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)

Polymorphisms occur on the average of one out of every 500 base pairs of DNA, and these polymorphisms provide useful markers for genetic analysis. Hundreds of RFLP markers have been mapped at regular intervals throughout the human genome. Diabetes genes have not been mapped with these markers, however, only one MODY family has been partially evaluated. This type of analysis is further complicated if NIDDM is multigenic and/or polygenic. RFLPs have been used to evaluate specific candidate loci for NIDDM, e.g. the insulin, insulin receptor and glucose transporter genes. For these analyses, population and family studies (limited in number) have suggested that none of these loci are major contributors to the genetic susceptibility to NIDDM. In no case, however, could a contribution of 10% or less of these loci be confidently excluded, because of variable penetrance, different degrees of linkage disequilibrium between RFLPs and putative mutations, the frequencies of the RFLPs in non-diabetic populations, and inadequate sample size. The conclusions are clear: either (1) the correct candidate gene(s) has not been found, or (2) sample sizes need to be increased by at least an order of magnitude, or (3) newer methods of analysis must be adopted (e.g. use of extended haplotypes and associations with subphenotypes, or screening with allele specific oligonucleotide probes, denaturing gradient gel electrophoresis or direct genomic sequencing of polymerase chain reaction amplified DNA).
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PMID:Use of DNA polymorphisms for genetic analysis of non-insulin dependent diabetes mellitus. 167 85

In Madras city (India) 10,513 school students between 3 and 20 yr of age were investigated for glycosuria and its causes. While no previously known cases of diabetes mellitus of any type were encountered, four students (0.038%) in the survey population were found to have glycosuria. One (0.009%) had renal glycosuria, two (0.019%) were possibly NIDDY (MODY) and one (0.009%) had transient glycosuria while receiving anti-tuberculous chemotherapy. It is therefore concluded that neither diabetes mellitus nor glycosuria of non-diabetic causes is a crucial health problem in Indian children and adolescents. While the reasons for this are not known, further research in this field could be of global interest.
Diabetes Res Clin Pract 1991 Aug
PMID:Glycosuria and diabetes mellitus in children and adolescents in south India. 177 10

There are two approaches to identify diabetes-susceptibility genes. One approach is to isolate and characterize genes expressed in the beta-cell and in insulin target tissues whose mutation or altered expression may contribute to the development of diabetes mellitus. Another approach is to clone a diabetes-susceptibility gene by a reverse genetic strategy. The first step for this strategy is to identify a DNA polymorphism that is linked to the disease locus. Using the strategy of the first approach, several candidate genes were examined. Among these genes, the mutation of insulin genes and insulin receptor genes was found in the patient with diabetes. By cDNA cloning or PCR-direct sequencing methods, we identified several mutations in the insulin receptor genes of four insulin-resistant diabetic patients. At least two mutants of insulin receptor genes were expressed in Chinese hamster ovary cells and these mutated receptors showed impaired ability to transduce insulin action in these cultured cells. The expression of these mutant genes in animals such as transgenic mice will be indispensable to establish the relationship between the gene mutation and the abnormality found in the patient. Using the strategy of the second approach, Bell et al. recently reported that the gene responsible for MODY (maturity-onset diabetes of the young) is tightly linked to the adenosine deaminase gene on chromosome 20q. However, this strategy will not be applicable for identification of diabetes-susceptibility genes of NIDDM, since this disorder is likely to be genetically heterogenous, with mutations in several different genes able to cause hyperglycemia, and this heterogeneity could confound the linkage analysis.
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PMID:[Diabetes mellitus and molecular biology]. 177 65

Maturity-onset diabetes of the young (MODY) is a form of non-insulin-dependent diabetes mellitus characterized by an early age of onset, usually before 25 years of age, and an autosomal dominant mode of inheritance. The largest and best-studied MODY pedigree is the RW family. The majority of the diabetic subjects in this pedigree has a reduced and delayed insulin-secretory response to glucose, and it has been proposed that this abnormal response is the manifestation of the basic genetic defect that leads to diabetes. Using DNA from members of the RW family, we tested more than 75 DNA markers for linkage with MODY. A DNA polymorphism in the adenosine deaminase gene (ADA) on the long arm of chromosome 20 was found to cosegregate with MODY. The maximum logarithm of odds (lod score) for linkage between MODY and ADA was 5.25 at a recombination fraction of 0.00. These results indicate that the odds are greater than 178,000:1 that the gene responsible for MODY in this family is tightly linked to the ADA gene on chromosome 20q.
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PMID:Gene for non-insulin-dependent diabetes mellitus (maturity-onset diabetes of the young subtype) is linked to DNA polymorphism on human chromosome 20q. 189 28

We studied the association of obesity with serum lipid and lipoprotein concentrations in 117 patients (62 males and 55 females) with NIDDY and in 40 nondiabetic control subjects (21 males and 19 females). Obesity at a young age was related to increased lipid and lipoprotein levels both in the patients with NIDDM and the control group. Moreover, low HDL-c levels were aggravated by diabetic status only in males. The BMI and fasting insulin level had a statistically significant correlation with the TG and HDL-c level and various atherogenic factors. Therefore, it is suggested that the lipid abnormalities seen in obesity may be associated with hyperinsulinemia. We conclude that obesity in adolescence leads to aberrations of the serum lipid and lipoprotein levels, particularly in obese males with NIDDY.
Diabetes Res Clin Pract 1990
PMID:Adverse effects of obesity on lipid and lipoprotein levels in the patients with non-insulin dependent diabetes in the young. 228 36

