Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 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.
Exp Clin Endocrinol Diabetes 2003 Dec
PMID:Vitamin D receptor gene polymorphisms and association with type 2 diabetes mellitus in a Polish population. 1471 73

Type 1 diabetes (T1D) is an autoimmune disease characterized by leukocyte infiltration into the pancreatic islets, and we have previously shown that treatment of adult NOD mice with a vitamin D analog arrests the progression of insulitis, blocks Th1 cell infiltration into the pancreas, and markedly reduces T1D development, suggesting inhibition of chemokine production by islet cells. In this study, we show that all TLRs are expressed by mouse and human islet cells, and their engagement by pathogen-derived ligands markedly enhances proinflammatory chemokine production. The vitamin D analog significantly down-regulates in vitro and in vivo proinflammatory chemokine production by islet cells, inhibiting T cell recruitment into the pancreatic islets and T1D development. The inhibition of islet chemokine production in vivo persists after restimulation with TLR ligands and is associated with up-regulation of IkappaBalpha transcription, an inhibitor of NF-kappaB and with arrest of NF-kappaBp65 nuclear translocation, highlighting a novel mechanism of action exerted by vitamin D receptor ligands potentially relevant for the treatment of T1D and other autoimmune diseases.
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PMID:A vitamin D analog down-regulates proinflammatory chemokine production by pancreatic islets inhibiting T cell recruitment and type 1 diabetes development. 1529 40

The vitamin D endocrine system is involved in a wide variety of biological processes including bone metabolism, modulation of the immune response, and regulation of cell proliferation and differentiation. Variations in this endocrine system have, thus, been linked to several common diseases, including osteoarthritis (OA), diabetes, cancer, cardiovascular disease, and tuberculosis. Evidence to support this pleiotropic character of vitamin D has included epidemiological studies on circulating vitamin D hormone levels, but also genetic epidemiological studies. Genetic studies provide excellent opportunities to link molecular insights with epidemiological data and have therefore gained much interest. DNA sequence variations, which occur frequently in the population, are referred to as "polymorphisms" and can have modest and subtle but true biological effects. Their abundance in the human genome as well as their high frequencies in the human population have made them targets to explain variation in risk of common diseases. Recent studies have indicated many polymorphisms to exist in the vitamin D receptor (VDR) gene, but the influence of VDR gene polymorphisms on VDR protein function and signaling is largely unknown. So far, three adjacent restriction fragment length polymorphisms for BsmI, ApaI, and TaqI, respectively, at the 3' end of the VDR gene have been the most frequently studied. Because these polymorphisms are probably nonfunctional, linkage disequilibrium with one or more truly functional polymorphisms elsewhere in the VDR gene is assumed to explain the associations observed. Research is therefore focussed on documenting additional polymorphisms across the VDR gene to verify this hypothesis and on trying to understand the functional consequences of the variations. Substantial progress has been made that will deepen our understanding of variability in the vitamin D endocrine system and might find applications in risk assessment of disease and in predicting response-to-treatment.
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PMID:Genetics and biology of vitamin D receptor polymorphisms. 1531 18

The analysis of the molecular basis of autoimmune diseases is currently under intense investigation. The identification of novel mechanisms underlying the pathogenesis of these diseases generates the possibility for the development of new therapeutic agents. In this review we summarize the results leading to novel insights concerning the molecular processes involved in the pathogenesis of rheumatoid arthritis, systemic lupus erythematodes, multiple sclerosis and diabetes type 1. We focus on the role of transcription factors such as nuclear factor kappa B, activator protein 1, peroxisome proliferator-activated receptor, vitamin D receptor and the glucocorticoid receptor that mediate pro- and anti-inflammatory effects and therefore represent direct or indirect targets for therapeutic intervention.
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PMID:Transcription factors in autoimmune diseases. 1537 67

