Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vitamin D plays an important role in insulin secretion. There is also evidence that this steroid may influence the insulin sensitivity. Thus genes involved in its metabolic pathway have been regarded as good candidates for type 2 diabetes mellitus (T2DM). One of them is vitamin D receptor gene (VDR). Its multiple polymorphisms have been examined for the association with T2DM in several populations. Those studies did not provide clear answers about the role of VDR in this disease. The aim of the study was to search for the association of FokI, ApaI, BsmI, and TaqI polymorphisms of VDR gene with T2DM in a Polish population using a case-control study design. Overall, 548 individuals were examined: 308 T2DM patients and 240 control individuals. The study groups were genotyped for VDR FokI, ApaI, BsmI, and TaqI variants using the restriction fragment length polymorphism (RFLP) method. Since variants of ApaI, BsmI, and TaqI polymorphisms were in very strong linkage disequilibrium, three loci haplotypes could be assigned to phase-unknown individuals with a high degree of confidence. Differences in allele, genotype, haplotype, and haplotype combination distribution between the groups were examined by chi2 test. The VDR allele frequencies for T2DM patients and controls were as follows: FokI-F/f - 53.4 %/46.6 % vs. 55.2 %/44.8 %, BsmI-B/b - 34.4 %/65.6 % vs. 37.5 %/62.5 %, ApaI-A/a - 47.9 %/52.1 % vs 50.9 %/49.1 %, TaqI-T/t - 67.6 %/32.4 % vs. 62.7 %/37.3 %, respectively. There was no difference between the groups in allele frequency. Similarly, distribution of genotypes, three locus BsmI/ApaI/TaqI haplotypes and their combinations were similar in the groups. In conclusion, our study did not provide evidence for the association of four examined VDR polymorphisms with T2DM in a Polish population. We postulate that to fully determine whether the sequence differences in VDR gene are susceptibility variants for T2DM, additional studies in different populations are required in a large study group.
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PMID:Vitamin D receptor gene polymorphisms and association with type 2 diabetes mellitus in a Polish population. 1471 73

Vitamin D deficiency predisposes individuals to type 1 and type 2 diabetes, and receptors for its activated form-1alpha,25-dihydroxyvitamin D3-have been identified in both beta cells and immune cells. Vitamin D deficiency has been shown to impair insulin synthesis and secretion in humans and in animal models of diabetes, suggesting a role in the development of type 2 diabetes. Furthermore, epidemiological studies suggest a link between vitamin D deficiency in early life and the later onset of type 1 diabetes. In some populations, type 1 diabetes is associated with certain polymorphisms within the vitamin D receptor gene. In studies in nonobese diabetic mice, pharmacological doses of 1alpha,25-dihydroxyvitamin D3, or its structural analogues, have been shown to delay the onset of diabetes, mainly through immune modulation. Vitamin D deficiency may, therefore, be involved in the pathogenesis of both forms of diabetes, and a better understanding of the mechanisms involved could lead to the development of preventive strategies.
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PMID:Vitamin D and diabetes. 1634 26

The nuclear receptors (NRs)--vitamin D receptor (VDR); peroxisome proliferator-activated receptor (PPAR) alpha, delta, gamma; and pregnane X receptor (PXR)--act as sensors for various molecules encountered by the body on a daily basis. The effects of these ligands can be understood by the fact that numerous genes involved in the cellular processes, such as general homeostasis, growth, and defense against microbes, are under the control of these five NRs. The target gene and protein expression patterns of VDR, PPARs, and PXR; the resulting changes in metabolite levels; and their physiological consequences create a network that can be monitored by high-throughput methods and analyzed by multimodal approaches, such as systems biology. We suggest that the fine regulation of this NR network is specific to each human individual and depends, in part, on the constellation of regulatory small nucleotide polymorphisms (SNPs) in his or her genome. When regulatory SNPs affect NRs response elements, lifetime exposure to food components will have different accumulative consequences on the expression of the respective NR target genes. These differences will influence the individual's susceptibility to aging-related diseases, such as type 2 diabetes, atherosclerosis, cancer, and osteoporosis. Furthermore, it is anticipated that systems biology methods will also help to identify the most critical genes, proteins, or metabolites in the NR network that will serve as biomarkers for the early detection of these diseases.
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PMID:An integrated biological approach to nuclear receptor signaling in physiological control and disease. 1658 79

