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Lack of TRPV1 Channel Modulates Mouse Gene Expression and Liver Proteome with Glucose Metabolism Changes

José Thalles Lacerda, Patrícia Rodrigues Lourenço Gomes, Giovanna Zanetti, Nathana Mezzalira, Otoniel Gonçalves Lima, Leonardo Vinícius Monteiro de Assis, Ali D. Güler, Ana Maria de Lauro Castrucci, Maria Nathália Moraes

2022International Journal of Molecular Sciences19 citationsDOIOpen Access PDF

Abstract

To investigate the role of the transient receptor potential channel vanilloid type 1 (TRPV1) in hepatic glucose metabolism, we analyzed genes related to the clock system and glucose/lipid metabolism and performed glycogen measurements at ZT8 and ZT20 in the liver of C57Bl/6J (WT) and Trpv1 KO mice. To identify molecular clues associated with metabolic changes, we performed proteomics analysis at ZT8. Liver from Trpv1 KO mice exhibited reduced Per1 expression and increased Pparα, Pparγ, Glut2, G6pc1 (G6pase), Pck1 (Pepck), Akt, and Gsk3b expression at ZT8. Liver from Trpv1 KO mice also showed reduced glycogen storage at ZT8 but not at ZT20 and significant proteomics changes consistent with enhanced glycogenolysis, as well as increased gluconeogenesis and inflammatory features. The network propagation approach evidenced that the TRPV1 channel is an intrinsic component of the glucagon signaling pathway, and its loss seems to be associated with increased gluconeogenesis through PKA signaling. In this sense, the differentially identified kinases and phosphatases in WT and Trpv1 KO liver proteomes show that the PP2A phosphatase complex and PKA may be major players in glycogenolysis in Trpv1 KO mice.

Topics & Concepts

GLUT2GlycogenolysisGluconeogenesisGlycogenTRPV1Internal medicineEndocrinologyProtein kinase BBiologyGlycogen synthaseGlucose 6-phosphatasePhosphataseProteomeChemistryCell biologyBiochemistryGlucose transporterSignal transductionMetabolismPhosphorylationReceptorTransient receptor potential channelInsulinEnzymeMedicineCircadian rhythm and melatoninGenetics, Aging, and Longevity in Model OrganismsIon Channels and Receptors
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