The rhino mouse has been used as an experimental model to screen topically active comedolytic agents. Adult rhino mice were treated on the back once daily for 5 consecutive days per week during 3 weeks. Skin histological preparations were analyzed by image analysis techniques to quantify the number of epidermal comedones, comedo profile and epidermal thickness. Using both a negative (treated with acetone) and a positive (treated with Aberel® gel 0.025%) control group of animals in all experiments conducted over a period of about 3 years, we defined the upper and lower limit of acceptability of the results. Topical treatment with an acetone solution of all-trans retinoic acid (0.01, 0.03, 0.1 %) and 13-cis-retinoic acid (0.1 %) induced comedolysis and a marked increase in epidermal thickness. Commercial preparations of all-trans retinoic acid (Aberel® lotion, gel and cream, Retin A® cream, Retacnyl cream) presented a similar comedolytic activity. However, the epidermal thickening was higher with Retin A and weaker with Retacnyl. CD271, a new modulator of cell differentiation, applied either in acetone solution (0.01, 0.1 %) or in lotion, gel or cream formulations (0.1 %) also demonstrated a marked activity (i.e. comedolysis and epidermal thickening). These data confirm that the rhino mouse model can be used to assay drugs applied either in solvent or in topical formulations. Activity in this model compares favorably with published clinical observations in the treatment of acne.
The potential therapeutic activity of topically applied novel analogues of retinoic acid is currently measured in many different animal models. In most cases, the technique used is invasive and biopsy specimens are required. Furthermore, efficacy in these models is not a guarantee of success in treatment of humans. Therefore, predictive human pharmacology tests are required in order to quantify a retinoid effect on human skin before conducting large clinical trials. The aim of this study was to determine whether changes in corneocyte surface area could be used as a predictive measure for the efficacy of topical retinoids in man. Topical applications of all-trans retinoic acid gel (Aberel®), salicylic acid gel and the gel vehicle were made once daily for 4 weeks to skin of the lumbar region of healthy human volunteers. Corneocytes were recovered from these three treated zones as well as from one zone of untreated skin, and their surface areas were measured by image analysis using a MOP-Videoplan. The results showed that at no point during the 4 weeks of daily application to healthy human skin was there a statistically significant difference in the surface area of corneocytes recovered from Aberel, salicylic acid-, vehicle-treated or untreated sites. No specific effect of retinoic acid could be detected. However, although no between-treatment differences were found, significant cyclical changes in the mean surface areas with respect to baseline were observed.
The efficiency of the outgrowth of human epidermal and hair-follicle-sheath keratinocytes was studied using three different growth substrates: plastic, type-I collagen and bovine eye lens capsules (the Epicult system). It was shown that the eye lens capsule is the best substrate, since a higher percentage of cultures showed outgrowth, and the outgrowth of epidermal keratinocytes was much more rapid. This effect is related to the faster migration (not proliferation) of cells grown on lens capsules as compared to the two other substrates. The view that lens capsules can replace the basement membrane present in vivo was supported by the finding that two basement-membrane components, i.e., laminin and fibronectin, are present on lens capsules. It was shown that, in cultures grown on lens capsules, bullous-pemphigoid antigen is restricted to the basal layer, indicating that the differentiation of these cells is comparable to that of keratinocytes grown on irradiated, non-viable pig dermis.
Several biochemical parameters including ornithine decarboxylase activity (ODC) and tissue polyamine levels were measured during the hexadecane-induced epidermal hyperplasia of hairless rat skin. Animals received three applications of 200 µ1 pure n-hexadecane on day 1. ODC activity and polyamine levels (putrescine, spermidine and spermine) in the epidermis were significantly increased and reached maximum elevations at 12 h after the start of n-hexadecane treatment with DNA synthesis peaking at 24 h. Histological studies confirmed a significant cellular edema at 24 h after the beginning of the treatment followed at 48 h by an epidermal hyperplasia which was maximum at 72 h. These data support the view that ODC activation, increased biosynthesis of polyamines and DNA are early events in epidermal cell hyperproliferation.
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