Skeletal Muscle-Selective Knockout of LKB1 Increases Insulin Sensitivity, Improves Glucose Homeostasis, and Decreases TRB3

Koh, Ho Jin; Arnolds, David E.; Fujii, Nobuharu; Tran, Thien T.; Rogers, Marc J.; Jessen, Niels; Li, Yangfeng; Liew, Chong Wee; Ho, Richard C.; Hirshman, Michael F.; Kulkarni, Rohit; Kahn, C. Ronald; Goodyear, Laurie J.

doi:10.1128/mcb.00979-06

Cited by 180 publications

(217 citation statements)

References 57 publications

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“…Trib2 has a role in adipogenesis in combination with the degradation of C/EBPbeta (Naiki et al, 2007). Trib3 promotes ubiquitination and degradation of proteins involved in cell-cycle regulation and oogenesis through an interaction with activation transcription factor 4, and is involved in the Pten pathway through interaction with Akt (Mata et al, 2000;Du et al, 2003;He et al, 2006;Koh et al, 2006;Kato and Du, 2007;Yao and Nyomba, 2008). Trib3 expression is increased in several primary tumours and cancer cell lines and can be controlled by nutrient starvation, which is consistent with these data (Bowers et al, 2003;Schwarzer et al, 2006;Xu et al, 2007).…”

Section: Discussionsupporting

confidence: 77%

“…Here we report on TRIB3 gene in the chromosomal region at 20p13, which is overexpressed in CRC, as a new marker for prognosis and metachronous metastasis. Trib3 is a human homologue of Drosophila tribbles 3, which regulates cell growth, differentiation, oogenesis and metabolism by promoting ubiquitination-dependent degradation of other proteins, interacts with several transcriptional factors and is expressed in several tumours (Mata et al, 2000;Bowers et al, 2003;Du et al, 2003;Koo et al, 2004;Boudeau et al, 2006;He et al, 2006;Koh et al, 2006;Matsushima et al, 2006;Ord et al, 2007;Kato and Du, 2007;Xu et al, 2007;Yao and Nyomba, 2008). We studied the TRIB3 gene in 202 paired cancerous and non-cancerous regions of CRC, as well as 7 colorectal cancer cell lines and 15 other gastrointestinal cancer cell lines.…”

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confidence: 99%

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Abnormal expression of TRIB3 in colorectal cancer: a novel marker for prognosis

et al. 2009

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BACKGROUND: TRIB3 is a human homologue of Drosophila tribbles. Previous studies have shown that TRIB3 controls the cell growth through ubiquitination-dependent degradation of other proteins, whereas its significance in the prognosis of colorectal cancer (CRC) is not yet fully understood. MATERIALS: This study comprised 202 patients who underwent surgery for CRC, as well as 22 cell lines derived from human gastrointestinal cancer. The correlation of gene expression with clinical parameters in patients was assessed. The biological significance was evaluated by knockdown experiments in seven colorectal cancer cell lines. RESULTS: A total of 20 cancer cell lines (90.9%) expressed the TRIB3 gene. The assessment in surgical specimens indicated that the gene expression was significantly higher in the cancerous region than in the marginal non-cancerous region. Patients with high TRIB3 expression were statistically susceptible to a recurrence of the disease, and showed poorer overall survival than those with low expression. The assessment of TRIB3 knockdown in five cell lines showed that small interfering RNA (siRNA) inhibition resulted in a statistically significant reduction in cell growth. CONCLUSION: These data strongly suggest the usefulness of TRIB3 as a marker for predicting the prognosis of CRC patients, showing a basis for the development of effective treatments for CRC.

