Rachel Fellows scite author profile

The recently discovered histone post-translational modification crotonylation connects cellular metabolism to gene regulation. Its regulation and tissue-specific functions are poorly understood. We characterize histone crotonylation in intestinal epithelia and find that histone H3 crotonylation at lysine 18 is a surprisingly abundant modification in the small intestine crypt and colon, and is linked to gene regulation. We show that this modification is highly dynamic and regulated during the cell cycle. We identify class I histone deacetylases, HDAC1, HDAC2, and HDAC3, as major executors of histone decrotonylation. We show that known HDAC inhibitors, including the gut microbiota-derived butyrate, affect histone decrotonylation. Consistent with this, we find that depletion of the gut microbiota leads to a global change in histone crotonylation in the colon. Our results suggest that histone crotonylation connects chromatin to the gut microbiota, at least in part, via short-chain fatty acids and HDACs.

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Chromatin dynamics and histone modifications in intestinal microbiota-host crosstalk

Fellows

Varga‐Weisz

2020

Molecular Metabolism

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A multisubstrate reductase from Plantago major: structure-function in the short chain reductase superfamily

Fellows

Russo

Silva

et al. 2018

Sci Rep

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The short chain dehydrogenase/reductase superfamily (SDR) is a large family of NAD(P)H-dependent enzymes found in all kingdoms of life. SDRs are particularly well-represented in plants, playing diverse roles in both primary and secondary metabolism. In addition, some plant SDRs are also able to catalyse a reductive cyclisation reaction critical for the biosynthesis of the iridoid backbone that contains a fused 5 and 6-membered ring scaffold. Mining the EST database of Plantago major, a medicinal plant that makes iridoids, we identified a putative 5β-progesterone reductase gene, PmMOR (P. major multisubstrate oxido-reductase), that is 60% identical to the iridoid synthase gene from Catharanthus roseus. The PmMOR protein was recombinantly expressed and its enzymatic activity assayed against three putative substrates, 8-oxogeranial, citral and progesterone. The enzyme demonstrated promiscuous enzymatic activity and was able to not only reduce progesterone and citral, but also to catalyse the reductive cyclisation of 8-oxogeranial. The crystal structures of PmMOR wild type and PmMOR mutants in complex with NADP+ or NAD+ and either 8-oxogeranial, citral or progesterone help to reveal the substrate specificity determinants and catalytic machinery of the protein. Site-directed mutagenesis studies were performed and provide a foundation for understanding the promiscuous activity of the enzyme.

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In vitro Enzymatic Assays of Histone Decrotonylation on Recombinant Histones

Fellows

Varga‐Weisz

2018

BIO-PROTOCOL

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Plantago Major multifunctional oxidoreductase V150M mutant in complex with citral and NADP+

Fellows¹,

Russo²,

Lee³

et al. 2018

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Rachel Fellows

Microbiota derived short chain fatty acids promote histone crotonylation in the colon through histone deacetylases

Chromatin dynamics and histone modifications in intestinal microbiota-host crosstalk

A multisubstrate reductase from Plantago major: structure-function in the short chain reductase superfamily

In vitro Enzymatic Assays of Histone Decrotonylation on Recombinant Histones

Plantago Major multifunctional oxidoreductase V150M mutant in complex with citral and NADP+

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