1alpha,25-Dihydroxyvitamin D(3) [1,25-(OH)(2)D(3)], the active metabolite of vitamin D(3), is known for the maintenance of mineral homeostasis and normal skeletal architecture. However, apart from these traditional calcium-related actions, 1,25-(OH)(2)D(3) and its synthetic analogs are being increasingly recognized for their potent antiproliferative, prodifferentiative, and immunomodulatory activities. These actions of 1,25-(OH)(2)D(3) are mediated through vitamin D receptor (VDR), which belongs to the superfamily of steroid/thyroid hormone nuclear receptors. Physiological and pharmacological actions of 1,25-(OH)(2)D(3) in various systems, along with the detection of VDR in target cells, have indicated potential therapeutic applications of VDR ligands in inflammation (rheumatoid arthritis, psoriatic arthritis), dermatological indications (psoriasis, actinic keratosis, seborrheic dermatitis, photoaging), osteoporosis (postmenopausal and steroid-induced osteoporosis), cancers (prostate, colon, breast, myelodysplasia, leukemia, head and neck squamous cell carcinoma, and basal cell carcinoma), secondary hyperparathyroidism, and autoimmune diseases (systemic lupus erythematosus, type I diabetes, multiple sclerosis, and organ transplantation). As a result, VDR ligands have been developed for the treatment of psoriasis, osteoporosis, and secondary hyperparathyroidism. Furthermore, encouraging results have been obtained with VDR ligands in clinical trials of prostate cancer and hepatocellular carcinoma. This review deals with the molecular aspects of noncalcemic actions of vitamin D analogs that account for the efficacy of VDR ligands in the above-mentioned indications.
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PMID:Noncalcemic actions of vitamin D receptor ligands. 1579 98

Vitamin D3 is modified by vitamin D3-25-hydroxylase in the liver, and 25-hydroxyvitamin D3-1alpha-hydroxylase in the kidney, to form the active metabolite, 1,25-dihydroxyvitamin D3. Chronic kidney disease (CKD) is characterized by reduced synthesis of 1,25-dibydroxyvitamin D3, inadequate renal phosphate clearance and calcium imbalance, secondary hyperparathyroidism (SHPT) and bone disease. CKD patients encounter a much higher risk of cardiovascular disease (CVD) than the general public. The cardiovascular risk factors for CKD patients include conventional factors such as age, gender, hypertension, diabetes, dyslipidemia and smoking, and non-conventional factors, such as anemia, uremia, reduced vascular compliance, inflammation and various hormonal factors. Several vitamin D analogs are currently available for the treatment of SHPT, and recent clinical data show that these analogs provide survival benefit for CKD patients in the order of paricalcitol > calcitriol > no vitamin D analog, independent of parathyroid hormone and calcium. Moreover, the survival benefit seems to be associated with cardiovascular causes. The observations made from these clinical studies raised intriguing questions about the involvement of the vitamin D receptor locus (VDR) in the cardiovascular system. This review discusses recent data regarding the role of vitamin D and its analogs in the CVD associated with CKD.
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PMID:Cardiovascular disease in chronic kidney failure: is there a role for vitamin D analogs? 1581

There is evidence from both observational studies and clinical trials that calcium malnutrition and hypovitaminosis D are predisposing conditions for various common chronic diseases. In addition to skeletal disorders, calcium and vitamin D deficits increase the risk of malignancies, particularly of colon, breast and prostate gland, of chronic inflammatory and autoimmune diseases (e.g. insulin-dependent diabetes mellitus, inflammatory bowel disease, multiple sclerosis), as well as of metabolic disorders (metabolic syndrome, hypertension). The aim of the present review was to provide improved understanding of the molecular and cellular processes by which deficits in calcium and vitamin D cause specific changes in cell and organ functions and thereby increase the risk for chronic diseases of different aetiology. 1,25-Dihydroxyvitamin D(3) and extracellular Ca(++) are both key regulators of proliferation, differentiation and function at the cellular level. However, the efficiency of vitamin D receptor-mediated intracellular signalling is limited by the negative effects of hypovitaminosis D on extrarenal 25-hydroxyvitamin D-1alpha-hydroxylase activity and thus on the production of 1,25-dihydroxyvitamin D(3). Calcium malnutrition eventually causes a decrease in calcium concentration in extracellular fluid compartments, resulting in organ-specific modulation of calcium-sensing receptor activity. Hence, attenuation of signal transduction from the ligand-activated vitamin D receptor and calcium-sensing receptor seems to be the prime mechanism by which calcium and vitamin D insufficiencies cause perturbation of cellular functions in bone, kidney, intestine, mammary and prostate glands, endocrine pancreas, vascular endothelium, and, importantly, in the immune system. The wide range of diseases associated with deficits in calcium and vitamin D in combination with the high prevalence of these conditions represents a special challenge for preventive medicine.
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PMID:Vitamin D and calcium deficits predispose for multiple chronic diseases. 1586 41

