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The Role of p21-activated Protein Kinase 1 in Metabolic Homeostasis

Our laboratory has demonstrated previously that the proglucagon gene (gcg), which encodes the incretin hormone GLP-1, is among the downstream targets of the Wnt signaling pathway; and that Pak1 mediates the stimulatory effect of insulin on Wnt target gene expression in mouse gut non- endocrine cells. Here, I asked whether Pak1 controls gut gcg expression and GLP-1 production, and whether Pak1 deletion leads to impaired metabolic homeostasis in mice. I detected the expression of Pak1 and two other group I Paks in the gut endocrine L cell line GLUTag, and co-localized Pak1 and GLP-1 in the mouse gut. Insulin was shown to stimulate Pak1 Thr423 and β-cat Ser675 phosphorylation. The stimulation of insulin on β-cat Ser675 phosphorylation, gcg promoter activity and gcg mRNA expression could be attenuated by the Pak inhibitor IPA3. Male Pak1-/- mice showed significant reduction in both gut and brain gcg expression levels, and attenuated elevation of plasma GLP-1 levels in response to oral glucose challenge. Notably, the Pak1-/- mice were intolerant to both intraperitoneal and oral glucose administration. Aged Pak1-/- mice showed a severe defect in response to intraperitoneal pyruvate challenge (IPPTT). In primary hepatocytes, however, IPA3 reduced basal glucose production, attenuated glucagon-stimulated glucose production, and inhibited the expression of Pck1 and G6pc. This implicates that the direct effect of group I Paks in hepatocytes is the stimulation of gluconeogenesis, and that the impairment in IPPTT in aged Pak1-/- mice is due to the lack of Pak1 elsewhere. The defect in IPPTT in aged Pak1-/- mice could be rescued by stimulating gcg expression with forskolin injection or by enhancing the incretin effect via sitagliptin administration. In summary, my study demonstrates that: 1) Pak1 positively regulates GLP-1 production, 2) Pak1/β-cat signaling plays a role in gut/liver axis or gut/pancreas/liver axis governing glucose homeostasis, and 3) Pak1-/- mice can be utilized as a novel model for metabolic research.

Identiferoai:union.ndltd.org:LACETR/oai:collectionscanada.gc.ca:OTU.1807/44107
Date27 March 2014
CreatorsChiang, Yu-ting
ContributorsJin, Tianru
Source SetsLibrary and Archives Canada ETDs Repository / Centre d'archives des thèses électroniques de Bibliothèque et Archives Canada
Languageen_ca
Detected LanguageEnglish
TypeThesis

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