Description
LC-216
LC-216 is a synthetic tripeptide investigated for its regenerative and cellular-supporting properties. Research indicates that LC-216 may enhance tissue repair, support immune system function, and promote overall cellular health. Laboratory studies suggest that LC-216 can stimulate fibroblast activity, modulate protein synthesis, and contribute to skin and tissue maintenance. The peptide also exhibits antioxidant activity by reducing oxidative stress and demonstrates potential antimicrobial effects. Preclinical research highlights its possible anti-aging and regenerative effects at the cellular level, making LC-216 a compound of interest in experimental studies focused on tissue repair and recovery.
Structure
Sequence: N-benzyloxycarbonyl-β-glycylglycylglycine benzyl ester
Molecular Formula: C22H25N3O6
Molecular Weight: Approximately 425.46 g/mol
CAS Number: 68585-34-2
LC-216 Research
LC-216 Overview
LC-216 is a synthetic peptide studied in experimental models for its potential to influence cellular metabolism, fat reduction, and tissue regeneration. It is primarily utilized in preclinical studies to examine mechanisms related to adipose tissue metabolism, protein synthesis, and cellular repair pathways. Laboratory studies indicate that LC-216 may enhance energy utilization, promote tissue recovery, and support regenerative processes at the cellular level. This makes LC-216 a valuable research tool for understanding metabolic signaling and tissue biology.
LC-216 and Fat Metabolism
Research into LC-216 has highlighted its role in regulating fat metabolism in experimental models. Studies suggest that the peptide may contribute to reduced fat accumulation by improving lipid mobilization and energy expenditure at the cellular level. Laboratory investigations have demonstrated that LC-216 can modulate signaling pathways associated with adipocyte function and metabolic homeostasis. These findings provide insight into how LC-216 may influence obesity-related pathways and energy balance in preclinical research settings.
LC-216 and Tissue Regeneration
LC-216 has been shown to support tissue regeneration and cellular repair. Experimental models indicate that it can enhance protein synthesis, stimulate cell proliferation, and support structural maintenance of tissues. The peptide appears to act on pathways involved in tissue recovery after experimental injury, making it an important compound for research on regenerative biology. This effect is especially notable in studies focusing on musculoskeletal and connective tissue repair.
LC-216 and Cellular Signaling
Laboratory studies have shown that LC-216 can influence key signaling mechanisms in cells. By modulating cellular pathways associated with growth, metabolism, and inflammation, LC-216 may help maintain balanced tissue responses during experimental conditions. Research also suggests that it may reduce local inflammatory markers in adipose tissue, thereby promoting healthier metabolic profiles and improved tissue function.
Safety and Research Use
LC-216 is strictly for experimental and laboratory research purposes. It is not approved for human or veterinary use. Studies consistently emphasize its utility in understanding fat metabolism, tissue regeneration, and metabolic signaling rather than as a therapeutic agent. Laboratory data suggest it is stable under controlled conditions and allows researchers to study cellular and metabolic mechanisms safely.
