The short-chain fatty acid butyrate, produced by the gut microbiota, acts as a potent histone deacetylase (HDAC) inhibitor. We assessed possible ameliorative effects of butyrate, relative to other HDAC inhibitors, in in vitro and in vivo models of Rubinstein–Taybi syndrome (RSTS), a severe neurodevelopmental disorder caused by variants in the genes encoding the histone acetyltransferases CBP and p300. In RSTS cell lines, butyrate led to the patient-specific rescue of acetylation defects at subtoxic concentrations. Remarkably, we observed that the commensal gut microbiota composition in a cohort of RSTS patients is significantly depleted in butyrate-producing bacteria compared to healthy siblings. We demonstrate that the effects of butyrate and the differences in microbiota composition are conserved in a Drosophila melanogaster mutant for CBP, enabling future dissection of the gut–host interactions in an in vivo RSTS model. This study sheds light on microbiota composition in a chromatinopathy, paving the way for novel therapeutic interventions.
Insights into the role of the microbiota and of short-chain fatty acids in Rubinstein–Taybi syndrome / E. Di Fede, E. Ottaviano, P. Grazioli, C. Ceccarani, A. Galeone, C. Parodi, E.A. Colombo, G. Bassanini, G. Fazio, M. Severgnini, D. Milani, E. Verduci, T. Vaccari, V. Massa, E. Borghi, C. Gervasini. - In: INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES. - ISSN 1661-6596. - 22:7(2021 Mar 31), pp. 3621.1-3621.16. [10.3390/ijms22073621]
Insights into the role of the microbiota and of short-chain fatty acids in Rubinstein–Taybi syndrome
E. Di FedeCo-primo
;E. OttavianoCo-primo
;P. Grazioli;C. Ceccarani;A. Galeone;C. Parodi;E.A. Colombo;G. Bassanini;D. Milani;E. Verduci;T. Vaccari;V. Massa;E. Borghi;C. Gervasini
2021
Abstract
The short-chain fatty acid butyrate, produced by the gut microbiota, acts as a potent histone deacetylase (HDAC) inhibitor. We assessed possible ameliorative effects of butyrate, relative to other HDAC inhibitors, in in vitro and in vivo models of Rubinstein–Taybi syndrome (RSTS), a severe neurodevelopmental disorder caused by variants in the genes encoding the histone acetyltransferases CBP and p300. In RSTS cell lines, butyrate led to the patient-specific rescue of acetylation defects at subtoxic concentrations. Remarkably, we observed that the commensal gut microbiota composition in a cohort of RSTS patients is significantly depleted in butyrate-producing bacteria compared to healthy siblings. We demonstrate that the effects of butyrate and the differences in microbiota composition are conserved in a Drosophila melanogaster mutant for CBP, enabling future dissection of the gut–host interactions in an in vivo RSTS model. This study sheds light on microbiota composition in a chromatinopathy, paving the way for novel therapeutic interventions.
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