Science
Mechanism of Action
Trehangelins exert their effect by specifically inhibiting the nuclear translocation of Yes-Associated Protein (YAP), thereby suppressing the expression of epidermal Cellular Communication Network factor 1 (CCN1). This action ameliorates inflammation-induced skin senescence and regulates collagen homeostasis. Furthermore, THG activates autophagy, a crucial cellular mechanism for detoxification and maintaining optimal skin cell function.
Research
Clinical Evidence
Medium confidenceN/A
Key findings
- 01 Topical application of Trehangelins within a 0-1% concentration range was shown to ameliorate the structure of the basement membrane in ex vivo human skin explants. It also effectively suppressed epidermal Cellular Communication Network factor 1 (CCN1) expression in ex vivo skin explants treated with plasmin and those exposed to UVB radiation.
Transparency
Dusting Analysis
The Formula
Formulation
Stability
No explicit optimal pH range for stability has been identified. Trehangelins consist of trehalose and two angelic acid moieties; while trehalose is water-soluble, the overall solubility is not specified. However, the physical properties of THG suggest high penetration of the stratum corneum, hinting at potential lipophilic characteristics.
Safety
Safety Profile
No specific safety assessments by major regulatory bodies such as CIR, SCCS, or FDA have been found for Trehangelins.
Your Skin
Skin Compatibility
Our Assessment
Verdict
Trehangelins demonstrate a precise, evidence-backed mechanism for combating skin senescence and improving structural integrity, making it a valuable addition for targeted anti-aging formulations, pending further safety and formulation optimization data.
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