Decreased Chymase Activity is Associated with Increased Levels of Protease Inhibitors in Mast Cells of Psoriatic Lesions

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.

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Transient production of stem cell factor in dermal cells but increasing expression of Kit receptor in mast cells during normal wound healing

Huttunen

Horsmanheimo

Harvima

2002

Arch Dermatol Res

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Mast cell chymase is increased in chronic atopic dermatitis but not in psoriasis

et al. 2005

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Mast cell chymase is a chymotrypsin-like serine proteinase primarily stored in secretory mast cell granules. Mast cell chymase has various effects on angiotensin, metalloproteases, lipoproteins, procollagen, neuropeptides and cytokines. Recent studies have demonstrated that chymase inhibitors inhibit skin inflammation. In this study we sought to determine the role of mast cell chymase in atopic dermatitis (AD) in comparison with its role in psoriasis and normal skin. Skin biopsy specimens were obtained from non-lesional and lesional skin of patients with chronic AD and psoriasis and from normal skin of non-atopic and non-psoriatic controls. The number of mast cells containing chymase was determined by immunohistochemistry using a chymase-specific monoclonal antibody. A significantly (P<0.05) enhanced number of chymase-positive cells was found in lesional AD skin as compared to normal skin as well as to lesional and non-lesional skin of patients with psoriasis. A significant (P<0.05) increase in the number of chymase-positive cells was also found in non-lesional AD skin in comparison to psoriasis. An enhanced, albeit not statistically significant difference was noted in non-lesional AD skin as compared to normal skin. In conclusion, these results suggest that mast cell chymase may play an integral part in eliciting and maintaining cutaneous inflammation in AD but not in psoriasis. The increased proteinase activity of mast cell chymase may also be involved in promoting a skin barrier defect in AD, which subsequently enhances the skin's permeability to allergens and microbes and thereby aggravates the eczema.

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Is there a role for mast cells in psoriasis?

et al. 2008

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Mast cells have traditionally been considered as eVector cells in allergy but during the last decade it has been realized that mast cells are essentially involved in the mechanisms of innate and acquired immunity. Upon activation by anaphylactic, piecemeal degranulation or degranulation-independent mechanisms mast cells can secrete rapidly or slowly a number of soluble mediators, such as serine proteinases, histamine, lipid-derived mediators, cytokines, chemokines and growth factors. Mast cells can express cell surface co-stimulatory receptors and ligands, and they can express MHC class II molecules and thereby present antigens. These soluble factors and cell surface molecules can interact with other cells, such as endothelial cells, keratinocytes, sensory nerves, neutrophils, T cell subsets and antigen presenting cells which are essential eVectors in the development of skin inXammation. Besides promoting inXammation, mast cells may attempt in some circumstances to suppress the inXammation and epidermal growth but the regulation between suppressive and proinXammatory mechanisms is unclear. Psoriasis is characterized by epidermal hyperplasia and chronic inXammation where tryptase-and chymase-positive MC TC mast cells are activated early in the developing lesion and later the cells increase in number in the upper dermis with concomitant expression of cytokines and TNF superfamily ligands as well as increased contacts with neuropeptide-containing sensory nerves. Due to the intimate involvement of mast cells in immunity and chronic inXammation the role of mast cells in psoriasis is discussed in this review.

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Decreased Chymase Activity is Associated with Increased Levels of Protease Inhibitors in Mast Cells of Psoriatic Lesions

Cited by 18 publications

References 46 publications

Transient production of stem cell factor in dermal cells but increasing expression of Kit receptor in mast cells during normal wound healing

Transient production of stem cell factor in dermal cells but increasing expression of Kit receptor in mast cells during normal wound healing

Mast cell chymase is increased in chronic atopic dermatitis but not in psoriasis

Is there a role for mast cells in psoriasis?

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