Transforming growth factor-alpha immunoreactivity during induced hair follicle growth cycles in sheep and ferrets.

Abstract

Transforming growth factor-alpha (TGF-alpha) has been associated with cell proliferation of keratinocytes and implicated in hair growth. We therefore examined changes in the immunocytochemical localization of TGF-alpha and cell proliferation markers in the skin of two unrelated species in which hair cycles could be induced, to elucidate the role of this growth factor in the control of fiber growth. Skin was collected from melatonin-treated ferrets (Mustela putorius furo), untreated Romney sheep (Ovis aries), and New Zealand Wiltshire sheep in which interruption of wool growth had been photoperiodically induced. Immunostaining patterns were very similar in ferrets and sheep. TGF-alpha immunoreactivity was observed in epithelial tissues of the skin but was not co-localized with cell proliferation markers. In anagen follicles, specific staining was most intense in the innermost cells of the outer root sheath and cortical cells in the keratogenous zone but was absent from inner root sheath or dermal papilla. TGF-alpha immunostaining diminished during catagen, although faint staining was retained in all epithelial cells. In telogen and early proanagen follicles, staining remained faint or was restricted to cells on the margin of the brush end and follicle neck. Immunoreactivity in the outer root sheath was reestablished in late proanagen. Sebaceous glands and epidermis were stained intensely throughout the hair cycle. TGF-alpha-immunoreactive components of skin extracts, analyzed by Western blotting, showed mobility corresponding to approximately 32 KD, but not to the size of the fully cleaved peptide. These results are consistent with an epithelial autocrine or juxtacrine, but not a mitogenic, function of TGF-alpha.