The db/db mouse develops features of type II diabetes mellitus as the result of impaired signaling through its abnormal leptin receptor. In spite of accurate metabolic features of diabetes, renal disease manifestations in these mice are not as severe as in humans suggesting the presence of protective genes. There is a growing body of evidence in humans for the relevance of vitamin D in diabetes. Here we followed a large cohort of db/db mice and their non-diabetic db/+ littermates. Transcriptional profiling revealed significant upregulation of 23 genes involved in Ca2+ homeostasis and vitamin D metabolism in db/db glomeruli relative to db/+ glomeruli. Increased glomerular expression of vitamin D3 1alpha-hydroxylase, vitamin D binding protein, calbindins D9K and D28K, and calcyclin mRNA was confirmed by quantitative reverse transcription-polymerase chain reaction in 20-, 36-, and 52-week-old db/db glomeruli. Although vitamin D3 1alpha-hydroxylase protein was primarily expressed and upregulated in db/db renal tubules, it was also expressed in glomerular podocytes in vivo. Serum 1,25-dihydroxyvitamin D3 and urinary Ca2+ excretion were increased >3-fold in db/db mice compared to db/+ mice. Cultured glomerular podocytes had mRNA for vitamin D3 1alpha-hydroxylase, vitamin D receptor, and calbindin D28K, each of which was increased in high glucose conditions. High glucose also led to enhanced production of fibronectin and collagen IV protein, which was blocked by 1,25-dihydroxyvitamin D3. These results show that vitamin D metabolism is altered in db/db mice leading to metabolic and transcriptional effects. The podocyte is affected by paracrine and potentially autocrine effects of vitamin D, which may explain why db/db mice are resistant to progressive diabetic nephropathy.
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PMID:Altered vitamin D metabolism in type II diabetic mouse glomeruli may provide protection from diabetic nephropathy. 1682 Jul 93

Diabetes mellitus is associated with various organ dysfunctions through hyperglycemia, insulin deficiency, or advanced glycation end products, which can also cause impaired calcium homeostasis such as the reductions of parathyroid hormone secretion, vitamin D receptor (VDR) number, and 25- (OH) vitamin D-1 alpha-hydroxylase activity in the parathyroid gland, intestine, and kidney, respectively. On the contrary, abnormal calcium homeostasis such as vitamin D deficiency/insensitivity and hyperparathyroidism can cause glucose intolerance or diabetes. Vitamin D deficiency/insensitivity induces type 2 diabetes through impaired insulin secretion involving VDR on pancreatic beta cells, as well as type 1 diabetes through the reduction in immuno-modulatory action of 1,25 (OH)(2) vitamin D. Primary hyperparathyroidism induces glucose intolerance via insulin resistance due to elevated intracellular calcium in the targeted organ of insulin.
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PMID:[Calcium homeostasis and diabetes mellitus]. 1688 34

In 1982 we proposed the presence of a subtype of type 1 diabetes [slowly progressive insulin-dependent diabetes mellitus (SPIDDM)], which was characterized by persistently positive islet cell antibody, late age of onset, noninsulin-dependent diabetes, and slowly progressive beta cell failure. Since then many studies demonstrated that this subtype of type 1 diabetes is prevalent in many ethnic groups and was later called the latent autoimmune diabetes in adults (LADA). Recent epidemiological studies reported that about 10% of patients with apparent type 2 diabetes have at least one autoantibodies against islet-specific antigen with high potential to progress to insulin-dependent state. Between SPIDDM and LADA some differences are reported in terms of some genetic predispositions including HLA class II and class I genes, vitamin D receptor gene, and CTLA4 genes. Common features in SPIDDM and LADA including preserved beta cells at the onset of diabetes and weak T cell response to residual beta cells suggest that these subtypes of type 1 diabetes are suitable candidates for prevention treatment for further progression of beta cell failure.
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PMID:Immunopathological and genetic features in slowly progressive insulin-dependent diabetes mellitus and latent autoimmune diabetes in adults. 1713 May 33

