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)

Mild insulin resistance appears to be an early metabolic defect in girls with Turner syndrome (TS). Impaired glucose tolerance has been reported in 10-34% of patients with TS, and type 2 diabetes mellitus is 2-4 times more common and occurs at a younger age in girls with TS than in the general population. In a mixed longitudinal and cross-sectional study, we analysed carbohydrate tolerance and insulin sensitivity in 46 children and adolescents with TS who reached their final height after long-term treatment (mean 6.3 +/- 2.5 years) with growth hormone (GH: 0.33 mg/kg/week [0.05 mg/kg/day]), and in 36 of these patients who were followed-up after the cessation of GH therapy (mean follow-up, 2.6 +/- 2.5 years; range, 1-9.5 years). Patients with TS were compared with an age-matched female control group. Insulin sensitivity appeared to be lower in patients with TS than in controls, even before the start of GH therapy. As in controls, insulin sensitivity decreased with age in patients with TS, and levels were lower in those aged >12 years than in those aged <12 years. GH therapy resulted in good catch-up growth in patients with TS, with final height significantly higher than projected height evaluated before the initiation of GH therapy. Insulin sensitivity increased after 7-8 years of therapy and, on the cessation of GH therapy, returned to pre-treatment levels. The increase in insulin sensitivity seen on the cessation of GH therapy appeared to be influenced negatively by body mass index and triglyceride levels, and correlated positively with the number of years since cessation of GH therapy. As in the general population, excess weight and an abnormal lipid profile, in particular excess triglyceride levels, worsened insulin sensitivity. In conclusion, our study confirms that GH therapy reduces insulin sensitivity, but at its cessation there is a return to pre-therapy values. We therefore report a progressive improvement in carbohydrate tolerance and insulin function in patients with TS, despite an increase in age.
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PMID:Turner syndrome, insulin sensitivity and growth hormone treatment. 1643 45

Aging is not a passive activity, but an actively regulated metabolic process. Specific genes have been identified that regulate aging, although aging, and consequently longevity, is only partially under genetic influence. It is also possible to increase life span by environmental modification; for example, caloric restriction can increase life span. Because human life span is long, directly studying aging in humans is impractical. Fortunately, significant insights into aging can be achieved by studying short-lived organisms, such as yeast, worms, and fruit flies. Many of the molecular pathways regulating aging in these lower organisms are conserved in mammals and overlap with pathways regulating metabolism. For example, an insulin-growth hormone signaling system has been implicated in regulating aging and longevity in both worms and mammals. Furthermore, the dysregulation of glucose homeostasis is a hallmark of aging in humans. In fact, type 2 diabetes, a disease of glucose homeostasis, can be conceptualized as a form of accelerated aging. Consistent with this, aging and diabetes are both common risk factors for a wide range of diseases. Because aging and diabetes are intimately related at a molecular level, diabetes may be able to provide the link between disease treatment (eg, diabetes) and the prevention of age-related diseases. If specific molecular pathways controlling the rate of aging can be modulated genetically, then perhaps they can be modulated pharmacologically. These insights may ultimately have an important impact on the discovery and development of drugs to both treat and prevent a wide range of diseases.
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PMID:Genetics of aging: implications for drug discovery and development. 1647 14

Sexual dimorphisms in hypoglycemic counterregulation are well documented in young healthy and type 1 diabetic subjects. Here, we questioned whether sex differences in counterregulation are present also in type 2 diabetic patients who are in a postmenopausal state. In an attempt to answer this question, we examined hormonal responses to a single-step hypoglycemic clamp (50 mg/dL) in 15 postmenopausal women and 15 age-matched men. Patients were also matched for body mass index, HbA(1c), diabetes duration, and diabetes therapy. In addition to hormonal counterregulation, perception of symptoms as well as aspects of neurocognitive function (short-term memory of words and reaction time on an auditory vigilance task) was assessed at baseline and during the hypoglycemic clamp. Hypoglycemia induced a profound rise in almost all counterregulatory hormones, that is, epinephrine, norepinephrine, corticotropin, cortisol, and growth hormone (all P < .007), except for glucagon, which slightly decreased (P = .014). However, none of the responses differed between sexes (all P > .256). In addition, perceived symptoms (P < .001) as well as reaction time on the vigilance task (P < .001) increased, and short-term memory performance tended to deteriorate (P = .091) during hypoglycemia. Again these changes did not differ between the sexes (all P > .370). In sum, data suggest that, in contrast to previous observations in young, healthy, and type 1 diabetic subjects, sex does not represent an important determinant of hormonal, subjective, and neurocognitive responses to hypoglycemia in postmenopausal type 2 diabetic patients. However, the women in our study were all postmenopausal and not receiving hormone replacement therapy. Therefore, our results cannot be generalized to female patients with type 2 diabetes who are premenopausal or on hormone replacement therapy, that is, conditions characterized by increased blood estrogen levels.
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PMID:Hormonal, subjective, and neurocognitive responses to brief hypoglycemia in postmenopausal women and age-matched men with type 2 diabetes mellitus. 1648 76

