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Query: UMLS:C0011860 (
type 2 diabetes
)
57,723
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The hepatocyte nuclear factor (HNF)4alpha, a member of the nuclear receptor superfamily, regulates genes that play a critical role in embryogenesis and metabolism. Recent studies have shown that mutations in the human HNF4alpha gene cause a rare form of
type 2 diabetes
, maturity onset diabetes of the young (MODY1). To investigate the properties of these naturally occurring HNF4alpha mutations we analysed five MODY1 mutations (R154X, R127W, V255M, Q268X and E276Q) and one other mutation (D69A), which we found in HepG2 hepatoma cells. Activation of reporter genes in transfection assays and DNA binding studies showed that the MODY1-associated mutations result in a variable reduction in function, whereas the D69A mutation showed an increased activity on some promoters. None of the
MODY
mutants acted in a dominant negative manner, thus excluding inactivation of the wild-type factor as a critical event in
MODY
development. A MODY3-associated mutation in the
HNF1alpha
gene, a well-known target gene of HNF4alpha, results in a dramatic loss of the HNF4 binding site in the promoter, indicating that mutations in the HNF4alpha gene might cause
MODY
through impaired
HNF1alpha
gene function. Based on these data we propose a two-hit model for
MODY
development.
...
PMID:Naturally occurring mutations in the human HNF4alpha gene impair the function of the transcription factor to a varying degree. 1060 40
Type 2 diabetes mellitus
(T2DM) is strongly inherited, but the major genes for this disease have been elusive. In contrast, early-onset, autosomal-dominant diabetes results from at least 5 loci, of which hepatocyte nuclear factor 1a (
HNF1alpha
or TCF1) is the most common cause. Mutations in
HNF1alpha
also cause later-onset diabetes in some Caucasian populations, but the role of these mutations has not been tested in African American populations. We used a variety of screening methods, including both single-strand conformation polymorphism (SSCP) analysis and dideoxy fingerprint analysis, to search for mutations in 51 African American subjects with onset of diabetes before age 50 years. Potential mutations were confirmed by direct sequencing. We identified 21 different variants, of which 11 were unique to African Americans. Four mutations either altered the amino acid sequence (Gly52Ala and Gly574Ser) or were close to a splice site (intron 1 and intron 10). A 5-nucleotide insertion in intron 1 was present in both diabetic members of a small family, but Gly52Ala, Gly574Ser, and the intron 10 mutation did not segregate with diabetes. Gly574Ser was present in 2 large families and 5% of controls, all of which appeared to share the same common
HNF1alpha
haplotype. Surprisingly, radioactive SSCP analysis under 2 room-temperature conditions performed as well as methods using fluorescent labeling that were expected to be more sensitive. We conclude that in African American individuals under age 50, variation in the HNF1a gene is common but unlikely to be a significant cause of T2DM.
...
PMID:Molecular scanning analysis of hepatocyte nuclear factor 1alpha (TCF1) gene in typical familial type 2 diabetes in African Americans. 1069 Sep 59
Mutations in the HNF4alpha gene have been correlated with maturity-onset diabetes of the young, which is characterized mainly by pancreatic beta-cell dysfunction and is also associated with mild liver abnormalities. HNF4alpha D126Y and D126H mutations were found in a patient with early-onset
type 2 diabetes
, and the R324H mutation was found in a common type 2 diabetic nephropathic patient. We investigated whether these mutations, which have not yet been functionally characterized, impair HNF4alpha function in three cell models: HEK 293 embryonal kidney cells, HepG2 hepatoma cells, and betaTC3 pancreatic beta-cells. The R324H mutation had no effect on HNF4alpha function with either the
HNF1alpha
and L-type pyruvate kinase (LPK) promoters, but the D126Y and D126H mutations impaired HNF4alpha transcriptional activities in all tested cell lines. These impairments by D126Y and D126H mutations, which are located in the T box, are not due to a loss of dimerization but to a loss of DNA binding. Interestingly, the strongest functional consequences of these mutations were observed on the
HNF1alpha
promoter in betaTC3 cells. Given the key role of the transcription factor
HNF1alpha
in pancreatic beta-cell function, it can be inferred that impairment of HNF4alpha function by these mutations affects metabolic pathways in pancreatic beta-cells and contributes to development of diabetes. Moreover, the HNF4alpha-mediated activation of the apolipoprotein CIII promoter in HepG2 cells was significantly impaired by D126Y and D126H mutations. These results support clinical findings that liver function can also be impaired in diabetic patients having HNF4alpha mutations.
