Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In hyperandrogenic females, the ratio of dehydroepiandrosterone (DHEA) to testosterone may be an important determinant of insulin sensitivity. This study involved changes in insulin sensitivity and glucose metabolism with therapeutic manipulation of DHEA (S)/testosterone in a female patient with non-insulin-dependent diabetes and hyperandrogenism. Therapeutic intervention included 1-month treatment with 0.25 mg dexamethasone at bedtime and 1-month dexamethasone + DHEA. Insulin sensitivity and glucose tolerance were assessed before and after each treatment regimen by examining: 1) fasting and oral glucose tolerance test glucose and insulin levels, 2) hypoglycemic response to intravenous insulin, and 3) erythrocyte insulin receptor binding. With dexamethasone alone, DHEAS, testosterone, and their ratio were reduced with a concomitant increase (30%) in oral glucose tolerance test insulin levels and a decrease (33%) in erythrocyte insulin binding. With DHEA + dexamethasone, the ratio of DHEAS/testosterone increased 16-fold along with a marked improvement in insulin sensitivity, as determined by a more than 30% reduction in fasting and oral glucose tolerance test insulin levels, a threefold stimulation of the rate of glucose disappearance with intravenous insulin, and a 30% increase in insulin binding. DHEA improved insulin sensitivity and reduced fasting and oral glucose tolerance test glucose levels and ameliorated the diabetic state. The ratio of DHEAS/testosterone is an important regulator of insulin sensitivity and glucose tolerance and that DHEA therapy may be beneficial in the treatment of certain forms of insulin resistance.
 ...
PMID:Case report: amelioration of insulin resistance in diabetes with dehydroepiandrosterone. 823 89

Mutations of the insulin receptor gene are a cause of the type A syndrome of extreme insulin resistance. This study assessed the prevalence of such mutations in women with clinical features of the type A syndrome including ovarian hyperandrogenism, moderate-to-severe degrees of insulin resistance, and acanthosis nigricans. We studied 22 unrelated women with insulin resistance (fasting insulin > 300 pM [50 microU/ml] and/or peak during an oral glucose tolerance test (OGTT) > 1,800 pM [300 microU/ml]), acanthosis nigricans, and the polycystic ovary syndrome (hyperandrogenemia, oligoamenorrhea, and hirsutism). Two insulin-resistant probands with congenital generalized lipodystrophy and one male proband with severe insulin resistance also were included in the study. Southern blotting experiments were performed to exclude gross gene deletions, insertions, or rearrangements. Exons 2-22 of the insulin receptor gene were polymerase chain reaction (PCR) amplified from genomic DNA and screened for nucleotide variation using single-strand conformation polymorphism (SSCP). No nucleotide variation between study subjects was detected in exons 4-6, 10-12, 15, 16, 18, 19, or 21. Sequencing of amplified DNA revealed that SSCP variants in exons 2, 3, 8, 9, and 17 corresponded to known silent polymorphisms within the coding region. Variants in exons 2, 9, 13, and 14 were caused by novel silent polymorphisms; variants in exons 7 and 22 were caused by nucleotide substitutions in flanking introns. One proband was found to have a heterozygous point mutation in exon 20 (CGG-->CAG, Arg1174-->Gln) that involves the intracellular receptor beta-subunit.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1994 Feb
PMID:Prevalence of mutations in the insulin receptor gene in subjects with features of the type A syndrome of insulin resistance. 828 49

Previous studies have shown that hyperinsulinism is associated with hyperandrogenism in patients with the polycystic ovary syndrome, a form of functional ovarian hyperandrogenism (FOH). Although many studies have documented insulin resistance and hyperinsulinemia in polycystic ovary syndrome, the relative roles of insulin secretion and clearance in the pathogenesis of the hyperinsulinism remain uncertain. In this study, using individually derived C-peptide kinetic parameters, insulin secretion rates were calculated directly from plasma C-peptide concentrations in 10 patients with FOH and 7 weight-matched control subjects. All subjects were studied during a 24-h period when they ate a standardized diet consisting of 3 mixed meals. On a separate occasion, insulin sensitivity was calculated during a hyperinsulinemic euglycemic clamp. Although glucose concentrations in both groups were within the normal range, the FOH group had higher basal (P < 0.01) and 24-h insulin (P < 0.04) concentrations. The increased insulin concentrations reflected both a reduced clearance (P < 0.02) and an increased secretion of insulin. Basal insulin secretion rates were significantly increased (P < 0.04) in the FOH patients. By contrast, their incremental insulin secretory response to meals was markedly reduced. This reduction in the postprandial responses resulted from a reduction in the relative amplitude of meal-related (P < 0.007) secretory pulses, rather than from a reduction in the number of pulses present. Insulin sensitivity was also lower in those with FOH. Thus, women with FOH have significantly higher basal insulin secretory rates and attenuated secretory responses to meals. These secretory patterns resemble those of noninsulin-dependent diabetes mellitus more than they do those of simple obesity.
 ...
PMID:Defects in beta-cell function in functional ovarian hyperandrogenism. 849 16

