The histone deacetylase inhibitor butyrate improves metabolism and reduces muscle atrophy during aging

Walsh, Michael; Bhattacharya, Alok; Sataranatarajan, Kavithalakshmi; Qaisar, Rizwan; Sloane, Lauren; Rahman, Matlubur; Kinter, Michael; Remmen, Holly Van

doi:10.1111/acel.12387

Cited by 221 publications

(173 citation statements)

References 44 publications

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“…It is becoming evident that histone acetylation plays a more nuanced role in gene regulation, with site specific changes in histone acetylation playing just as important a role as more global alterations (Peleg et al, 2016). It is notable that lifespan increases associated with treatment with histone deacetylase inhibitors (HDACi's) such as trichostatin A (TSA) and butyrate often show more targeted gene-specific effects (Tao et al, 2004;Walsh et al, 2015). There may be a role for both approaches in maximising health and longevity, whereby global reduction in histone acetylation can be paired with gene specific retention of histone acetylation to maintain optimal gene expression programs through the life course, by carefully tailored application of nutritional interventions in conjunction with HDAC inhibitors.…”

Section: Accepted M Manuscriptmentioning

confidence: 99%

Targeting chromatin aging - The epigenetic impact of longevity-associated interventions

Field

Adams

2017

Experimental Gerontology

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Section: Accepted M Manuscriptmentioning

confidence: 99%

Targeting chromatin aging - The epigenetic impact of longevity-associated interventions

Field

Adams

2017

Experimental Gerontology

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“…Following denervation, HDAC4 indirectly regulates myogenin expression, thereby connecting neuronal activity to skeletal muscle transcriptional reprogramming of the neuromuscular junctions and compensatory reinnervation [35]. Considering its crucial role, HDAC4 has been proposed as a potential therapeutic target for diseases characterized by neurogenic muscle atrophy, such as ALS or SMA, or for sarcopenia [36][37][38][39]. Any pharmacological treatment with HDAC4 inhibitors for these conditions should be continued for months or years.…”

Section: Introductionmentioning

confidence: 99%

HDAC4 preserves skeletal muscle structure following long-term denervation by mediating distinct cellular responses

et al. 2018

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Background: Denervation triggers numerous molecular responses in skeletal muscle, including the activation of catabolic pathways and oxidative stress, leading to progressive muscle atrophy. Histone deacetylase 4 (HDAC4) mediates skeletal muscle response to denervation, suggesting the use of HDAC inhibitors as a therapeutic approach to neurogenic muscle atrophy. However, the effects of HDAC4 inhibition in skeletal muscle in response to long-term denervation have not been described yet. Methods: To further study HDAC4 functions in response to denervation, we analyzed mutant mice in which HDAC4 is specifically deleted in skeletal muscle. Results: After an initial phase of resistance to neurogenic muscle atrophy, skeletal muscle with a deletion of HDAC4 lost structural integrity after 4 weeks of denervation. Deletion of HDAC4 impaired the activation of the ubiquitin-proteasome system, delayed the autophagic response, and dampened the OS response in skeletal muscle. Inhibition of the ubiquitinproteasome system or the autophagic response, if on the one hand, conferred resistance to neurogenic muscle atrophy; on the other hand, induced loss of muscle integrity and inflammation in mice lacking HDAC4 in skeletal muscle. Moreover, treatment with the antioxidant drug Trolox prevented loss of muscle integrity and inflammation in in mice lacking HDAC4 in skeletal muscle, despite the resistance to neurogenic muscle atrophy. Conclusions: These results reveal new functions of HDAC4 in mediating skeletal muscle response to denervation and lead us to propose the combined use of HDAC inhibitors and antioxidant drugs to treat neurogenic muscle atrophy.

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“…Butyrate treatment starting at 16 months of age wholly or partially protected against muscle atrophy in hind-limb muscles. The data show a beneficial effect of butyrate on muscle mass during aging and suggest HDACs contribute to age-related muscle atrophy and may be effective targets for intervention in sarcopenia and agerelated metabolic disease [12] . Henagan TM.…”

Section: Effect Of Butyrate To Insulin Resis-tance and Energy Expendimentioning

confidence: 84%

“…Measurement of expired 13 CO2 after rectally administering [1][2][3][4][5][6][7][8][9][10][11][12][13] C]-butyrate in active and quiescent UC appears to be a promising and reliable method for evaluating disease activity and metabolic changes associated with amelioration of inflammation [10] . Gao Z. and his group examined the role of butyrate in the regulation of insulin sensitivity in dietary-obese C57BL/6J mice.…”

Section: Effect Of Butyrate To Insulin Resis-tance and Energy Expendimentioning

confidence: 99%

Possible Prophylaxes of Aloe Vera Gel Ingestion to Butyrate Metabolism

Yagi

Kabbash

Al-Madboly

2016

Journal of Gastroenterology and Hepatology Research

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There is a growing interest in butyrate because its impact on epigenetic mechanisms will lead to more specific and efficacious therapeutic strategies for the presentation and treatment of different disease ranging from genetic/metabolic conditions to neurological degeneration disorders. The dietary natural source of butyrate through a high fiber diet or butyrate produced by fermentation of non-digestive fiber, such as acemannan in Aloe Vera leaf gel, is a highly appealing approach to present a simple and relatively low risk method to potentially improve outcomes in aged people with brain troubles. In this review, we will discuss the pharmacological effects of butyrate as a histone deacetylase inhibitor to an insulin resistance and energy expenditure, and as pro-drugs to ulcerative colitis and cancer, and the gut-liver axis in pre-clinical treatment.

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The histone deacetylase inhibitor butyrate improves metabolism and reduces muscle atrophy during aging

Cited by 221 publications

References 44 publications

Targeting chromatin aging - The epigenetic impact of longevity-associated interventions

Targeting chromatin aging - The epigenetic impact of longevity-associated interventions

HDAC4 preserves skeletal muscle structure following long-term denervation by mediating distinct cellular responses

Possible Prophylaxes of Aloe Vera Gel Ingestion to Butyrate Metabolism

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