...
PMID:Mutations in hepatocyte nuclear factor 4alpha (HNF4alpha) gene associated with diabetes result in greater loss of HNF4alpha function in pancreatic beta-cells than in nonpancreatic beta-cells and in reduced activation of the apolipoprotein CIII promoter in hepatic cells. 1211 Sep 48
The transcriptional regulatory networks that specify and maintain human tissue diversity are largely uncharted. To gain insight into this circuitry, we used chromatin immunoprecipitation combined with promoter microarrays to identify systematically the genes occupied by the transcriptional regulators
HNF1alpha
, HNF4alpha, and HNF6, together with RNA polymerase II, in human liver and pancreatic islets. We identified tissue-specific regulatory circuits formed by
HNF1alpha
, HNF4alpha, and HNF6 with other transcription factors, revealing how these factors function as master regulators of hepatocyte and islet transcription. Our results suggest how misregulation of HNF4alpha can contribute to
type 2 diabetes
.
...
PMID:Control of pancreas and liver gene expression by HNF transcription factors. 1498 44
The aim of this study was characterization of a family carrying two mutations known to cause monogenic forms of diabetes, the M626K mutation in the
HNF1alpha
gene (MODY3) and the A3243G in mtDNA. Beta-cell function and insulin sensitivity were assessed with the Botnia clamp. Heteroplasmy of the A3243G mutation and variants in
type 2 diabetes
susceptibility genes were determined, and transcriptional activity, DNA binding, and subcellular localization of mutated
HNF1alpha
were studied. Thirteen family members carried the mutation in mtDNA; 6 of them also had the M626K mutation, whereas none had only the M626K mutation. The protective Ala12 allele in peroxisome proliferator-activated receptor (PPAR)gamma was present in two nondiabetic individuals. Carriers of both mtDNA and
HNF1alpha
mutations showed an earlier age at onset of diabetes than carriers of only the mtDNA mutation (median 22 vs. 45 years) but no clear difference in beta-cell function or insulin sensitivity. In vitro, the M626K mutation caused a 53% decrease in transcriptional activity in HeLa cells. The mutated protein showed normal nuclear targeting but increased DNA binding. These data demonstrate that several genetic factors might contribute to diabetes risk, even in families with mtDNA and
HNF1alpha
mutations.
...
PMID:Cosegregation of MIDD and MODY in a pedigree: functional and clinical consequences. 1522 Feb 16
Evidence for a genetic basis for
type 2 diabetes
and the metabolic syndrome has been derived from studies of families, twins and populations with genetic admixture. Identification of genes associated with disease pathogenesis is now underway using techniques such as genome scanning by positional cloning and the candidate gene approach. Genome scanning in several different ethnic groups has identified chromosome regions harbouring
type 2 diabetes
susceptibility genes such as the novel gene, calpain 10 (CAPN10). The hepatic nuclear factor 4alpha (HNF4alpha) gene partly explains the linkage peak on chromosome 20, while the upstream transcription factor (USF1) is associated with familial combined hyperlipidaemia (FCHL) and maps close to the
type 2 diabetes
associated 1q peak. Peroxisome proliferator-activated receptor gamma (PPARgamma) was identified as a candidate gene based on its biology. A Pro12Ala variant of this gene has been associated with an increased risk of
type 2 diabetes
. Many genes accounting for monogenic forms of diabetes have been identified--such as maturity onset diabetes of the young (MODY); glucokinase (GCK) and
HNF1alpha
mutations being the most common causes of MODY. GCK variants result in 'mild' diabetes or impaired glucose tolerance (IGT) and relatively few cardiovascular complications, while
HNF1alpha
-associated MODY is more typical of
type 2 diabetes
, frequently being treated with sulphonylureas or insulin and resulting in microvascular complications. Testing for single gene disorders associated with
type 2 diabetes
and obesity may determine cause, prognosis and appropriate treatment; however, for the more common polygenic diseases this is not the case. In
type 2 diabetes
, molecular genetics has the potential to enhance understanding of disease pathogenesis, and help formulate preventative and treatment strategies.