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 vitamin-D endocrine system is involved in a wide variety of biological processes including bone metabolism, modulation of immune responses, and regulation of cell proliferation and differentiation. Variation in this endocrine system have, thus, been linked to several common diseases, including osteoarthritis (OA), diabetes, cancer, cardiovascular ailments, urolithiasis and tuberculosis. Activity of Vit-D is mediated by the vitamin D receptor (VDR), a ligand dependent receptor. VDR gene polymorphisms thus represent strong positional candidates for different diseases like prostate cancer, urolithiasis, inflammatory bowl disease and osteoporosis. Genetic studies provide excellent opportunities to link molecular insights with epidemiological data and can reveal modest and subtle but true biological effects. The abundance of polymorphisms in the human genome as well as high frequencies in human populations have made them targets to explain variation in risk of common diseases. The present study was carried out to determine the distribution of VDR gene (Fok-I, Taq-I and Apa-I) polymorphisms using a PCR-based restriction analysis in unrelated normal healthy individuals from a north Indian population. We obtained allelic frequencies of (68.5% vs 31.5%), (66% vs 34%) and (58% vs 42%) for (F vs f), (T vs t) and (A vs a) alleles, with 44%, 49% and 7%, respectively, for genotypes FF, Ff and ff , 49%, 40% and 11% for TT, Tt and tt and 36%, 44% and 20% for AA, Aa and aa. Our results suggest that the frequency and distribution of the polymorphisms in India are substantially different from in other populations and ethnic groups. Thus the data signify an impact of ethnicity and provide a basis for future epidemiological and clinical studies.
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PMID:Vitamin-D receptor (VDR) gene (Fok-I, Taq-I and Apa-I) polymorphisms in healthy individuals from north Indian population. 1610 24

Renal osteodystrophy is an important complication of chronic kidney disease characterized by abnormal bone turnover with varied bone histologic changes. Etiology is multifactorial including abnormalities of serum calcium, phosphorus, and 1,25(OH)(2)-vitamin D deficiency; secondary hyperparathyroidism; age; cause of kidney disease; diet; renal replacement therapy; and drug therapy. In addition, there is evidence that there may be ethnic differences. Our study is a description of a case series of hormonal and biochemical abnormalities of bone disease in end-stage renal disease patients in South India. A total of 115 patients were studied; 86% were on hemodialysis and 14% were on peritoneal dialysis (age, 47.31 +/- 14.66 years). Sixty-eight percent were men. Diabetes was the cause of end-stage renal disease in 29.5%. Intact parathyroid hormone (PTH) level was 124.6 +/- 174.9 pg/mL and less than twice normal in 69.5% of patients. Hypocalcemia was present in 16.5% and hyperphosphatemia in 35.7% of patients. Empirical vitamin D was prescribed in 40% of patients. Age, sex, diabetic status, and vitamin D use were similar in patients with high PTH (130 pg/mL) and low PTH levels (< 130 pg/mL). Bone histologic studies were not performed owing to economic limitation. But the biochemical and hormonal results are suggestive of a mild form of osteodystrophy in Indian patients. Etiology remains uncertain but differences in dietary intake, tropical climate, vitamin D activation, vitamin D receptor polymorphism, parathyroid gland sensitivity, and PTH target organ sensitivity may account for the difference in pattern in bone disease.
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PMID:Parathyroid hormone and biochemical profile in chronic kidney disease patients in South India. 1619 Oct 55


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