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Endocr J 2010, PMID: 19926919

Decreased insulin secretion and accumulation of triglyceride in beta cells overexpressing a dominant-negative form of AMP-activated protein kinase.

Okazaki, Yukiko; Eto, Kazuhiro; Yamashita, Tokuyuki; Okamoto, Masayuki; Ohsugi, Mitsuru; Noda, Mitsuhiko; Terauchi, Yasuo; Ueki, Kohjiro; Kadowaki, Takashi

Adenosine 5' -monophosphate-activated protein kinase (AMPK) has been implicated in the regulation of energy metabolism, although its role in the pancreatic beta cells remains unclear. In the present, we have overexpressed a dominant negative form of AMPKalpha1 subunit (Asp57Ala) tagged with c-myc epitope (AMPKalpha1-DN) in INS-1D cells with an adenoviral vector. After 48 h of adenoviral infection, overexpression of AMPKalpha1-DN in INS-1D cells was confirmed by Western blot analysis with anti-c-myc antibody. Phosphorylation of the Thr172 in AMPKalpha1/alpha2 subunit was progressively decreased in parallel with increasing number of adenoviral titers. Glucose-stimulated insulin secretion in response to 30 mmol/L glucose was decreased in INS-1D cells overexpressing AMPKalpha1-DN as compared to control cells infected with adeno- LacZ vector. Neither cellular insulin content nor insulin mRNA level was changed between the two groups. Phosphorylation of acetyl-CoA carboxylase (ACC), a down-stream substrate of AMPK, was decreased, indicating that ACC activity was increased, due to the decreased AMPK activity. In fact, intracellular triglyceride content was increased as compared to control cells. The beta-oxidation of palmitate was decreased at 30 mmol/L glucose. Insulin secretion in response to potassium chloride or glibenclamide was also decreased as compared to control cells. In conclusion, suppression of AMPK activity in beta-cells inhibited insulin secretion in response to glucose, potassium chloride or glibenclamide without altering insulin content. Accumulation of triglyceride subsequent to the activation of ACC by suppression of AMPK activity, was suggested to be, at least in part, responsible for the impaired insulin secretion through so-called lipotoxicity mechanism.

Document information provided by NCBI PubMed

Text Mining Data

insulin → AMPK: " In conclusion, suppression of AMPK activity in beta-cells inhibited insulin secretion in response to glucose, potassium chloride or glibenclamide without altering insulin content "

ACC ⊣ AMPK: " Accumulation of triglyceride subsequent to the activation of ACC by suppression of AMPK activity, was suggested to be, at least in part, responsible for the impaired insulin secretion through so-called lipotoxicity mechanism "

Manually curated Databases

No curated data.