Immunocytochemical localization of sulfhydryl oxidase in mammalian epidermis suggests that the enzyme cross-links keratins in the granular and transitional corneous layers

Abstract

The epidermis of representative mammalian species including humans has been examined for the presence of sulfhydryl oxidase, an enzyme likely involved in the oxidation of corneous proteins containing sulfhydryl groups in the epidermis. A database search indicates that the enzyme shares common sequences in numerous mammalian species so that an antibody against the human sulfhydryl oxidase 2 has been utilized on other species. The immunofluorescent study on the epidermis of the platypus (monotreme), red kangaroo (marsupials), hamster and human (placentals) reveals a prevalent labelling in the granular, transitional and lowermost part of the stratum corneous layer. The detailed ultrastructural immunogold study of the human epidermis reveals a diffuse and uneven labelling in the paler component of the composite keratohyalin granules or among keratin filaments of the transitional layer while the labelling disappears in the corneous layer. The study supports the hypothesis of the participation of the enzyme in the oxidative process that determines the formation of stable disulphide groups among keratins and other corneous proteins of the stratum corneum. This process gives rise to the resistant cell corneous envelope of keratinocytes in addition to the isopeptide bonds that derive from the catalytic action of epidermal transglutaminase on several corneous proteins.