Monoclonal antibodies specific for subsets of epidermal keratins: Biochemical and immunocytochemical characterization—applications in pathology and cell culture

Abstract

Keratin composition has been widely used as a biochemical marker of differentiation in normal epithelia, cell culture systems and tumours of epithelial tissues. We have been developing a model system for the study of human squamous epithelial cell differentiation, and among a panel of monoclonal antibodies we have generated for analysing this system are two antibodies recognizing subsets of epidermal keratins. The two antibodies, designated LICR-LON-16a and LICR-LON-29b, were raised to the human squamous carcinoma cell line LICR-LON-HN-5, and we describe here their biochemical and immunocytochemical characterization. Antibody 16a reacts with only epidermal basal cells in normal human skin and shows specificity for the 45 and 46 kdalton keratins. Antibody 29b stains all living layers of the epidermis, and reacts with a broad range of ketain polypeptides, (45–56 kdaltons) in immunoblotting analyses. We have investigated the alterations of cellular staining that occur in chronic hyperproliferative skin diseases and carcinomas and compared this with the staining of multilayered cultures of normal keratinocytes and the HN-5 cell line. We show that in squamous cell carcinomas and in HN-5 cell xenografts 16a and 29b stain only the well-differentiated cell types. Furthermore we found that the basal cell specificity of 16a was lost in all of the hyper-proliferative skin lesions examined including psoriasis and eczema. This transition to suprabasal staining pattern was also seen in the cultures of normal keratinocytes and HN-5 cells. We conclude that aberrant keratin synthesis or abnormal post-translational processing of keratins associated with an increased rate of cell turnover could account for the altered expression of the epitope recognized by antibody 16a.