Evidence exists that some clinical, metabolic and genetic risk factors are associated with the development of diabetic retinopathy (DR). The aim of the study was: (1) to define the prevalence of DR in the examined group of 267 patients with type 2 diabetes mellitus (T2DM) from a Polish population; (2) to identify in cross-sectional analysis, the clinical features associated with DR in the study group; and (3) to search for the association of 4 markers of vitamin D receptor (VDR), a candidate gene for vascular complications in diabetes, with DR. The examined group consisted of 146 female and 121 male T2DM patients (mean age at examination: 61.3+/-9.4 years; age at T2DM diagnosis: 50.0+/-9.2; T2DM duration: 11.3+/-7.8 years; body mass index (BMI): 30.5+/-5.5 kg/m(2); HbA1c: 7.8+/-1.5%). In all patients, the clinical and metabolic profile was determined. Diagnosis of DR was determined by a trained ophthalmologist by ophthalmoscopy after pupillary dilatation. Colour photographic documentation was made. The examined T2DM patients were genotyped for FokI, ApaI, BsmI and TaqI frequent VDR polymorphisms based on the restriction fragment length polymorphism method. The statistical analysis was performed using univariate and multivariate logistic regression (SAS) and haplotype analysis (Haplostat). DR was detected in 85 (31.8%) patients with T2DM. The multivariate analysis revealed that significant predictors of this complication were: never-smoking status (odds ratio 2.2, 95% confidence interval 1.2-4), urea serum level (1.3, 1.1-1.5), HbA1c level (1.4, 1.1-1.8) and insulin treatment (2.7, 1.4-5.1). Other features such as age of T2DM diagnosis, T2DM duration prior to ophthalmic exam, obesity (BMI>30), serum creatinine level, albumin/creatinine ratio and arterial hypertension were univariate predictors of DR, however they lost significance as independent predictors in multivariate analysis. Similarly, the alleles, genotypes, haplotype and haplotype combination of VDR were not associated with the examined complication. However, there was a suggestion of a possible slight association between the fbaT haplotype and DR (p=0.11). In conclusion, our study showed that DR in T2DM patients remains a frequent complication in Polish T2DM patients. We were able to confirm the role of some clinical risk factors, surprisingly including not-smoking status, as was previously shown in the UK Prospective Diabetes Study (UKPDS). VDR gene polymorphisms did not constitute a risk factor for this size of study group.
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PMID:Clinical risk factors and the role of VDR gene polymorphisms in diabetic retinopathy in Polish type 2 diabetes patients. 1721 61

Type 2 diabetes mellitus (T2DM) is by far the most common type of diabetes and is characterized by insulin resistance and altered insulin secretion. Some genes, such as the vitamin D receptor gene (VDR, NM_001017535; GI: 7421), involved in its metabolic pathway have been regarded as good candidates for T2DM. In this study, we investigated whether there was an association of VDR: g.59979G>T or c.1025-49G>T (ApaIG>T) and g.60058T>C or c.1056T>C (TaqIT>C) polymorphisms in the 3' untranslated region of VDR with T2DM in a Turkish population. We collected blood samples from 241 individuals (72 patients with T2DM and 169 healthy individuals), and their DNA was isolated. Polymorphisms of the VDR were analyzed by DNA amplification with polymerase chain reaction and endonuclease digestion with ApaI and TaqI. Body mass index was higher in T2DM patients than in control individuals. However, the frequency of g.59979TT genotype in T2DM patients was not significantly increased compared to healthy subjects (37.5% vs. 36.1%, respectively). Although the VDR g.60058CC genotype in T2DM patients (19.4%) was higher than that in healthy individuals (11.2%), there was no significant difference. In the same way, there was no difference between the groups in allele frequencies. In conclusion, our study did not provide evidence for the association of two examined VDR polymorphisms with T2DM in a Turkish population.
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PMID:Detection of VDR gene ApaI and TaqI polymorphisms in patients with type 2 diabetes mellitus using PCR-RFLP method in a Turkish population. 1918 74