The authors deal with the clinical picture of total remission in diabetes, among young patients (below 30 years). In their interpretation "complete remission" means total withdrawal of insulin treatment for at least 2 months. Out of 14 patients with complete remission, the classified 7 patients--by clinical and immunogenetical parameters--as noninsulin-dependent diabetes in the young (MODY-NIDDY). 1 diabetic patient belongs to the autoimmune-subgroup of IDDM. The remaining 6 patients could be classified as IDDM-s. However their clinical and immunogenetical parameters were rather atypical. In conclusion they raised the possibility that this subgroup is heterogenous with in IDDM.
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PMID:[Long-term remission in diabetes mellitus diagnosed at an early age]. 240 24

Maturity-onset diabetes of the young (MODY) has been described as being characteristically free from severe complications. This has led to speculation that the type of diabetes may be important in the pathogenesis of complications in diabetes. We report a case of classical MODY in which severe proliferative diabetic retinopathy developed. The retinopathy was detected shortly after the diagnosis of diabetes was made when the patient was 32 years old, and did not progress subsequently. No further complications developed during the subsequent 29 years in which normal postprandial plasma glucose levels were maintained with chlorpropamide therapy (mean 4.7, range 4.1-6.0 mmol I-1). This case demonstrates that severe retinopathy can occur in MODY and we suggest that in this patient there may have been a period of hyperglycaemia prior to diagnosis which was sufficient to lead to the microvascular complication.
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PMID:Proliferative diabetic retinopathy in a patient with maturity-onset diabetes of the young (MODY). 252 86

We report the clinical records of 45 children with abnormalities regarding glycemic regulation characterized by a non-insulin deficient hyperglycemia (NIDH), known under the different names of chemical diabetes, sub-clinical diabetes and more recently MODY. These 45 children belong to 31 families with 532 relatives comprising 137 cases of NIDH which could have been studied. The symptoms of this biochemical abnormality, the pathophysiology of which is not yet clearly understood, are the following: lack of clinical manifestations, except for a variable and intermittent glycosuria; constant abnormal glucose tolerance tests, above 97 percentiles of the reference value with some variations over time; normal immunoreactive insulin levels; percentage of glycosylated hemoglobin at the upper range of normal; dominant autosomal genetic transmission and no association with HLA markers like in insulin-dependent diabetes; lack of degenerative complications of the micro-angiopathic type, at least on these cases even after more than 30 years of follow-up; finally, no tendency towards insulin-dependent diabetes. The NIDH should not be confused with the slow and progressive beginning of insulin-dependent diabetes for which prolonged delay is needed to affirm the diagnosis. The frequency of the biochemical phenomena is about 1.8% of the cases of authentic diabetes mellitus occurring before the age of 15.
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PMID:[Chronic non-insulin deficient hyperglycemia in children]. 265 58

Both early onset and late onset type II diabetes were present in one family of nine siblings. The three early onset type II diabetic siblings showed severe microvascular complications: proliferative retinopathy, diabetic nephropathy, and peripheral neuropathy. Early onset type II diabetes was not associated with any particular HLA haplotype. Early onset type II diabetes could be considered a clinical and genetic disease entity different from MODY type diabetes.
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PMID:Severe microvascular disease in type II diabetes of early onset. A family study. 275 Apr 46

Nineteen diabetics aged 9 to 18 years with the MODY type were investigated, incl. their families, by the oGTT. Diabetes in the parents was nine times and in siblings four times more frequent than in families of adolescents with IDDM. In parents the manifest form predominated, in siblings PGT. Vertical transmission of diabetes in three consecutive generations was found only in the MODY type (in 35%). Diabetes with the MODY type and their diabetic siblings did not differ significantly as to their mild glucose intolerance (blood sugar level up to 13 mmol/l), and their mild diabetic phenotypes did not differ either. Similarly diabetics with IDDM and their diabetic siblings did not differ substantially as to their severe glucose intolerance (blood sugar level up to 21 mmol/l), and their severe diabetic phenotypes did not differ either. IRI levels revealed five times a hyperinsulinaemic and three times a normal insulinaemic response. Obese diabetics were treated with a reducing diet and physical activity. To non-obese diabetics, if the above procedure was not sufficiently successful, sulphonylurea preparation were also administered. During check-up examinations fasting values and values three hours after a meal lower than 6.1 mmol/l were required. In the course of a four- to ten-year follow up it did not change. Existence of the MODY type already macroangiopathic complications developed; in one diabetic the glucose tolerance improved, in the remainder it did not change. Existence of the MODY type already in adolescents justifies early detection in families with a cumulated incidence of NIDDM and prophylactic procedures ensuring euglycaemia in confirmed diabetics.
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PMID:[MODY type diabetes mellitus in children and adolescents]. 275 88


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