2010
DOI: 10.1007/s00125-010-1975-6
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Alx3-deficient mice exhibit decreased insulin in beta cells, altered glucose homeostasis and increased apoptosis in pancreatic islets

Abstract: Aims/hypothesis Homeodomain transcription factors play an important role in the regulation of pancreatic islet function. In previous studies we determined that aristaless-like homeobox 3 (ALX3) is produced in islet cells, binds to the promoter of the insulin gene and regulates its expression. The purpose of the present study was to investigate the functional role of ALX3 in pancreatic islets and its possible involvement in the regulation of glucose homeostasis in vivo. Methods Alx3-knockout mice were used. Glu… Show more

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Cited by 13 publications
(24 citation statements)
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“…The presence of genes with known roles in growth in our list provided assurance that the filtering conducted was valid, and that the resultant gene list was likely to be involved in the growth phenotype. A number of genes (Ddr2, Insm1, Sst, and Alx3) were also involved in metabolism, with reported roles in glucose and insulin homeostasis or pancreas development (Cordoba-Chacon et al, 2013;Gierl et al, 2006;Mirasierra et al, 2011;Zurakowski et al, 2007). Table 5.3: Genes identified to be both differentially expressed in the nicotine-exposed embryos and correlated in control embryos with crownrump length normalised to somite number (|r 2 | ≥ 0.5).…”
Section: Differentially Expressed Genes In Ethanol-exposed Male Embryosmentioning
confidence: 99%
“…The presence of genes with known roles in growth in our list provided assurance that the filtering conducted was valid, and that the resultant gene list was likely to be involved in the growth phenotype. A number of genes (Ddr2, Insm1, Sst, and Alx3) were also involved in metabolism, with reported roles in glucose and insulin homeostasis or pancreas development (Cordoba-Chacon et al, 2013;Gierl et al, 2006;Mirasierra et al, 2011;Zurakowski et al, 2007). Table 5.3: Genes identified to be both differentially expressed in the nicotine-exposed embryos and correlated in control embryos with crownrump length normalised to somite number (|r 2 | ≥ 0.5).…”
Section: Differentially Expressed Genes In Ethanol-exposed Male Embryosmentioning
confidence: 99%
“…This question is important for three reasons: (1) The predictive power of mouse models in the identification of etiopathogenic factors causing some types of monogenic diabetes; [1][2][3][4] (2) The appreciation that the majority of maturity-onset diabetes of the young (MODY) cases, the most frequent form of monogenic diabetes, may remain undetected or misdiagnosed; 5 [6][7][8] The proposal that the aristaless-like homeobox ALX3 gene is a candidate to consider for predisposition to diabetes in humans is based on studies showing that the inactivation of the murine homolog results in a relatively mild alteration of glucose homeostasis accompanied by decreased islet cell mass due to excessive apoptosis. 9 In addition, a proportion of mature Alx3-deficient mice develop a defect in the insulin receptor signaling in liver and muscle that results in peripheral insulin resistance as they age. 9 The main phenotypic feature of young Alx3-deficient mice, mild glucose intolerance and fasting hyperglycemia in the presence of normal levels of serum insulin, resembles the alterations observed in MODY2 patients, caused by lossof-function mutations in the glucokinase gene, as well as in mouse models for this disease.…”
mentioning
confidence: 99%
“…9 In addition, a proportion of mature Alx3-deficient mice develop a defect in the insulin receptor signaling in liver and muscle that results in peripheral insulin resistance as they age. 9 The main phenotypic feature of young Alx3-deficient mice, mild glucose intolerance and fasting hyperglycemia in the presence of normal levels of serum insulin, resembles the alterations observed in MODY2 patients, caused by lossof-function mutations in the glucokinase gene, as well as in mouse models for this disease. 10,11 This is consistent with the observation that Alx3 is important for maintaining adequate levels of glucokinase gene expression in pancreatic islets.…”
mentioning
confidence: 99%
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