Vitamin D insufficiency/deficiency has been worldwide reported in all age groups in recent years. It has been considered a Public Health matter since decreased levels of vitamin D has been related to several chronic diseases, as type 2 diabetes mellitus (T2DM), obesity and hypertension. Glucose intolerance and insulin secretion has been observed during vitamin D deficiency, both in animals and humans resulting in T2DM. The supposed mechanism underlying these findings is presence of vitamin D receptor in several tissues and cells, including pancreatic beta-cells, adipocyte and muscle cells. In obese individuals, the impaired vitamin D endocrine system, characterized by high levels of PTH and 1,25(OH)(2)D(3) could induce a negative feedback for the hepatic synthesis of 25(OH)D and also contribute to a higher intracellular calcium, which in turn secrete less insulin and deteriorate insulin sensitivity. In hypertension, vitamin D could act on renin-angiotensin system and also in vascular function. Administration of 1,25(OH)(2)D(3) could decreases renin gene expression and inhibit vascular smooth muscle cell proliferation. However, prospective and intervention human studies that clearly demonstrates the benefits of vitamin D status adequacy in the prevention and treatment of endocrine metabolic diseases are lacking. Further research still necessary to assure the maximum benefit of vitamin D in such situations.
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PMID:[Vitamin D and endocrine diseases]. 1976 53

The calcineurin inhibitors-cyclosporine and tacrolimus-are the mainstay of immunosuppressive therapy in solid organ transplantation. These drugs produce severe adverse drug effects (ADEs) such as nephrotoxicity, posttransplantation diabetes mellitus, and hypertension. Accumulated evidence suggests that the development of type 2 diabetes, hypertension, and renal failure may be associated with specific DNA genotypes. In this review, the genes involved with the development of these disease processes are compared with those implicated in calcineurin inhibitor-induced ADEs. The renin-angiotensin system genes, cytokine-encoding genes, and plasminogen activator inhibitor type 1 genes have been implicated in calcineurin inhibitor-induced nephrotoxicity, as well as in development of renal failure. A number of genes are implicated in contributing to diabetes, and these include the vitamin D receptor gene, VDR; hepatocyte nuclear factor genes, HNF; transcription factor 7-like 2 gene, TCF7L2; angiotensin-converting enzyme gene, ACE; cytokines; peroxisome proliferator-activated receptor gamma gene, PPARG; and others. Studies have suggested that the VDR, PPARG, HNF1A, and adenosine 5'-triphosphate-binding cassette ABCC8 (which encodes the sulfonylurea receptor) genes are associated with calcineurin inhibitor-induced diabetes. The genes encoding for the angiotensin-converting enzyme, endothelial constitutive nitric oxide synthase, and cytochrome P450 3A isoenzyme have been involved in the development of hypertension and in calcineurin inhibitor-induced hypertension. The genetic study of disease states can be the stepping stones for thoroughly understanding the genetic basis of ADEs. Gene polymorphisms are implicated in the development of diseases and corresponding disease-like ADEs. The disease-associated genes provide candidate genes for exploring ADEs and may provide genomic biomarkers for assessing the risk for developing severe calcineurin inhibitor-related ADEs as well as for developing preventive strategies.
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PMID:Understanding the genetic basis for adverse drug effects: the calcineurin inhibitors. 2009 93


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