Activation of fibroblast metabolism in a dermal and skin equivalent model: a screening test for activity of peptides

Abstract

Skin firmness, elasticity and tone are gradually lost with age. These changes originate in the dermis and correspond to a decrease in the ability of cells, particularly the fibroblasts, to regenerate the molecules which make up the extracellular matrix. Skin ageing is also characterized by a reduction of the epidermal thickness and by a flattening of the basal membrane. The recent development of two 3-dimensional culture systems, in which the cells develop within a porous structure reproducing the extracellular matrix of the human dermis, is a way of reproducing in vivo conditions and demonstrating the biological effects of anti-ageing compounds. The dermal equivalent model used in this study is composed of a dermal matrix made of collagen-chitosan-glycosaminoglycans populated by normal human fibroblasts which synthesized their own extracellular matrix. A skin equivalent model is obtained by the cell culture of normal human keratinocytes onto a dermal equivalent elevated at the air-liquid interface. Such models were used to prove anti-ageing activity of promising compounds. Cosmetic Science has used many protein hydrolysates in order to fight skin ageing, but up to now, these natural peptides were poorly studied, and their efficacy poorly demonstrated. Eight protein hydrolysates were screened in a proliferation study in monolayered cultures giving two selected polypeptides. A soya derived peptide was used for an efficiency study in 3-dimensional models. In the dermal equivalent model, this peptide increased fibroblast proliferation by 40% and led to a stimulation of collagen formation (165%) and elastin (116%) synthesis. The effect of this soya peptide on glycosaminoglycan synthesis was also significant, with increases of 36% for chondroitin-4-sulfate and 68% for hyaluronic acid. These results were confirmed using a skin equivalent model. In this model, the soya peptide increased the thickness of the epidermis.