Riva Eichner

Keratin Expression during Normal Epidermal Differentiation

The four major epidermal keratins (65-67K, 58K, 56K, and 50K) have been localized in various cell layers of normal human epidermis. Guinea pig antisera and mouse monoclonal antibodies were prepared against human epidermal keratins and were characterized with respect to their specificity to individual keratin polypeptides by the immunoblot technique. These antibodies were used to stain vertical frozen sections of skin, and to identify keratins extracted from serial, horizontal skin sections. The results indicate that: (1) a 65-67K keratin component is limited to the suprabasal layers, (2) a 58K keratin is present throughout the epidermis, (3) a 56K keratin appears to be made only in cells above the basal layer, possibly in the upper spinous or granular layer, and (4) a 50K keratin is present in all living layers but is largely eliminated during stratum corneum formation. The 65-67K and 56K keratins, which are characteristic of suprabasal, terminally differentiated keratinocytes, may be regarded as molecular markers of keratinization.

Effects of long‐term retinoic acid treatment on epidermal differentiation in vivo: specific modifications in the programme of terminal differentiation

Summary To investigate the effects of long‐term all‐trans‐retinoic acid (RA) treatment on epidermal differentiation in vivo, rhino mice were treated topically with 0.005% RA, and their epidermis was analysed histologically and biochemically after 5, 13 and 26 weeks of treatment. Effects of RA were observed first in the living layers of the epidermis, and then in the non‐viable stratum corneum. Five weeks of topical RA led to thickening of the spinous and granular compartments, induction of keratins K6, K16 and K17, and suppression of filaggrin expression. After 13 and 26 weeks of RA treatment, the number of anucleate cornified cell layers remained similar to controls, but additional changes in histology and protein expression were observed. The results showed that prolonged administration of topical RA induced epidermal hyperproliferation, but did not suppress differentiation, in contrast to results observed in keratinocyte cultures. However, the distinct histological and biochemical changes observed in the spinous, granular and cornified layers of RA‐treated skin after 26 weeks of treatment, suggested that the progeny of RA‐treated basal cells undergo a modified programme of terminal differentiation. Considering the present data together with results of previous in vivo studies, we propose that long‐term topical RA treatment retards, or specifically modulates, the later stages in epidermal differentiation, or programmed cell death.