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Cell-specific transcriptional control of mitochondrial metabolism by TIF1γ drives erythropoiesis

Authors
Marlies P. Rossmann,Karen Hoi
Victoria Chan,Brian J. Abraham,Song Yang,James Mullahoo,Malvina Papanastasiou,Ying Wang,Ilaria Elia,Julie R. Perlin,Elliott J. Hagedorn,Sara Hetzel,Raha Weigert,Sejal Vyas,Partha P. Nag,Lucas B. Sullivan,Curtis R. Warren,Bilguujin Dorjsuren,Eugenia Custo Greig,Isaac Adatto,Chad A. Cowan,Stuart L. Schreiber,Richard A. Young,Alexander Meissner,Marcia C. Haigis,Siegfried Hekimi,Steven A. Carr,Leonard I. Zon,Marlies Rossmann,Brian Abraham,Julie Perlin,Elliott Hagedorn,Partha Nag,Lucas Sullivan,Curtis Warren,Eugenia Greig,Chad Cowan,Stuart Schreiber,Richard Young,Marcia Haigis,Steven Carr
+39 authors
,Leonard Zon
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May 14, 2021
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Abstract

Transcription and metabolism both influence cell function, but dedicated transcriptional control of metabolic pathways that regulate cell fate has rarely been defined. We discovered, using a chemical suppressor screen, that inhibition of the pyrimidine biosynthesis enzyme dihydroorotate dehydrogenase (DHODH) rescues erythroid differentiation in bloodless zebrafish moonshine (mon) mutant embryos defective for transcriptional intermediary factor 1 gamma (tif1γ). This rescue depends on the functional link of DHODH to mitochondrial respiration. The transcription elongation factor TIF1γ directly controls coenzyme Q (CoQ) synthesis gene expression. Upon tif1γ loss, CoQ levels are reduced, and a high succinate/α-ketoglutarate ratio leads to increased histone methylation. A CoQ analog rescues mon's bloodless phenotype. These results demonstrate that mitochondrial metabolism is a key output of a lineage transcription factor that drives cell fate decisions in the early blood lineage.

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