Engineered Nanoclusters to Selectively Reduce Mesenchymal and Epithelial Melanoma Cell Viability
Olga M. Rodríguez Martínez, Amy Wu-Wu, Valeria S. Arroyo Suárez, Karina Ruiz Rivera, Krystal A. Quirindongo Ortíz, Kiara Y. González Pérez, Miguel E. Castro Rosario

TL;DR
Calcium sulfide nanoclusters selectively reduce melanoma cell viability without harming normal cells, potentially offering a new treatment approach.
Contribution
The study introduces CaS nanoclusters as a novel method to target both epithelial and mesenchymal melanoma phenotypes.
Findings
CaS nanoclusters reduced melanoma viability by inducing intrinsic apoptosis with minimal impact on fibroblasts.
Treated mesenchymal melanoma cells showed vinculin delocalization, while epithelial-like cells had increased focal adhesion points.
Caspase 3 and 9 expression increased significantly in treated melanomas, supporting apoptosis induction.
Abstract
The ability of melanoma cells to switch among different phenotypes facilitates metastasis and evasion of treatments. We use CaS nanoclusters to selectively reduce the viability of epithelial- and mesenchymal-like melanoma phenotypes with no significant effect on benign fibroblast viability. The nanoclusters reduce melanoma viability in melanomas with either phenotypes by intrinsic apoptosis as supported by fluoresccence imagng measurements of translocated cytochrome-c and the increase in caspase 3 and 9 average expression. Interestinly, vincluin was found to delocalize in the cytoplasm of treated melanomas with the mesenchymal-like phenotype. In melanomas with epithelial-like phenotypes, the number of focal adhession points at the cell membrane-extracellular matrix interphase is found to increase compared to the control. The results encourage future preclinical work with animal models.…
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Taxonomy
TopicsNanoplatforms for cancer theranostics · RNA Interference and Gene Delivery · Advanced biosensing and bioanalysis techniques
