Release of soluble tryptase but only minor amounts of chymase activity from cutaneous mast cells.

Tryptase and chymase are the major serine proteinases of skin mast cells but their biologic significance depends on their activity. In this study, we demonstrate the release of soluble activity of tryptase, but not markedly that of chymase, into skin blister fluids induced by freezing with liquid nitrogen as well as into supernatant during incubation of 8 whole skin specimens with compound 48/80 for up to 2 days followed by sonication. Incubation of 3 other skin specimens in compound 48/80 for up to 2 days revealed that the number of mast cells displaying tryptase activity decreased significantly on day 2, and the number of mast cells showing chymase activity (but not those showing chymase immunoreactivity) decreased significantly on day 1 but not thereafter on day 2. The results of 3 skin organ cultures for up to 14 days showed steady decrease in the number of tryptase-positive cells but persistence of mast cells containing chymase activity. Chymase in solution was sensitively inhibited by 0.01 mg/ml alpha1-antichymotrypsin but higher concentrations (0.3-3.0 mg/ml) were needed for inhibiting chymase on skin sections. In conclusion, after mast cell degranulation tryptase activity is substantially solubilized and it may potentially affect both local and distant skin structures. Instead, chymase is partially inactivated and the remaining chymase activity persists at the site of degranulation having only local effects.

Quantitative digital image analysis applied to demonstrate the stratified distribution of involucrin in organ cultured human skin.

In this study, quantitative digital image analysis was utilized to measure the optical density of immunostains of involucrin at different depths in the epidermis to obtain reliable ordinal-scaled interpretations of the staining intensity. The distribution of involucrin within the epidermis was investigated in air-liquid interface and submerged skin organ cultures at different time-points. A greyscale calibration procedure to standardize the optical units was used. By the 2nd day of culture, staining of involucrin had shifted markedly towards the mid or basal epidermis. Air-liquid interface cultures showed a less intensive shift than the submerged cultures. Up to the 7th day, involucrin staining remained in the upper epidermis in the air-liquid interface cultures, though weak staining was already observed in the basal epidermis. The results suggest that air-liquid interface conditions maintained physiological conditions better than submerged conditions which result in cultures that may have to increase their involucrin synthesis to improve the barrier function against the surrounding liquid during culture. Alternatively, changes in involucrin synthesis could reflect disturbed homeostasis. Concentrating measurements on certain cell layers might give more detailed information about changes in involucrin expression. Although the detection method was used to study the histochemistry of skin, it could easily be applied to other tissues as well.