| Literature DB >> 31709752 |
Desingu Ayyappa Raja1,2, Vishvabandhu Gotherwal1,2, Shaunak A Burse1,2, Yogaspoorthi J Subramaniam1,2, Farina Sultan1,2, Archana Vats1, Hemlata Gautam1, Babita Sharma1,2, Sachin Sharma1,2, Archana Singh1,2, Sridhar Sivasubbu1, Rajesh S Gokhale1, Vivek T Natarajan1,2.
Abstract
Tanning response and melanocyte differentiation are mediated by the central transcription factor MITF. This involves the rapid and selective induction of melanocyte maturation genes, while concomitantly the expression of other effector genes is maintained. In this study, using cell-based and zebrafish model systems, we report on a pH-mediated feed-forward mechanism of epigenetic regulation that enables selective amplification of the melanocyte maturation program. We demonstrate that MITF activation directly elevates the expression of the enzyme carbonic anhydrase 14 (CA14). Nuclear localization of CA14 leads to an increase of the intracellular pH, resulting in the activation of the histone acetyl transferase p300/CBP. In turn, enhanced H3K27 histone acetylation at selected differentiation genes facilitates their amplified expression via MITF. CRISPR-mediated targeted missense mutation of CA14 in zebrafish results in the formation of immature acidic melanocytes with decreased pigmentation, establishing a central role for this mechanism during melanocyte differentiation in vivo. Thus, we describe an epigenetic control system via pH modulation that reinforces cell fate determination by altering chromatin dynamics.Entities:
Keywords: epigenetics and zebrafish; histone acetylation; p300/CBP; pH regulation; pigmentation
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Year: 2019 PMID: 31709752 PMCID: PMC6945066 DOI: 10.15252/embr.201948333
Source DB: PubMed Journal: EMBO Rep ISSN: 1469-221X Impact factor: 8.807