Beyond MITF: Multiple transcription factors directly regulate the cellular phenotype in melanocytes and melanoma

HE Seberg, E Van Otterloo… - Pigment cell & melanoma …, 2017 - Wiley Online Library
Pigment cell & melanoma research, 2017Wiley Online Library
MITF governs multiple steps in the development of melanocytes, including specification from
neural crest, growth, survival, and terminal differentiation. In addition, the level of MITF
activity determines the phenotype adopted by melanoma cells, whether invasive,
proliferative, or differentiated. However, MITF does not act alone. Here, we review literature
on the transcription factors that co‐regulate MITF‐dependent genes. Ch IP‐seq studies have
indicated that the transcription factors SOX 10, YY 1, and TFAP 2A co‐occupy subsets of …
Summary
MITF governs multiple steps in the development of melanocytes, including specification from neural crest, growth, survival, and terminal differentiation. In addition, the level of MITF activity determines the phenotype adopted by melanoma cells, whether invasive, proliferative, or differentiated. However, MITF does not act alone. Here, we review literature on the transcription factors that co‐regulate MITF‐dependent genes. ChIP‐seq studies have indicated that the transcription factors SOX10, YY1, and TFAP2A co‐occupy subsets of regulatory elements bound by MITF in melanocytes. Analyses at single loci also support roles for LEF1, RB1, IRF4, and PAX3 acting in combination with MITF, while sequence motif analyses suggest that additional transcription factors colocalize with MITF at many melanocyte‐specific regulatory elements. However, the precise biochemical functions of each of these MITF collaborators and their contributions to gene expression remain to be elucidated. Analogous to the transcriptional networks in morphogen‐patterned tissues during embryogenesis, we anticipate that the level of MITF activity is controlled not only by the concentration of activated MITF, but also by additional transcription factors that either quantitatively or qualitatively influence the expression of MITF‐target genes.
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