Combinations of Peptides Synergistically Activate the Regenerative Capacity of Skin Cells In Vitro

• Published in: bioRxiv
• Main Authors: Flagler, Michael J, Tamura, Makio, Laughlin, Tim, Hartman, Scott, Ashe, Julie, Adams, Rachel, Kozak, Kim, Cresswell, Kellen, Mullins, Lisa, Jarrold, Bradley B, Isfort, Robert J, Sherrill, Joseph D
• Format: Paper
• Language: English
• Published: Cold Spring Harbor Cold Spring Harbor Laboratory Press 08.07.2021
• Subjects: Bioinformatics; Cell lines; Cellular stress response; DNA microarrays; Gene expression; Keratinocytes; Lasers; Nicotinamide; Oxidative stress; Peptides; Skin; Transcription activation
• DOI: 10.1101/2021.07.07.451479

OBJECTIVE: To explore synergistic effects related to skin regeneration, peptides with distinct biological mechanisms of action were evaluated in combination in different skin cell lines in the presence or absence of niacinamide (Nam). Furthermore, the synergistic responses of peptide combinations on global gene expression were compared to the changes that occur with fractional laser resurfacing treatment, a gold standard approach for skin rejuvenation, to further define optimal peptide combinations. METHODS: Microarray profiling was used to characterize the biological responses of peptide combinations (+/- Nam) relative to the individual components in epidermal keratinocyte and dermal fibroblast cell lines. Cellular functional assays were utilized to confirm the synergistic effects of peptide combinations. Bioinformatics approaches were used to link the synergistic effects of peptide combinations on gene expression to the transcriptomics of the skin rejuvenation response from fractional laser treatment. RESULTS: Microarray analysis of skin cells treated with peptide combinations revealed synergistic changes in gene expression compared to individual peptide controls. Bioinformatic analysis of synergy genes in keratinocytes revealed activation of NRF2-mediated oxidative stress responses by a combination of Ac-PPYL, Pal-KTTKS, and Nam. Additional analysis revealed direct downstream transcriptional targets of NRF2/ARE exhibiting synergistic regulation by this combination of materials, which was corroborated by a cellular reporter assay. NRF2-mediated oxidative stress response pathways were also found to be activated in the transcriptomics of the early skin rejuvenation response to fractional laser treatment, suggesting the importance of this biology in the early stages of tissue repair. Additionally, a second combination of peptides (pal-KT and Ac-PPYL) was found to synergistically restore cellular ATP levels that had been depleted due to the presence of ROS, indicating an additional mechanism whereby peptide synergies may accelerate skin repair. CONCLUSION: Through combinatorial synergy studies, we have identified additional in vitro skin repair mechanisms beyond the previously described functions of individual peptides and correlated these to the transcriptomics of the skin rejuvenation response of fractional laser treatment. These findings suggest that specific peptides can act together, via complementary and synergistic mechanisms, to holistically enhance the regenerative capacity of in vitro skin cells. Competing Interest Statement The authors have declared no competing interest.