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Differential Kat3 Usage Orchestrates the Integration of Cellular Metabolism with Differentiation.

Xiaohui HuMasaya OnoNyam-Osor ChimgeKeisuke ChosaCu NguyenElizabeth MelendezChih-Hong LouPunnajit P LimJohn S TerminiKeane K Y LaiPatrick T FuegerJia-Ling TeoYusuke HiguchiMichael Kahn
Published in: Cancers (2021)
The integration of cellular status with metabolism is critically important and the coupling of energy production and cellular function is highly evolutionarily conserved. This has been demonstrated in stem cell biology, organismal, cellular and tissue differentiation and in immune cell biology. However, a molecular mechanism delineating how cells coordinate and couple metabolism with transcription as they navigate quiescence, growth, proliferation, differentiation and migration remains in its infancy. The extreme N-termini of the Kat3 coactivator family members, CBP and p300, by far the least homologous regions with only 66% identity, interact with members of the nuclear receptor family, interferon activated Stat1 and transcriptionally competent β-catenin, a critical component of the Wnt signaling pathway. We now wish to report based on multiomic and functional investigations, utilizing p300 knockdown, N-terminal p300 edited and p300 S89A edited cell lines and p300 S89A knockin mice, that the N-termini of the Kat3 coactivators provide a highly evolutionarily conserved hub to integrate multiple signaling cascades to coordinate cellular metabolism with the regulation of cellular status and function.
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