A 60-year-old woman with a progressive virilization for about 5 yr developed diabetes mellitus with elevated insulin levels (fasting insulinemia ranging 32.4-45.8 microU/ml). The marked increase of plasma testosterone (total 5.7-8.2 ng/ml; free 11.5 pg/ml) and other endocrine markers clearly indicated the ovarian origin of hyperandrogenism. Pelvic ultrasonography, computerized axial tomography, and direct examination of ovaries during laparotomy, showed no evidence of neoplasia. Microscopic examination and immunocytochemical investigations confirmed the diagnosis of hyperthecosis. After oophorectomy and regression of hyperandrogenism, fasting and postprandial blood glucose concentrations normalized in spite of persistently elevated levels of insulinemia (fasting values ranging 32.0-61.0 microU/ml). The present case suggests that pathological increase of testosterone can interfere with insulin-glucose balance impairing the peripheral sensitivity to insulin.
 ...
PMID:Reduction of insulin resistance after correction of nonneoplastic ovarian virilization. 851 85

Insulin resistance confers increased susceptibility to NIDDM, atherosclerotic cardiovascular disease, ovarian hyperandrogenism, and possibly hypertension. Insulin resistance is largely inherited, in rare cases as a monogenic disorder or more commonly as a complex trait. The search for insulin resistance genes relies mainly on two complementary approaches: 1) positional cloning using random DNA markers present throughout the genome; and 2) the analysis of specific candidate genes. This report briefly summarizes the candidate gene approach to insulin resistance. Progress related to the analysis of genes encoding molecules that participate in insulin action is reviewed. In addition, the spectrum of potential genetic defects that might contribute to insulin resistance, both at the level of the target cell and secondarily (e.g., obesity genes), is discussed.
Diabetes Care 1996 Apr
PMID:Candidate genes for insulin resistance. 872 72

Insulin resistance characterizes non-insulin dependent diabetes (NIDDM). Insulin resistance may coexist in clinical syndromes with hyperestrogenism and hyperandrogenism, suggesting that the ovary may be sensitive to effects of insulin. In addition, insulin-like growth factor-I receptors, which are capable of binding insulin, have been identified in ovarian cancer tissue and are proposed to regulate cell growth. We evaluated the association between a history of diabetes mellitus and ovarian cancer in a case-control study in seven counties in Washington and in Utah (United States) during the years 1975-87. Cases included women newly diagnosed with ovarian cancer over a five-year period who were identified through population-based cancer reporting. Controls similar to cases with regard to age and county of residence were identified via household surveys or random digit dialing. The study included 595 cases and 1,587 controls. Twenty-seven cases (4.5 percent) and 72 controls (4.5 percent) reported a history of diabetes. Logistic regression analysis of the association between diabetes and ovarian cancer controlling for age, body mass index, and race resulted in an odds ratio (OR) of 0.9 (95 percent confidence interval [CI] = 0.6-1.5). The OR was not changed with further controlling for prior oral contraceptive use or prior pregnancy. None of the 20 women with nonepithelial tumors (15 of which were stromal tumors) had a history of diabetes (upper CI = 4.0). These results, together with findings of two earlier cohort studies, do not support the hypothesis that diabetes is a risk factor for epithelial ovarian cancer.
 ...
PMID:Is diabetes mellitus a risk factor for ovarian cancer? A case-control study in Utah and Washington (United States). 881 36

There exists a growing body of evidence in women that links androgen excess to increases in cardiovascular disease and reproductive site neoplasia. Ten to fifteen percent of women exhibit clinical signs and symptoms of hyperandrogenism wherein more extensive evaluation is warranted. Women with adult acne, android-type obesity, and alopecia often have been treated for cosmetic reasons without regard to the underlying pathophysiology. Adverse changes in insulin resistance, lipids, and apoproteins favor earlier progression of diabetes for some patients and an unfavorable cardiovascular risk profile for most. Patients with polycystic ovarian syndrome (PCOS) often present to different health providers with different complaints that include excessive facial hair, obesity, hypertension, impaired glucose tolerance, dysfunctional uterine bleeding, or infertility. First-line treatment options, after excluding ovarian or adrenal tumors, include use of non-androgenic OCs until pregnancy is desired. Early identification of patients allows for use of risk-reduction strategies, which may affect clinical outcomes.
 ...
PMID:Androgen excess in women. 882 97

