Selenium Deficiency-induced Redox Imbalance Leads to Metabolic Reprogramming and Inflammation in the Liver

Overview

Journal Redox Biol

Specialties Biology
Cell Biology
Endocrinology

Date 2020 Jun 13

PMID 32531544

Citations 33

Authors

Chaohua Tang

Shuang Li

Kai Zhang

Jing Li

Yunsheng Han

Tengfei Zhan

Qingyu Zhao

Xiaoqing Guo

Junmin Zhang

Affiliations

Soon will be listed here.

Abstract

Selenium (Se) intake disequilibrium is associated with many human diseases (e.g., Keshan disease and type 2 diabetes). To understand the mechanism of Se deficiency-induced hepatic pathogenesis, a pure line pig model was established by feeding a diet with either 0.07 mg/kg Se or 0.3 mg/kg Se for 16 weeks. The hepatic metabolome, lipidome, global proteome, and whole transcriptome were analyzed. Se deficiency causes a redox imbalance via regulation of selenoproteins at both the mRNA and protein level, and blocks the glutathione anti-oxidant system along with enhanced glutathione synthesis and catabolism. The Warburg effect was observed by enhanced activation of the glycolysis and phosphate pentose pathways. The tricarboxylic acid cycle was dysfunctional since the preliminary metabolites decreased and shifted from using glycolysis origin substrates to a glutamine catabolism-preferred metabolic mode. The reprogrammed central carbon metabolism induced widely restrained lipid synthesis. In addition, a Se deficiency initiated inflammation by activating the NF-κB pathway through multiple mechanisms. These results identified the potential metabolic vulnerability of the liver in response to a Se deficiency-induced redox imbalance and possible therapeutic or intervention targets.

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