Signal Peptides - Promising Ingredients in Cosmetics
Naturally occurring peptides found in the human skin can serve particular biological activities and play roles as signaling molecules of various physiological processes such as homeostasis, growth, defense or immunity. Their great biological activity resulted in a growing interest in
the pharmaceutical industry. Researchers consider peptides either promising compounds with potential application for human diagnosis, therapy or cosmetics. Peptides are becoming interesting cosmetic ingredients with the functions to reduce premature skin aging, improve the barrier function
of skin, moisturize the skin, protect it from UV damage, and anti-inflammatory properties that alleviate acne and irritation. Till now, peptides of different origins were investigated in formulation developed to enhance collagen or elastin production, increase fibroblast proliferation, improve
wound healing or skin condition. Most of them are obtained by chemical synthesis or by partial digestion of animal proteins. Short and easily synthesized peptides with alternative amino acid sequence, and combinations have created a new field of molecules inspired by nature and implemented
in the cosmetic industry. Nowadays, peptides are cheaper and easier to produce in large quantities. The efficient process development methods allow obtaining nearly unlimited sequences, which makes them functionally preferred. Generally, cosmetic peptides are categorized as carrier peptides,
neurotransmitter- affecting peptides, enzyme inhibitor peptides and signal peptides. The use of signal peptides in cosmetics increased over a few years. These molecules trigger a signaling cascade and stimulate fibroblast collagen production, the proliferation of elastin, fibronectin, laminin,
etc. Thus, a literature search on a topical application of the most common signal peptides; and their current status in the cosmetic industry was carried out.
Keywords: Peptide synthesis; active ingredient; anti-aging; anti-wrinkle; bioactive peptides; skincare products; wound healing
Document Type: Review Article
Publication date: October 1, 2021
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