A relationship exists between obesity and non-insulin-dependent diabetes mellitus. Central, abdominal obesity carries a particularly high risk that is most likely associated with enlargement of visceral fat deposits. A multiple endocrine perturbation is associated with visceral obesity. This consists of a hypersensitive hypothalamic-pituitary-adrenal (HPA) axis, with resulting excess of cortisol secretion upon stimulation. Growth hormone levels in both sexes are diminished and testosterone concentrations in men are lower than normal. In women a moderate hyperandrogenism is often present. The elevated sensitivity of the HPA axis may be a primary event, followed by adrenal androgen production in women and by interaction at several levels, with inhibition of both the growth hormone and pituitary-gonadal axes. Together, these endocrine perturbations seem to be able to centralize body fat to visceral depots because of a high density of steroid hormone receptors. The endocrine perturbations are most likely followed by insulin resistance. Elevated cortisol levels, deficiencies in sex-specific steroid hormones and excess androgens result in insulin resistance. The endocrine abnormalities in visceral obesity are followed by insulin resistance, both directly and indirectly via contribution of excess free fatty acids from centralized body fat depots. The hyperactivity of the HPA axis may be due to frequent challenges and it is amplified by a deficient feedback inhibition. A depressive, helplessness reaction to stress may be involved. Such stress factors may be found in socioeconomic and psychosocial handicaps, as suggested by results of population studies. This hypothesis is strongly supported by the reproduction of an identical condition in non-human primates that react with a depressive reaction upon psychosocial types of stressors. The perturbations of the HPA axis may thus be in the centre of the syndrome. Studies of this axis in established non-insulin-dependent diabetes mellitus suggest similar perturbations, but the information is not conclusive.
 ...
PMID:The origins and consequences of obesity. Diabetes. 901 75

Hypertension is often accompanied by a host of metabolic defects. Investigations have shown an association between insulin resistance, hyperinsulinemia, central/visceral obesity, and hypertension. Recent interest has focused on the fact that untreated hypertensive individuals have compensatory hyperinsulinemia, are resistant to insulin-mediated glucose uptake, and frequently have coexisting lipid abnormalities. Data from prospective studies appear to indicate that fasting hyperinsulinemia is an independent predictor of coronary artery disease. Additionally, there is evidence that hyperinsulinemia and diabetes eliminate the normal sex differences in the prevalence of coronary artery disease. The salutary effects of ovarian hormones on the prevalence of hypertension and cardiovascular disease in postmenopausal women are well established. Hyperandrogenism, in particular elevated serum levels of dehydroepiandrosterone sulfate, is believed to be a risk factor promoting sex-specific impairments of glucose and lipid metabolism, obesity, and hypertension in women. Clinical and epidemiologic evidence have linked elevated blood pressure to disturbances in lipoprotein metabolism, fibrinolytic activity, plasminogen activation inhibitor levels, and dyslipidemia. This review briefly presents the current understanding of various metabolic disturbances associated with hypertension, the pathophysiologic mechanisms involved, and the significance of the interplay between them relative to the complications of this disease.
 ...
PMID:Metabolic abnormalities in hypertension. 926 63

Hyperinsulinaemia is found in 30% of slim and 75% of obese women with polycystic ovary syndrome. Despite resistance to insulin action in terms of glucose transport, increased insulin levels may cause hyperandrogenaemia by enhancement of androgen production in the ovaries where insulin acts as co-gonadotrophin. Recent interest in insulin resistance results from the recognition that it predisposes to various metabolic abnormalities, and could be involved in the pathogenesis of atherosclerosis. Women with polycystic ovary syndrome frequently have metabolic disturbances associated with insulin resistance, and recent long-term follow-up studies have indicated that they also have a higher incidence of diabetes and hypertension later in life compared with control populations. This review describes the association of hyperinsulinaemia with hyperandrogenism, metabolic and circulatory changes in women with polycystic ovary syndrome. Special emphasis is placed on recent studies of molecular mechanisms of insulin resistance in polycystic ovary syndrome and clinical implications of hyperinsulinaemia in these women.
 ...
PMID:Insulin resistance in polycystic ovary syndrome. 926 4


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>