A defect in glucose-induced dissociation of glucokinase from the regulatory protein in Zucker diabetic fatty rats in the early stage of diabetes

Shin, Juyeon; Torres, Tracy P.; Catlin, ReEtta L.; Donahue, E. Patrick; Shiota, Masakazu

doi:10.1152/ajpregu.00260.2006

Cited by 28 publications

(26 citation statements)

References 67 publications

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“…The reduction in glycemic control is likely attributable to a decrease in the Gkrpbound Gck nuclear pool that is normally mobilized in response to a glucose challenge. This loss of nuclear stabilization and/or glucose-dependent translocation has been shown to be associated with impaired glucose tolerance in rodent models (24,60). Phenotype comparisons and results of genotyping for the severe LOF subgroup were consistent with these findings.…”

Section: Discussionsupporting

confidence: 68%

Correlation of rare coding variants in the gene encoding human glucokinase regulatory protein with phenotypic, cellular, and kinetic outcomes

Rees¹,

Ng²,

Ruppert³

et al. 2012

J. Clin. Invest.

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Defining the genetic contribution of rare variants to common diseases is a major basic and clinical science challenge that could offer new insights into disease etiology and provide potential for directed gene-and pathway-based prevention and treatment. Common and rare nonsynonymous variants in the GCKR gene are associated with alterations in metabolic traits, most notably serum triglyceride levels. GCKR encodes glucokinase regulatory protein (GKRP), a predominantly nuclear protein that inhibits hepatic glucokinase (GCK) and plays a critical role in glucose homeostasis. The mode of action of rare GCKR variants remains unexplored. We identified 19 nonsynonymous GCKR variants among 800 individuals from the ClinSeq medical sequencing project. Excluding the previously described common missense variant p.Pro446Leu, all variants were rare in the cohort. Accordingly, we functionally characterized all variants to evaluate their potential phenotypic effects. Defects were observed for the majority of the rare variants after assessment of cellular localization, ability to interact with GCK, and kinetic activity of the encoded proteins. Comparing the individuals with functional rare variants to those without such variants showed associations with lipid phenotypes. Our findings suggest that, while nonsynonymous GCKR variants, excluding p.Pro446Leu, are rare in individuals of mixed European descent, the majority do affect protein function. In sum, this study utilizes computational, cell biological, and biochemical methods to present a model for interpreting the clinical significance of rare genetic variants in common disease.

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Section: Discussionsupporting

confidence: 68%

Correlation of rare coding variants in the gene encoding human glucokinase regulatory protein with phenotypic, cellular, and kinetic outcomes

Rees¹,

Ng²,

Ruppert³

et al. 2012

J. Clin. Invest.

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“…A recent study also suggests that the impaired inhibition of hepatic glucose production and increased glucose uptake in the liver of hyperglycaemic Zucker rats could be due to a failure of GK to be released from the GK-GKRP complex (107) . The relationship between human GK and insulin was first evident from the study of hepatic activity in diabetic patients, in which GK can be depressed 50 % when compared with a healthy volunteer (63) .…”

Section: Rattus Norvegicusmentioning

confidence: 99%

Nutritional regulation of glucokinase: a cross-species story

Panserat

Rideau²,

Polakof

2014

Nutr. Res. Rev.

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The glucokinase (GK) enzyme (EC 2.7.1.1.) is essential for the use of dietary glucose because it is the first enzyme to phosphorylate glucose in excess in different key tissues such as the pancreas and liver. The objective of the present review is not to fully describe the biochemical characteristics and the genetics of this enzyme but to detail its nutritional regulation in different vertebrates from fish to human. Indeed, the present review will describe the existence of the GK enzyme in different animal species that have naturally different levels of carbohydrate in their diets. Thus, some studies have been performed to analyse the nutritional regulation of the GK enzyme in humans and rodents (having high levels of dietary carbohydrates in their diets), in the chicken (moderate level of carbohydrates in its diet) and rainbow trout (no carbohydrate intake in its diet). All these data illustrate the nutritional importance of the GK enzyme irrespective of feeding habits, even in animals known to poorly use dietary carbohydrates (carnivorous species).

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“…1). It could be speculated that decreased "glucose effectiveness" in type 2 diabetes in humans may involve decreased glucokinase expression or impaired regulation by GKRP, as occurs in animal models of insulin resistance (11,12), in addition to other metabolic defects.…”

mentioning

confidence: 99%

Targeting Hepatic Glucokinase in Type 2 Diabetes

Agius

2009

Diabetes

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A defect in glucose-induced dissociation of glucokinase from the regulatory protein in Zucker diabetic fatty rats in the early stage of diabetes

Cited by 28 publications

References 67 publications

Correlation of rare coding variants in the gene encoding human glucokinase regulatory protein with phenotypic, cellular, and kinetic outcomes

Correlation of rare coding variants in the gene encoding human glucokinase regulatory protein with phenotypic, cellular, and kinetic outcomes

Nutritional regulation of glucokinase: a cross-species story

Targeting Hepatic Glucokinase in Type 2 Diabetes

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