Diwash Acharya scite author profile

Numerous chromatin-remodeling factors are regulated by interactions with RNA, although the contexts and functions of RNA binding are poorly understood. Here we show that R-loops, RNA:DNA hybrids consisting of nascent transcripts hybridized to template DNA, modulate the binding of two key chromatin regulatory complexes, Tip60–p400 and polycomb repressive complex 2 (PRC2) in mouse embryonic stem cells (ESCs). Like PRC2, the Tip60–p400 histone acetyltransferase complex binds to nascent transcripts, but unlike PRC2, transcription promotes chromatin binding by Tip60–p400. Interestingly, we observed higher Tip60–p400 and lower PRC2 levels at genes marked by promoter-proximal R-loops. Furthermore, disruption of R-loops broadly reduced Tip60–p400 and increased PRC2 occupancy genome-wide. Consistent with these alterations, ESCs with reduced R-loops exhibited impaired differentiation. These results show that R-loops act both positively and negatively to modulate the recruitment of key pluripotency regulators.

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KAT-Independent Gene Regulation by Tip60 Promotes ESC Self-Renewal but Not Pluripotency

Acharya

Hainer

Yoon

et al. 2017

Cell Reports

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Summary Although histone-modifying enzymes are generally assumed to function in a manner dependent on their enzymatic activities, this assumption remains untested for many factors. Here we show the Tip60 (Kat5) lysine acetyltransferase (KAT), which is essential for embryonic stem cell (ESC) self-renewal and pre-implantation development, performs these functions independently of its KAT activity. Unlike ESCs depleted of Tip60, KAT–deficient ESCs exhibited minimal alterations in gene expression, chromatin accessibility at Tip60 binding sites, and self-renewal, thus demonstrating a critical KAT–independent role of Tip60 in ESC maintenance. In contrast, KAT–deficient ESCs exhibited impaired differentiation into mesoderm and endoderm, demonstrating a KAT–dependent function in differentiation. Consistent with this phenotype, KAT–deficient mouse embryos exhibited post-implantation developmental defects. These findings establish separable KAT–dependent and KAT–independent functions of Tip60 in ESCs and during differentiation, revealing a complex repertoire of regulatory functions for this essential chromatin remodeling complex.

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Sptlc1 is essential for myeloid differentiation and hematopoietic homeostasis

Parthibane

Acharya

Madabushi

et al. 2019

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SSSPTA is essential for serine palmitoyltransferase function during development and hematopoiesis

Parthibane

Acharya

Abimannan

et al. 2021

Journal of Biological Chemistry

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Serine palmitoyltransferase complex (SPT) mediates the first and rate-limiting step in the de novo sphingolipid biosynthetic pathway. The larger subunits SPTLC1 and SPTLC2/SPTLC3 together form the catalytic core while a smaller third subunit either SSSPTA or SSSPTB has been shown to increase the catalytic efficiency and provide substrate specificity for the fatty acyl-CoA substrates. The in vivo biological significance of these smaller subunits in mammals is still unknown. Here, using two null mutants, a conditional null for ssSPTa and a null mutant for ssSPTb, we show that SSSPTA is essential for embryogenesis and mediates much of the known functions of the SPT complex in mammalian hematopoiesis. The ssSPTa null mutants are embryonic lethal at E6.5 much like the Sptlc1 and Sptlc2 null alleles. Mx1-Cre induced deletion of ssSPTa leads to lethality and myelopoietic defect. Chimeric and competitive bone marrow transplantation experiments show that the defect in myelopoiesis is accompanied by an expansion of the Lin − Sca1 + c-Kit + stem and progenitor compartment. Progenitor cells that fail to differentiate along the myeloid lineage display evidence of endoplasmic reticulum stress. On the other hand, ssSPTb null mice are homozygous viable, and analyses of the bone marrow cells show no significant difference in the proliferation and differentiation of the adult hematopoietic compartment. SPTLC1 is an obligatory subunit for the SPT function, and because Sptlc1 −/− and ssSPTa −/− mice display similar defects during development and hematopoiesis, we conclude that an SPT complex that includes SSSPTA mediates much of its developmental and hematopoietic functions in a mammalian model.

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Diwash Acharya

R loops regulate promoter-proximal chromatin architecture and cellular differentiation

KAT-Independent Gene Regulation by Tip60 Promotes ESC Self-Renewal but Not Pluripotency

Sptlc1 is essential for myeloid differentiation and hematopoietic homeostasis

SSSPTA is essential for serine palmitoyltransferase function during development and hematopoiesis

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