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Sam68 promotes hepatic gluconeogenesis via CRTC2

Author

Listed:
  • Aijun Qiao

    (University of Alabama at Birmingham, School of Medicine and School of Engineering)

  • Junlan Zhou

    (Northwestern University Feinberg School of Medicine)

  • Shiyue Xu

    (University of Alabama at Birmingham, School of Medicine and School of Engineering)

  • Wenxia Ma

    (University of Alabama at Birmingham, School of Medicine and School of Engineering)

  • Chan Boriboun

    (University of Alabama at Birmingham, School of Medicine and School of Engineering)

  • Teayoun Kim

    (University of Alabama at Birmingham, School of Medicine)

  • Baolong Yan

    (University of Alabama at Birmingham, School of Medicine and School of Engineering)

  • Jianxin Deng

    (University of Alabama at Birmingham, School of Medicine and School of Engineering)

  • Liu Yang

    (University of Alabama at Birmingham, School of Medicine and School of Engineering)

  • Eric Zhang

    (University of Alabama at Birmingham, School of Medicine and School of Engineering)

  • Yuhua Song

    (University of Alabama at Birmingham, School of Medicine and School of Engineering)

  • Yongchao C. Ma

    (Northwestern University Feinberg School of Medicine, Anne & Robert H. Lurie Children’s Hospital of Chicago)

  • Stephane Richard

    (McGill University)

  • Chunxiang Zhang

    (University of Alabama at Birmingham, School of Medicine and School of Engineering)

  • Hongyu Qiu

    (Institute of Biomedical Science Georgia State University)

  • Kirk M. Habegger

    (University of Alabama at Birmingham, School of Medicine)

  • Jianyi Zhang

    (University of Alabama at Birmingham, School of Medicine and School of Engineering)

  • Gangjian Qin

    (University of Alabama at Birmingham, School of Medicine and School of Engineering
    Northwestern University Feinberg School of Medicine)

Abstract

Hepatic gluconeogenesis is essential for glucose homeostasis and also a therapeutic target for type 2 diabetes, but its mechanism is incompletely understood. Here, we report that Sam68, an RNA-binding adaptor protein and Src kinase substrate, is a novel regulator of hepatic gluconeogenesis. Both global and hepatic deletions of Sam68 significantly reduce blood glucose levels and the glucagon-induced expression of gluconeogenic genes. Protein, but not mRNA, levels of CRTC2, a crucial transcriptional regulator of gluconeogenesis, are >50% lower in Sam68-deficient hepatocytes than in wild-type hepatocytes. Sam68 interacts with CRTC2 and reduces CRTC2 ubiquitination. However, truncated mutants of Sam68 that lack the C- (Sam68ΔC) or N-terminal (Sam68ΔN) domains fails to bind CRTC2 or to stabilize CRTC2 protein, respectively, and transgenic Sam68ΔN mice recapitulate the blood-glucose and gluconeogenesis profile of Sam68-deficient mice. Hepatic Sam68 expression is also upregulated in patients with diabetes and in two diabetic mouse models, while hepatocyte-specific Sam68 deficiencies alleviate diabetic hyperglycemia and improves insulin sensitivity in mice. Thus, our results identify a role for Sam68 in hepatic gluconeogenesis, and Sam68 may represent a therapeutic target for diabetes.

Suggested Citation

  • Aijun Qiao & Junlan Zhou & Shiyue Xu & Wenxia Ma & Chan Boriboun & Teayoun Kim & Baolong Yan & Jianxin Deng & Liu Yang & Eric Zhang & Yuhua Song & Yongchao C. Ma & Stephane Richard & Chunxiang Zhang &, 2021. "Sam68 promotes hepatic gluconeogenesis via CRTC2," Nature Communications, Nature, vol. 12(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-23624-9
    DOI: 10.1038/s41467-021-23624-9
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