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Section: Discussionsupporting

confidence: 77%

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confidence: 99%

Abnormal expression of TRIB3 in colorectal cancer: a novel marker for prognosis

et al. 2009

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“…Somatic deletion of Lkb1 in the mouse skeletal muscle produces defects in glucose uptake and loss of AMPK activation (Sakamoto et al, 2005;Koh et al, 2006). Liver-specific Lkb1 deletion also causes metabolic defects and loss of activity of AMPK and increased mTOR signaling (Shaw et al, 2005).…”

Section: Biochemical Functions Of Lkb1mentioning

confidence: 99%

LKB1; linking cell structure and tumor suppression

2008

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Germ line mutations in the LKB1 tumor suppressor gene are associated with the Peutz-Jeghers polyposis and cancer syndrome. Somatic mutations in Lkb1 are observed in sporadic pulmonary, pancreatic and biliary cancers and melanomas. The LKB1 serine-threonine kinase functionally and biochemically links control of cellular structure and energy utilization through activation of the AMPK family of kinases. Lkb1 regulates cell polarity through downstream kinases including AMPKs, MARKs and BRSKs, and nutrient utilization and cellular metabolism through the AMPK-mTOR pathway. LKB1 has been shown to affect normal chromosomal segregation, TGF-b signaling in the mesenchyme and WNT and p53 activity. Although each of the LKB1-dependent processes and downstream pathways have been individually delineated through work across a range of experimental systems, how they relate to Lkb1's role as a tumor suppressor remains to be fully explored and elucidated. The recent development of mouse cancer models harboring engineered mutations in Lkb1 have offered insights into how LKB1 may be functioning to restrain tumorigenesis and how its role as a master regulator of polarity and metabolism could contribute to its tumor suppressor function.

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“…An isolated defect in protein kinase C-λ in muscle was sufficient to induce abdominal obesity and other metabolic abnormalities [9]. By contrast, muscle-specific LKB1 (a serine/threonine kinase that is a negative regulator of insulin sensitivity) knockout increased insulin sensitivity and improved glucose homeostasis [10]. These studies suggest that defects in skeletal muscle insulin-stimulated glucose transport may be key factors in insulin resistance and type 2 diabetes mellitus [11].…”

Section: Introductionmentioning

confidence: 99%

Skeletal myoblast transplantation for attenuation of hyperglycaemia, hyperinsulinaemia and glucose intolerance in a mouse model of type 2 diabetes mellitus

Lee

et al. 2009

Diabetologia

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Aims/hypothesis We aimed to demonstrate the feasibility and efficacy of intra-muscular transplantation of human skeletal myoblasts (hSkMs) for attenuation of hyperglycaemia and improvement of insulin sensitivity using a mouse model of type 2 diabetes mellitus. Methods KK Cg-Ay/J mice, aged 12 to 14 weeks, underwent an initial intraperitoneal glucose tolerance test (GTT) and were divided into the following groups: KK control group, basal medium (M199) only; KK myoblast group, with hSkM transplantation; KK fibroblast group, with human fibroblast transplantation. Non-diabetic C57BL mice were used as an additional normal control and also had hSkM transplantation. Cells were transplanted intramuscularly into the skeletal muscles of the mice. All animals were treated with ciclosporin for 6 weeks only. HbA 1c and fasting GTT, as well as serum adiponectin, cholesterol, insulin and triacylglycerol were studied. Results Immunohistochemistry studies showed extensive survival of the transplanted hSkMs in the skeletal muscles at 12 weeks, with nuclei of the hSkMs integrated into the host muscle fibres. Repeat GTT showed a significant decrease in glucose concentrations in the KK myoblast group compared with the KK control and KK fibroblast groups. The KK myoblast group also had reduced mean HbA 1c , cholesterol, insulin and triacylglycerol, and increased adiponectin compared with the KK control and KK fibroblast groups. C57BL mice showed no change in glucose homeostasis after hSkM transplant.

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Skeletal Muscle-Selective Knockout of LKB1 Increases Insulin Sensitivity, Improves Glucose Homeostasis, and Decreases TRB3

Cited by 180 publications

References 57 publications

Abnormal expression of TRIB3 in colorectal cancer: a novel marker for prognosis

Abnormal expression of TRIB3 in colorectal cancer: a novel marker for prognosis

LKB1; linking cell structure and tumor suppression

Skeletal myoblast transplantation for attenuation of hyperglycaemia, hyperinsulinaemia and glucose intolerance in a mouse model of type 2 diabetes mellitus

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