...
PMID:Searching for genes in diabetes and the metabolic syndrome. 1603 91
It is currently unclear how often genes that are mutated to cause rare, early-onset monogenic forms of disease also harbor common variants that contribute to the more typical polygenic form of each disease. The gene for MODY3 diabetes,
HNF1alpha
, lies in a region that has shown linkage to late-onset
type 2 diabetes
(12q24, NIDDM2), and previous association studies have suggested a weak trend toward association for common missense variants in
HNF1alpha
with glucose-related traits. Based on genotyping of 79 common SNPs in the 118 kb spanning
HNF1alpha
, we selected 21 haplotype tag single nucleotide polymorphisms (SNPs) and genotyped them in >4,000 diabetic patients and control subjects from Sweden, Finland, and Canada. Several SNPs from the coding region and 5' of the gene demonstrated nominal association with
type 2 diabetes
, with the most significant marker (rs1920792) having an odds ratio of 1.17 and a P value of 0.002. We then genotyped three SNPs with the strongest evidence for association to
type 2 diabetes
(rs1920792, I27L, and A98V) in an additional 4,400 type 2 diabetic and control subjects from North America and Poland and compared our results with those of the original sample and of Weedon et al. None of the results were consistently observed across all samples, with the possible exception of a modest association of the rare (3-5%) A98V variant. These results indicate that common variants in
HNF1alpha
either play no role in
type 2 diabetes
, a very small role, or a role that cannot be consistently observed without consideration of as yet unmeasured genetic or environmental modifiers.
...
PMID:Association of common variation in the HNF1alpha gene region with risk of type 2 diabetes. 1604 99
HNF1alpha
(TCF1) is a key transcription factor that is essential for pancreatic beta-cell development and function. Rare mutations of
HNF1alpha
cause maturity-onset diabetes of the young. A common variant, G319S, private to the Oji-Cree population, predisposes to
type 2 diabetes
, but the role of common
HNF1alpha
variation in European populations has not been comprehensively assessed. We determined the linkage disequilibrium and haplotype structure across the
HNF1alpha
gene region using 29 single nucleotide polymorphisms (SNPs). Eight tagging SNPs (tSNPs) that efficiently capture common haplotypes and the amino acid-changing variant, A98V, were genotyped in 5,307 subjects (2,010 type 2 diabetic case subjects, 1,643 control subjects, and 1,654 members of 521 families). We did not find any evidence of association between the tSNPs or haplotypes and
type 2 diabetes
. We could exclude odds ratios (ORs) >1.25 for all tSNPs. The rare V98 allele (approximately 3% frequency) showed possible evidence of association with
type 2 diabetes
(OR 1.23 [95% CI 0.99-1.54], P = 0.07), a result that was supported by meta-analysis of this and published studies (OR 1.31 [1.08-1.59], P = 0.007). Further studies are required to investigate this association, demonstrating the difficulty of defining the role of rare (<5%) alleles in
type 2 diabetes
risk.
...
PMID:A large-scale association analysis of common variation of the HNF1alpha gene with type 2 diabetes in the U.K. Caucasian population. 1604 19
Diabetes has historically been thought of as a medical specialty which primarily deals with treatment rather than diagnosis. Molecular genetic testing can now be used to make a diagnosis of the 1-2% of all diabetic patients with monogenic diabetes. Making a diagnosis of monogenic diabetes is important as it can have a dramatic effect on the treatment a patient should receive: glucokinase
MODY
patients need no treatment;
HNF1alpha
MODY
patients are very sensitive to low dose sulphonylureas; and patients with neonatal diabetes due to Kir6.2 mutations, despite being insulin dependent, can discontinue insulin and be well controlled on high dose sulphonylurea tablets. The challenge for diabetologists is to use clinical skills to detect these monogenic patients whose care will be greatly helped by the treatment changes that follow molecular genetic testing.
...
PMID:Molecular genetics goes to the diabetes clinic. 1626 30
