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Targeting gut microbiota-derived butyrate improves hepatic gluconeogenesis through the cAMP-PKA-GCN5 pathway in late pregnant sows

Longshan Qin, Weilei Yao, Tongxin Wang, Taimin Jin, Baoyin Guo, Shu Wen, F.R. Huang

2022Food & Function10 citationsDOI

Abstract

experiment showed that dietary 1-kestose, a natural regulator of gut bacteria, significantly increased butyrate and butyrate-producing bacteria, and improved the reproductive performance and serum glucose metabolism index in late-pregnancy sows. Taken together, we found that targeting gut microbiota-derived butyrate could improve hepatic gluconeogenesis through the cAMP-PKA-GCN5 pathway in late-pregnancy sows.

Topics & Concepts

ButyrateGluconeogenesisInternal medicineEndocrinologySodium butyrateBiologyGut floraMetabolismIn vivoCarbohydrate metabolismBiochemistryMedicineFermentationGeneBiotechnologyGut microbiota and healthDiet and metabolism studiesClinical Nutrition and Gastroenterology
Targeting gut microbiota-derived butyrate improves hepatic gluconeogenesis through the cAMP-PKA-GCN5 pathway in late pregnant sows | Litcius