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)

Mast cells can be found in contact with epidermis in certain circumstances; especially in chronic inflammatory skin diseases and chronic ulcers, but the significance of this association is obscure. In this study, the association of mast cells with wound healing was studied by counting mast cells in the wound edges at different stages after wounding the donor site skin for pinch-grafting. Chronic venous leg ulcers were biopsed for comparison. Tryptase- and chymase-positive mast cells were stained enzyme-histochemically for active proteinases. Both the number of tryptase-positive, i.e. total mast cells, and chymase-positive mast cells decreased during wound healing, but only the change in chymase-positive mast cells was statistically significant (P< or =0.03) the maximal decrease being 63% on day 7. No mast cells could be found in the vicinity of epithelialization margin. In venous leg ulcers, significantly more mast cells were present in the perilesional skin near the epithelium margin than in the wound bed (P=0.03), and mast cells were also seen in close contact with the basement membrane. Immunoreactivity for IL-4 and TNF-alpha in mast cells was studied to see if either of these molecules was associated with wound healing. In normally healing wounds, only a minority of mast cells were immunoreactive for these cytokines and no change in positive mast cell numbers could be seen during wound healing. In chronic wounds, IL-4 was absent in mast cells, and TNF-alpha positive mast cells were present only in perilesional skin and in small numbers. These results show that mast cells especially chymase-positive - decrease in number and can not be found in the epithelialization zone in normal wound healing, whereas tryptase-positive mast cells are associated with delayed wound healing and epithelialization in chronic wounds. Thus it seems, that mast cells attempt to control hyperproliferation of epidermis in chronic wounds.
 ...
PMID:Alterations in mast cells showing tryptase and chymase activity in epithelializating and chronic wounds. 1094 47

Mast cells are involved in inflammatory skin disorders and wound healing processes, but the mechanism behind mast cell activation is obscure. In this study, we stained the stem cell factor (SCF) and the Kit receptor in tryptase-positive mast cells, since these molecules are essential for mast cell survival, growth, migration and activation. For this purpose, biopsies were taken from the edge of normally healing wounds of 12 patients undergoing skin transplantation on days 0, 1, 3, 7 and 14, and from chronic leg ulcers and psoriatic skin for comparison. In healing wounds, SCF-positive cells rapidly increased in number in the dermis peaking on day 1, but declined thereafter to their baseline values. The percentage of Kit-positive mast cells increased slowly but steadily reaching a maximum (73+/-22%, P=0.02) on day 14. In chronic ulcers, most of the mast cells were Kit-positive both in the wound bed and in the perilesional skin (87+/-9% and 86+/-13%, respectively). The number of SCF-positive cells was higher in the wound bed than in the dermis of perilesional skin. In the psoriatic skin of ten patients, lesional specimens showed significantly higher numbers of SCF-positive dermal cells as well as a higher percentage (88+/-12% vs 46+/-26%, P=0.004) of Kit-positive mast cells than nonlesional skin. In conclusion, our findings show that the expression of SCF increases rapidly in the early stages of wound healing but declines thereafter, whereas the expression of Kit in mast cells is induced slowly in healing wounds. In chronic wounds as well as in psoriatic lesions, both SCF and Kit are intensely expressed. Thus, it seems possible that SCF and Kit receptor interact, and this could lead to persistent mast cell activation and growth in chronic wounds and psoriasis, whereas only temporary mast cell activation is apparently needed in healing wounds.
 ...
PMID:Transient production of stem cell factor in dermal cells but increasing expression of Kit receptor in mast cells during normal wound healing. 1237 38

Chronic venous leg ulcers (CVUs) show chronic inflammation but different pathological changes occur in different parts of the ulcer. There is a lack of re-epithelialisation and defective matrix deposition in the ulcer base but epidermal hyperproliferation and increased matrix deposition in the surrounding skin. The role of mast cells in wound healing, inflammation, fibrosis and epidermal hyperproliferation has been extensively studied but less is known about their role in CVUs. In the present study, we investigated the distribution of mast cells in CVUs with specific consideration of the differences between the ulcer base and the skin surrounding the ulcer. Both histochemical and immunohistological methods were used to detect the mast cell marker tryptase in frozen sections of CVU biopsies. Mast cells were counted in the dermis of normal skin, in the ulcer base and in the skin surrounding the ulcer. Double immunofluorescence staining was used to study the location of mast cells in relation to blood vessels. In normal skin few mast cells were seen in the dermis but none in the epidermis. However in CVUs there was a significant increase in intact and degranulated mast cells in the surrounding skin and ulcer edge (184 per field, p<0.003) of CVUs and a significant reduction in the ulcer base (20.5 per field p<0.05) in comparison to normal skin (61 per field). In CVUs mast cells showed a characteristic location near the epithelial basement membrane whilst mast cell granules and phantom cells (mast cells devoid of granules) were predominantly seen in the epidermis. In the dermis, mast cells were seen associated with blood vessels. The marked increase in mast cells in the surrounding skin of CVUs and depletion of mast cells in the ulcer base could implicate mast cell mediators in the pathological changes in CVUs particularly in the epidermal and vascular changes occurring in the surrounding skin.
 ...
PMID:Spatial distribution of mast cells in chronic venous leg ulcers. 1621 12