Abstract
Several observations point to an important role of 12HETE and LTB4 in cutaneous physiology and in the pathophysiology of inflammatory skin diseases, in particular psoriasis [13]. Normal epidermal cells possess a high capacity for the transformation of arachidonic acid (AA) into 12-HETE by 12-1ipoxygenase. It is the main eicosanoid which is generated in epidermal homogenates besides PGE2 and P G D 2 [9, 14]. In contrast, the 5lipoxygenase product LTB4 is formed mainly by leukocytes [4] which infiltrate skin during inflammation. In psoriasis, highly elevated concentrations of 12-HETE are found in lesional skin [2, 8]. In addition, 12-HETE and LTB4 are chemoattractants for PMNLs which could contribute to the infiltration of PMNLs in psoriatic skin and other cutaneous inflammatory reactions [3, 6]. Although the metabolic processes which lead to the formation of 12-HETE in skin are well understood, the exact function of this AA-metabolite in cutaneous biology is not clear. Growth stimulation of keratinocytes by 12-HETE was reported by Kragballe and Fallon [11], but has not been confirmed by other groups [7, 12]. Here we report a novel aspect of 12-HETE and LTB 4 in cutaneous biology. We detected a chemotactic response of epidermal cells towards 12-Sand 12-R-HETE as well as LTB4. The response of the cells towards 12-HETE was in the range of the KD of a high affinity 12-HETE receptor described recently by our group [7]. Eicosanoids (12-S-HETE, 12-R-HETE, LTB4) were supplied by Paesel (Frankfurt/Main, FRG) as free acids in ethanol. The ethanol was evaporated under nitrogen immediately before use, and the eicosanoids were dissolved in serum-free DMEM to the required concentration. EGF was purchased from Sebak (Aidenbach, FRG). Fibroblast-conditioned medium (FCM) was pre-
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