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Query: UMLS:C0011860 (
type 2 diabetes
)
57,723
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Diabetes may be associated with many genetic disorders. The scientific importance of these often rare disorders resides in the insight they may provide into the possible mechanisms of common diabetes. The type of diabetes varies in these syndromes. Non-insulin-dependent diabetes (
NIDDM
), clinically similar to common
NIDDM
, may be found in some syndromes (e.g. Werner's syndrome). In others there may be considerable insulin resistance, such as that present in ataxia telangiectasia. Extreme insulin resistance due to abnormal insulin receptor function is found in the
Mendenhall syndrome
. The mechanism of diabetes is more obscure in acute intermittent porphyria (AIP), although haem deficiency affecting the cytochrome chain raises interesting possibilities. In glycogen storage disease type I, the diabetes is associated with insulinopenia, following an earlier period in the disease when hypoglycaemia is the rule. IDDM, clinically similar to the common form, is present in the autoimmune polyglandular syndromes. Although a change in the lean:fat ratio is common in many neuromuscular disorders, mechanisms other than insulin resistance would seem to operate. The increased incidence of diabetes in heterozygotes for some of these genetic disorders raises the possibility that many common diabetics are, in fact, heterozygotes for some other disorder. The increased frequency of diabetes in Klinefelter's syndrome, Turner's syndrome and possibly Down's syndrome leads to the hypothesis that non-disjunction may, in some way be associated with the predisposition to diabetes. In several syndromes there is an increased incidence of diabetes in otherwise unaffected relatives of individuals with these syndromes. It is impossible to assess what proportion of common
NIDDM
or IDDM is made up of heterozygotes for these genetic syndromes.
...
PMID:Diabetes secondary to genetic disorders. 144 74
Insulin receptor is a membrane-bound glycoprotein playing a key role in transmembrane signaling of insulin. Therefore, it is logical to look for abnormal structure or functions of this protein in insulin resistance syndromes, such as major insulin resistance syndromes and
non insulin dependent diabetes
mellitus. Cloning of the insulin receptor cDNA allowed to identify the functional domains of the protein (insulin binding site, autophosphorylation sites and tyrosine-kinase domain). Mutations of the insulin receptor gene are often observed in rare syndromes of major insulin resistance, such as leprechaunism, type A insulin resistance and
Rabson-Mendenhall syndrome
. However, such studies are disappointing in the case of
NIDDM
, in which defects of other proteins involved in insulin action should be investigated.
...
PMID:[Insulin receptor and diabetes]. 793 36
The syndromes of extreme severe insulin resistance are mainly caused by genetic defects of the insulin receptor gene (Type A syndrome, Leprechaunism, and
Rabson-Mendenhall syndrome
) or by the presence of circulating autoantibodies that disrupt the normal functions of the insulin receptor (Type B syndrome). These syndromes are characterized by the hyperinsulinemia and severe insulin resistance and in most cases accompanied by impaired glucose tolerance and diabetes mellitus. The clinical features common to these syndromes are acanthosis nigricans, hyperandrogenism and ovarian dysfunction. On the other hand, an important distinguishing typical feature in type B syndrome is evidence of other autoimmune disorders. [These syndromes can be a contributory causes of insulin resistance in a subpopulation with
NIDDM
.]
...
