Comparative immunolocalization of keratin‐associated beta‐proteins (beta‐keratins) supports a new explanation for the cyclical process of keratinocyte differentiation in lizard epidermis

Lizard epidermis is made of beta‐ and alpha‐layers. Using W estern blot tested antibodies, the ultrastructural immunolocalization of specific keratin‐associated beta‐proteins in the epidermis of different lizard species reveals that glycine‐rich beta‐proteins ( H g G 5) localize in the beta‐layer, while glycine–cysteine‐medium‐rich beta‐proteins (Hg GC 10) are present in oberhautchen and alpha‐layers. This suggests a new explanation for the formation of different epidermal layers during the shedding cycle in lepidosaurian epidermis instead of an alternance between beta‐keratins and alpha‐keratins. It is proposed that different sets of genes coding for specific beta‐proteins are activated in keratinocytes during the renewal phase of the shedding cycle. Initially, glycine–cysteine‐medium‐rich beta‐proteins with hydrophilic and elastic properties accumulate over alpha‐keratins in the oberhautchen but are replaced in the next cell layer with glycine‐rich hydrophobic beta‐proteins forming a resistant, stiff, and hydrophobic beta‐layer. The synthesis of glycine‐rich proteins terminates in mesos and alpha‐cells where these proteins are replaced with glycine–cysteine‐rich beta‐proteins. The pattern of beta‐protein deposition onto a scaffold of intermediate filament keratins is typical for keratin‐associated proteins and the association between alpha‐keratins and specific keratin‐associated beta‐proteins during the renewal phase of the shedding cycle gives rise to epidermal layers possessing different structural, mechanical, and texture properties.