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Propionate induces intestinal oxidative stress via Sod2 propionylation in zebrafish

Qianwen Ding, Zhen Zhang, Yu Li, Hongliang Liu, Qiang Hao, Yalin Yang, Einar Ringø, Rolf Erik Olsen, Jihong Liu Clarke, Chao Ran, Zhigang Zhou

2021iScience39 citationsDOIOpen Access PDF

Abstract

Propionate and propionyl-CoA accumulation have been associated with the development of mitochondrial dysfunction. In this study, we show that propionate induces intestinal damage in zebrafish when fed a high-fat diet (HFD). The intestinal damage was associated with oxidative stress owing to compromised superoxide dismutase 2 (Sod2) activity. Global lysine propionylation analysis of the intestinal samples showed that Sod2 was propionylated at lysine 132 (K132), and further biochemical assays demonstrated that K132 propionylation suppressed Sod2 activity. In addition, sirtuin 3 (Sirt3) played an important role in regulating Sod2 activity via modulating de-propionylation. Finally, we revealed that intestinal oxidative stress resulting from Sod2 propionylation contributed to compositional change of gut microbiota. Collectively, our results in this study show that there is a link between Sod2 propionylation and oxidative stress in zebrafish intestines and highlight the potential mechanism of intestinal problems associated with high propionate levels.

Topics & Concepts

SOD2Oxidative stressSIRT3Superoxide dismutaseSirtuinPropionateChemistryBiologyBiochemistryAcetylationGeneAdipose Tissue and MetabolismLiver Disease Diagnosis and TreatmentMitochondrial Function and Pathology