Melanoma mutations modify melanocyte dynamics in co-culture with keratinocytes or fibroblasts
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Stevenson, AJ
Ehmann, A
Ainger, SA
Lanagan, C
Sturm, RA
Gabrielli, B
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Abstract
Melanocytic cell interactions are integral to skin homeostasis, and affect the outcome of multiple diseases, including cutaneous pigmentation disorders and melanoma. By using automated-microscopy and machine-learning-assisted morphology analysis of primary human melanocytes in co-culture, we performed combinatorial interrogation of melanocyte genotypic variants and functional assessment of lentivirus-introduced mutations. Keratinocyte-induced melanocyte dendricity, an indicator of melanocyte differentiation, was reduced in the melanocortin 1 receptor (MC1R) R/R variant strain and by NRAS.Q61K and BRAF.V600E expression, while expression of CDK4.R24C and RAC1.P29S had no detectable effect. Time-lapse tracking of melanocytes in co-culture revealed dynamic interaction phenotypes and hyper-motile cell states that indicated that, in addition to the known role in activating mitogenic signalling, MEK-pathway-activating mutations may also allow melanocytes to escape keratinocyte control and increase their invasive potential. Expanding this combinatorial platform will identify other therapeutic target mutations and melanocyte genetic variants, as well as increase understanding of skin cell interactions.
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Journal of Cell Science
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132
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24
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© 2019. Company of Biologists Ltd. The attached file is reproduced here in accordance with the copyright policy of the publisher. Please refer to the journal's website for access to the definitive, published version.
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Oncology and carcinogenesis
Biological sciences
Biomedical and clinical sciences
Biochemistry and cell biology
Fibroblasts
High-content-imaging
Keratinocytes
Melanocytes
Melanoma
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Škalamera, D; Stevenson, AJ; Ehmann, A; Ainger, SA; Lanagan, C; Sturm, RA; Gabrielli, B, Melanoma mutations modify melanocyte dynamics in co-culture with keratinocytes or fibroblasts, Journal of Cell Science, 2019, 132 (24)