PMID:[Syndromes of severe insulin resistance]. 1019 43
The interaction of insulin with its cell surface receptor is the first step in insulin action and the first identified target of insulin resistance. The insulin resistance in several syndromic forms of extreme insulin resistance has been shown to be caused by mutations in the receptor gene. We studied 8 female patients with the type A form of extreme insulin resistance and 3 patients (2 male and 1 female) with the
Rabson-Mendenhall syndrome
and followed the natural history of these patients for up to 30 years. The 11 patients ranged in age from 7 to 32 years at presentation. All 11 patients had extreme insulin resistance, acanthosis nigricans, and hyperandrogenism in the female patients, and all but 1 were of normal body weight. This phenotype strongly predicts mutations in the insulin receptor: of the 8 patients studied, 7 were found to have mutations. Similar results from the literature are found in other patients with type A and Rabson-Mendenhall syndromes and leprechaunism. The hyperandrogenic state resulting from hyperinsulinemia and insulin resistance in these patients was extreme: 6 of 8 patients had ovarian surgery to correct the polycystic ovarian syndrome and elevation of serum testosterone. By contrast, a larger group of insulin-resistant patients who were obese with hyperandrogenism, insulin resistance, and acanthosis nigricans (HAIR-AN syndrome) did not have a high probability of mutations in the insulin receptor. The morbidity and mortality of these patients were high: 3 of 11 died, 9 of 11 were diabetic and 1 had impaired glucose tolerance, and 7 of 9 patients had 1 or more severe complication of diabetes. Our literature review revealed that the mortality of leprechaunism is so high that the term leprechaunism should be restricted to infants or young children under 2 years of age. Analogous to patients with the common forms of
type 2 diabetes
, these patients had a heterogeneous course. In 2 patients who were able to maintain extremely high endogenous insulin production, the fasting blood glucose remained normal even though post-glucose-challenge levels were elevated. Most patients, however, required large doses of exogenous insulin to ameliorate the severe hyperglycemia. Preliminary results of a recent study suggest that recombinant leptin administration may benefit these patients with severe insulin resistance.
...
PMID:Clinical course of genetic diseases of the insulin receptor (type A and Rabson-Mendenhall syndromes): a 30-year prospective. 1523 9
Diabetes mellitus is a chronic syndrome of abnormal metabolism, determined by interaction of multifactorial genetic and environmental factors. Some specific types of diabetes, such as
MODY
, Leprechaunism, lipoatrophic diabetes, and
Rabson-Mendenhall syndrome
, are monogenic forms of diabetes and are inherited as a Mendelian pattern. The article reviews the research development of these Mendelian inherited diabetes will be reviewed.
...
PMID:[Research development of Mendelian inherited diabetes]. 1603 82
Defects in insulin receptor function have been associated with insulin resistant states such as obesity and
type 2 diabetes
mellitus. Several types of mutations in the insulin receptor gene have been identified in patients with genetic syndromes of extreme insulin resistance. We have studied a 10-year-old Japanese girl with type A insulin resistance with hirsutism and hyperinsulinemia but without the dysmorphic features characteristic of leprechaunism or
Rabson-Mendenhall syndrome
. Despite the presence of severe insulin resistance, the patient did not develop overt diabetes mellitus at the time of investigation. Using direct sequencing, we identified a nonsense mutation causing premature termination after amino acid 345 in the alpha subunit of the insulin receptor.
...
PMID:A nonsense mutation in the Arg345 of the insulin receptor gene in a Japanese type A insulin-resistant patient. 1612 20
Diabetes mellitus is a heterogenous disorder characterized by chronic hyperglycemia and induced by a large number of etiopathogenic conditions. Beside type 1 and
type 2 diabetes
, which account for almost 90% of all cases, practitioners may encounter patients with more infrequent forms of diabetes, as those induced by mutations of a single gene, atypical immune disorders or neonatal diabetes. Monogenic diabetes is represented by genetic disorders in the structure of the beta-cell (the
MODY
syndromes and the mutations of mitochondrial DNA) or in the insulin's action (type A insulin resistance syndrome,
Rabson-Mendenhall syndrome
, leprechaunism, lipodystrophies). The rare forms of immune diabetes are determined by antibodies against insulin or insulin receptor or appear as a component of the "stiff man syndrome". Neonatal diabetes is induced by mutations in genes that control beta-cell development and function and may have a transient or permanent nature. Knowledge of the uncommon forms of diabetes mellitus enables physicians to apply the optimal treatment, to estimate the evolution of the patient and to apply a complete family screening in order to diagnose all other blood relatives as soon as possible.
...
PMID:Rare types of diabetes mellitus. 2327 13
