Connecting the dots: Melanoma cell of origin, tumor cell plasticity, trans-differentiation, and drug resistance

dc.contributor.authorCastro-Pérez, Edgardo
dc.contributor.authorSingh, Mithalesh
dc.contributor.authorSadangi, Shreyans
dc.contributor.authorMela-Sánchez, Carmen
dc.contributor.authorSetaluri, Vijayasaradhi
dc.date.accessioned2026-06-09T15:22:16Z
dc.date.issued2023-05-23
dc.description.abstractMelanoma, a lethal malignancy that arises from melanocytes, exhibits a multiplicity of clinico-pathologically distinct subtypes in sun-exposed and non-sun-exposed areas. Melanocytes are derived from multipotent neural crest cells and are present in diverse anatomical locations, including skin, eyes, and various mucosal membranes. Tissue-resident melanocyte stem cells and melanocyte precursors contribute to melanocyte renewal. Elegant studies using mouse genetic models have shown that melanoma can arise from either melanocyte stem cells or differentiated pigment-producing melanocytes depending on a combination of tissue and anatomical site of origin and activation of oncogenic mutations (or overexpression) and/or the repression in expression or inactivating mutations in tumor suppressors. This variation raises the possibility that different subtypes of human melanomas (even subsets within each subtype) may also be a manifestation of malignancies of distinct cells of origin. Melanoma is known to exhibit phenotypic plasticity and trans-differentiation (defined as a tendency to differentiate into cell lineages other than the original lineage from which the tumor arose) along vascular and neural lineages. Additionally, stem cell-like properties such as pseudo-epithelial-to-mesenchymal (EMT-like) transition and expression of stem cell-related genes have also been associated with the development of melanoma drug resistance. Recent studies that employed reprogramming melanoma cells to induced pluripotent stem cells have uncovered potential relationships between melanoma plasticity, trans-differentiation, and drug resistance and implications for cell or origin of human cutaneous melanoma. This review provides a comprehensive summary of the current state of knowledge on melanoma cell of origin and the relationship between tumor cell plasticity and drug resistance.
dc.description.sponsorshipINDICASAT-AIP GRANT 015-2020; National Secretary for Science, Technology, and Innovation (SENACYT, Panama) grant PFID-FID-2021-177; and by Sistema Nacional de Investigación (SNI-SENACYT, Panama)
dc.identifier.citationCastro-Pérez, E., Singh, M., Sadangi, S., Mela-Sánchez, C., & Setaluri, V. (2023). Connecting the dots: Melanoma cell of origin, tumor cell plasticity, trans-differentiation, and drug resistance. Pigment Cell & Melanoma Research, 36, 330–347. https://doi.org/10.1111/pcmr.13092
dc.identifier.urihttps://cancer.senacyt.gob.pa/handle/123456789/120
dc.language.isoen
dc.publisherPigment Cell & Melanoma Research
dc.relation.ispartofseries36; 5
dc.subjectBRAF/MEK inhibitors
dc.subjectdrug resistance
dc.subjectmelanoma cell of origin
dc.subjectmelanoma plasticity and trans-differentiation
dc.subjectmelanoma stem cells
dc.subjectmelanoma-derived iPSC
dc.titleConnecting the dots: Melanoma cell of origin, tumor cell plasticity, trans-differentiation, and drug resistance
dc.typeArticle
oaire.awardNumberPFID-FID-2021-177

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