Blocking ASIP to Protect MC1R Signaling and Mitigate Melanoma Risk: An In Silico Study
Farah Maarfi, Mohammed Cherkaoui, Sana Afreen, Mohd Yasir Khan

TL;DR
This study uses computer modeling to find a compound that blocks a protein interaction linked to skin cancer risk, aiming to protect skin from UV damage.
Contribution
A novel in silico pipeline identifies ZINC14539068 as a potential ASIP inhibitor to preserve eumelanin production and reduce melanoma risk.
Findings
Compound ZINC14539068 showed favorable pharmacophore and docking properties against ASIP.
Molecular dynamics simulations confirmed the stability of ZINC14539068 at the ASIP binding site.
The compound is predicted to disrupt ASIP–MC1R interaction and promote eumelanin-biased signaling.
Abstract
Background: Melanin protects skin and hair from the effects of ultraviolet (UV) radiation damage, which contributes to all forms of skin cancer, including melanoma. Human melanocytes produce two main types of melanin: eumelanin provides effective photoprotection, and pheomelanin offers less protection against UV-induced skin damage. The agouti signaling protein (ASIP) antagonizes the melanocortin-1 receptor (MC1R), hinders melanocyte signaling, and shifts pigmentation toward pheomelanin, promoting UV vulnerability. In this study, we aim to discover compounds that inhibit ASIP–MC1R interaction and effectively preserve eumelanogenic signaling. Methods: The ASIP–MC1R interface-based pharmacophore model from ASIP is implicated in MC1R receptor protein engagement. We performed virtual screening with a validated pharmacophore model for ~4000 compounds curated from ZINCPharmer and applied…
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Taxonomy
Topicsmelanin and skin pigmentation · Melanoma and MAPK Pathways · Regulation of Appetite and Obesity
