, "professional" cells for antigen presentation in primary immune responses. Most of the DCs express immunocytochemically detectable antigens like: S-100,
CD1a
, CD40 receptor, adhesion molecules (ICAM-1 or CD54, LFA-1 and LFA-3), integrins (CD11a, CD11c and CD18), CD45, CD54, co-stimulatory molecules (B7-1 or CD80, B7-2 or CD86), F418, MHC class I and II and
DEC-205
, multilectin receptor, immunostimulatory cytokine (IL-12) and, of course, Fc and complement receptors. Following recognition and uptake of antigens, mature dendritic cells (DCs) migrate to the T lymphocyte rich area of draining lymph nodes, display an array of antigen-derived peptides on the surface of major histocompatibility complex (MHC) molecules and acquire the cellular specialization to select and activate naive antigen-specific T lymphocytes. Immunotherapeutic ideas are based on the ability of the mammalian immune system to recognize neoplastically transformed cells. Immunotherapy of human neoplasms has always represented a very attractive fourth-modality therapeutic approach, especially in light of the many shortcomings of conventional surgical, radiation and chemotherapies in the management of neoplastically transformed cells. The cancer vaccine approach to therapy is based on the notion that the immune system could possibly mount a rejection strength response against the neoplastic cell conglomerate. The efficiency of DCs for T lymphocyte stimulation moved a number of research groups to develop DC- based immunotherapy approaches. The failure of cancer vaccines may be attributed to the relationship between host and neoplasm: through a natural selection process, the host facilitates the selective enrichment of clones with highly aggressive neoplastically transformed cells, being in various stages of differentiation and only during certain stages express neoplastic cell specific molecules.
...
PMID:Antigen presentation by dendritic cells and their significance in antineoplastic immunotherapy. 1501 56
We performed immunohistochemical analysis of DC-SIGN expression at the maternal-fetal interface at different stages of pregnancy in the rhesus monkey. Natural killer cells, monocytes and macrophages were observed in the nonpregnant endometrium, particularly in the luteal phase, and were increased in pregnant endometrium. No DC-SIGN+ cells were observed in the nonpregnant uterus. We observed decidual DC-SIGN+ cells within 1 week of implantation, and they increased in number during the first 5 weeks of gestation. DC-SIGN+ cells showed a clear differential distribution in the decidua in the first 2 weeks of pregnancy, being found only adjacent to the implantation site, in marked contrast to the widespread distribution of CD68+ macrophages and CD56+ NK cells throughout the endometrium. DC-SIGN+ cells also showed a more dendritic morphology than the general CD68+ cell population, and analysis of serial sections indicated an overlapping but not identical localization of these markers. Mature dendritic cells could not be detected as judged by total absence of immunostaining for CD83, CD86,
DEC-205
, or
CD1a
. DC-SIGN+ cells were defined as MHC class II+ and CD14+ by flow cytometry. We conclude that DC-SIGN expression is an early response by the primate maternal immune system to the implanting embryo. The selectively distributed population of DC-SIGN+ decidual leukocytes may represent a morphologically and phenotypically distinct subpopulation of decidual macrophages of early pregnancy that could contribute to the establishment of maternal-fetal immune tolerance.
...
PMID:Selective distribution and pregnancy-specific expression of DC-SIGN at the maternal-fetal interface in the rhesus macaque: DC-SIGN is a putative marker of the recognition of pregnancy. 1631 33
Dendritic cells (DCs) residing in skin are important sentinels for foreign antigens. Methods to facilitate studies of subsets of skin DCs are important to increase the understanding of various pathogens, allergens, topical treatments or vaccine components targeting the skin. In this study, we developed a new DC purification method using a skin graft mesher, clinically used for expansion of skin grafts, to accelerate processing of skin into nets that allowed efficient enzymatic disruption and single cell isolation. The reduction in processing time using the skin graft mesher enabled processing of larger skin samples and also limited the ex vivo handling of the specimens which is associated with maturation of DCs. In addition, a skin explant model to functionally monitor early events of antigen uptake by DC subsets in situ was developed. DCs isolated from epidermis represented a uniform
CD1a
(+) HLA-DR(+) CD11c(+) Langerin(+) DC-SIGN(-) DC-LAMP(int)
DEC-205
(int) Langerhans cell (LC) population whereas three subtypes of HLA-DR(+) CD11c(+) DCs were isolated from dermis based on their varying expression of
CD1a
. Epidermal LCs showed a significantly higher antigen uptake capacity of fluorescently-labelled ovalbumin (OVA) and dextran as compared to any of the dermal DC (dDC) subsets. In contrast, injection of antigen directly into skin explants followed by in situ imaging revealed that the majority of DCs with internalized antigen were localized in the dermis, likely as a consequence of the anatomical site for antigen delivery. These methods offer potency for various applications addressing antigen uptake, microbial DC interactions or other antigenic stimulation targeting the skin and can enhance our knowledge of basic DC biology in human skin.
...
PMID:Techniques for time-efficient isolation of human skin dendritic cell subsets and assessment of their antigen uptake capacity. 1957 98
Skin dendritic cells (DC) express C-type lectin receptors for the recognition of pathogens. Langerhans cells (LC) express the receptor Langerin/CD207, whereas
DEC-205
/CD205 is mainly expressed by dermal DC, but can also be detected at low levels on LC. In this study, we tested an ex vivo approach for targeting DC in situ with monoclonal antibodies (mAb) against Langerin and
DEC-205
. The targeting mAb was injected intradermally into human skin biopsies or added to the medium during skin explant culture. Corresponding to the expression patterns of these lectin receptors on skin DC, Langerin mAb was detected merely in LC in the epidermis and
DEC-205
mainly in dermal DC in human skin explants, regardless of the application route. Migratory skin DC bound and carried targeting mAb from skin explants according to their lectin receptor expression profiles. In contrast to the very selective transport of Langerin mAb by LC,
DEC-205
mAb was more widely distributed on all
CD1a
(+) skin DC subsets but almost absent in CD14(+) dermal DC. As effective vaccination requires the addition of adjuvant, we co-administered the toll-like receptor (TLR)-3 ligand poly I:C with the mAb. This adjuvant enhanced binding of
DEC-205
mAb to all skin DC subsets, whereas Langerin targeting efficacy remained unchanged. Our findings demonstrate that LC can be preferentially targeted by Langerin mAb. In contrast,
DEC-205
mAb can be bound by all
CD1a
(+) skin DC subsets. The efficacy of
DEC-205
mAb targeting strategy can be boosted by addition of poly I:C underlining the potential of this combination for immunotherapeutical interventions.
...
PMID:Human skin dendritic cells can be targeted in situ by intradermal injection of antibodies against lectin receptors. 2534 75
