Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P15088 (mast cell)
 14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mast cell, which is a histamine-containing cell, has been found to have far more functions in skin inflammation than hitherto understood. To investigate the appearance of mast cells in prurigo nodularis, histamine immunohistochemistry in combination with nerve growth factor receptor (NGFr) double-staining as well as electron microscopic studies were performed. The results revealed that the histamine-containing cell number was increased in the lesional dermis. The mast cell size was also increased and the shape had become more dendritic. They tended to contact the epidermis and even infiltrated into it. In the histamine and NGFr double-staining, both an increased histamine-containing mast cell number and an increased number of NGFr-immunoreactive nerve fiber profiles were revealed in the upper dermis of the prurigo nodularis lesional skin. Mast cells were seen in close vicinity to NGFr-positive nerves and sometimes even seemingly to contact single nerve fibers. At the ultrastructural level, it is obvious that the mast cell bodies become larger, having more abundant cytoplasm and organelles (e.g. mitochondria), but comparatively fewer characteristic granules. Mast cells were often observed to sprout long dendrites, with or without granules. The cells were also frequently seen to contact other cell types, and a mast cell infiltration into the epidermis was also found. The statistical results of mast cell numbers showed a significant increase in prurigo nodularis lesional skin compared to the normal controls. The present results further indicate that mast cells, together with cutaneous nerve fibers, are actively involved in the pathogenesis of the disease.
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PMID:Histamine-containing mast cells and their relationship to NGFr-immunoreactive nerves in prurigo nodularis: a reappraisal. 960 37

In order to explore possible mechanisms involved in the previously documented turnover of mast cell subpopulations in human cutaneous scars, we have examined selected factors known to stimulate and/or modulate mast cell hyperplasia (SCF, NGF, TGFbeta1, GM-CSF) and their receptors in human cutaneous scar tissue. On immunohistochemistry, numbers of SCF- and TGFbeta1-positive cells were significantly increased in the epidermis and throughout the dermis in scars (n = 27) of varying ages (4-369 d old), compared with normal skin (n = 12). Furthermore, TRbetaRI, II, and the NGF-p75 receptors were significantly increased in the epidermis, TRbetaRI and NGF-TrkA throughout the dermis, and TRbetaRII, NGF-p75, and GM-CSFR only in the mid- and lower dermis of scars. NGF and GM-CSF expression was in contrast scarce and weak, with no differences between normal skin and scars. In tissue extracts, mRNA levels of SCF, TGFbeta1, TRbetaI and II, and both NGF-receptors, but not GM-CSFR, were significantly increased as well. TRbetaI and II were identified in up to 90% and 83%, respectively, of isolated normal skin mast cells on flow cytometry, and GM-CSFR and NGFR-p75 were identified on 70% and 73%, respectively, of avidin-positive normal mast cells on double immunofluorescence microscopy. As described before for the SCF receptor KIT, GM-CSFR and NGFR-p75 were partly or entirely downregulated on avidin-positive mast cells in scars. The marked upregulation of TGFbeta1, its type I and II receptors, and SCF suggest that these factors play a major role in the orchestration of mast cell increase in human cutaneous scars whereas the role of NGF and GM-CSF is less clear, despite the significant upregulation of their receptors.
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PMID:Expression of mast cell growth modulating and chemotactic factors and their receptors in human cutaneous scars. 1123 12

We aimed to investigate the profile of the inflammatory infiltrate in lesional and nonlesional tissue in alopecia areata (AA) and look for possible associations between inflammatory mechanisms, neuropeptide expressions, and various clinical features. Twenty-four patch-type AA patients were included. Forty-eight lesional and nonlesional skin samples were stained immunohistochemically with antibodies for CD1a, CD3, CD4, CD8, CD20, CD57 (for natural killer cells), mast cell tryptase, nerve growth factor receptor (NGFR), and substance P (SP). Various clinical findings were recorded. Psychological distress levels and stress-related hormones were measured. Lesional skin showed statistically more CD3(+), CD8(+), and CD57(+) lymphocytes, mast cells, Langerhans cells, and more prominent immunoreactivities of NGFR and SP (P < 0.003). Most nonlesional skin showed CD3(+) and CD57(+) cells, mast cells, and NGFR(+) nerve fibers. NGFR and SP, and SP and perivascular mast cell infiltrates were correlated, whereas peribulbar mast cells and anagen follicle counts were inversely correlated in nonlesional skin (P < 0.05). Near half of the patients' distress levels were high. No relationship among biochemical, psychological, and clinical parameters could be shown. AA may involve the entire skin in which lesions occur as a result of local T cell-mediated cytotoxic inflammatory response initiated by Langerhans cells and mast cells activated via neuropeptides.
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PMID:Investigation of the inflammatory mechanisms in alopecia areata. 1915 26