Supraphysiological doses of growth hormone (GH) therapy are generally thought to antagonize the effects of insulin, whereas the insulin-like growth factor I (IGF-I) potentiates insulin-like actions. Paradoxically, adults with GH deficiency and patients with acromegaly are both predisposed to glucose intolerance and insulin resistance; however, one cannot extrapolate from these pathological conditions to determine the true metabolic roles of GH and IGF-I in glucose homeostasis. Growth hormone also promotes lipolysis, which has been shown to be the principal determinant of its insulin-antagonistic properties; on the other hand, IGF-I, which acts as an insulin sensitizer, does not exert any direct effect on lipolysis or lipogenesis. Under physiological conditions, the insulin-sensitizing effect of IGF-I is evident only after feeding, when the bioavailability of circulating IGF-I is increased. In contrast to supraphysiological GH doses, low doses of GH treatment have been shown to increase circulating IGF-I levels and IGF-I bioavailability and, thus, may theoretically enhance insulin sensitivity without inducing lipolysis. We have recently reported that a fixed administration of a very low GH dose (1.7 microg/kg/day or 0.1mg/day) improved insulin sensitivity in adults with GH deficiency and increased peripheral glucose uptake in subjects with impaired glucose tolerance and the metabolic syndrome. Our data raise the possibility that this very low GH dose may play a role in maintaining beta-cell function and possibly delay the progression to type 2 diabetes in these high-risk patients.
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PMID:Impact of treatment with recombinant human GH and IGF-I on visceral adipose tissue and glucose homeostasis in adults. 1662 5

In type 2 diabetes mellitus (T2DM), little is known about hormonal responses to hypoglycemia. In particular, beta-cell responses to hypoglycemia have not been carefully investigated and potentially because of confounding factors or insufficient power, conflicting data have been obtained regarding growth hormone responses. We therefore compared hormonal responses including rates of insulin secretion during a 2-hour hyperinsulinemic hypoglycemic clamp in a relatively large number of nondiabetic (n=21) and moderately insulin-deficient subjects with T2DM (homeostasis model assessment of beta-cell function [HOMA-%B], 751+/-160 vs 1144+/-83 [pmol/L]/[mmol/L], P<.04) (n=14) matched for age, sex, and body mass index. Subjects with T2DM were excluded for antecedent hypoglycemia, and baseline glycemia was controlled by a variable infusion of insulin overnight. Although both groups of subjects had indistinguishable plasma glucose levels at baseline and virtually identical levels of plasma insulin and glucose throughout the hypoglycemic clamp, insulin secretion decreased more slowly in the subjects with T2DM. The time required for insulin secretion to decline to half its baseline level was markedly increased (38.9+/-4.9 vs 22.3+/-1.3 minutes [SD], P<.01), and insulin secretion decreased to a lesser extent (-0.79+/-0.17 vs -1.51+/-0.09 [pmol/L]/kg per minute, P<.002). Moreover, responses of glucagon (28.3+/-7.3 vs 52.8+/-7.0 ng/L, P<.05) and growth hormone (2.9+/-0.8 vs 6.3+/-0.9 ng/mL, P<.04) were reduced in the subjects with T2DM, whereas responses of epinephrine, norepinephrine, and cortisol were similar to those in nondiabetic subjects (all P>0.6). We conclude that multiple defects exist in hormonal responses to hypoglycemia in T2DM with moderate beta-cell failure. These include delayed and reduced decreases in insulin secretion, and impaired increases of plasma glucagon and growth hormone.
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PMID:Multiple defects in counterregulation of hypoglycemia in modestly advanced type 2 diabetes mellitus. 1663 34

Diabetic ketoacidosis is an acute complication of diabetes mellitus that can be life-threatening if not treated properly. Once thought to occur only in patients with type 1 diabetes, diabetic ketoacidosis has been also observed in patients with type 2 diabetes under certain conditions. The basic underlying mechanism for diabetic ketoacidosis is insulin deficiency coupled with elevated levels of counter-regulatory hormones, such as glucagon, cortisol, catecholamines, and growth hormone. Diabetic ketoacidosis can be the initial presentation of diabetes mellitus or precipitated in known diabetic patients by many factors, most commonly infection. The management of diabetic ketoacidosis involves careful clinical evaluation, correction of metabolic abnormalities, identification and treatment of precipitating and comorbid conditions, appropriate long-term treatment of diabetes, and plans to prevent recurrence. Certain areas need further research, such as indications for the use of bicarbonate and phosphates and the use of intravenous rapid-acting insulin.
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PMID:Overview of the diagnosis and management of diabetic ketoacidosis. 1670 93

Epidemiologic studies show a positive association between obesity and cancer risk. In addition to increased body adiposity and secretion of fat-derived hormones, obesity is also linked to insulin resistance, type 2 diabetes, and chronic inflammation. We used the fatless A-ZIP/F-1 transgenic mouse to dissociate the relative role of each of these underlying factors in the development of cancer. These mice are unique in that they do not have white fat but do develop type 2 diabetes. In two cancer models, the classic two-stage skin carcinogenesis protocol and the C3(1)/T-Ag transgenic mouse mammary tumor model, A-ZIP/F-1 mice displayed higher tumor incidence, tumor multiplicity, and decreased tumor latency than wild-type mice. We examined circulating levels of adipokines, growth factors, and cytokines. As expected, adipokines (i.e., leptin, adiponectin, and resistin) were undetectable or found at very low levels in the blood of fatless mice. However, insulin, insulin-like growth factor-I, growth hormone, vascular endothelial growth factor, and proinflammatory Th2 cytokines, such as interleukin (IL)-1beta, IL-4, and IL-6, were elevated in A-ZIP/F-1 mice. Additionally, we examined multiple phosphorylated proteins (i.e., protein kinase B/Akt and ErbB2/HER-2 kinase) associated with cancer development. Results show that many of these phosphorylated proteins were activated specifically in the A-ZIP/F-1 skin but not in the wild-type skin. These findings suggest that adipokines are not required for the promotion of tumor development and thus contradict the epidemiologic data linking obesity to carcinogenesis. We postulate that insulin resistance and inflammation are responsible for the positive correlation with cancer observed in A-ZIP/F-1 mice.
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PMID:Accelerated tumor formation in a fatless mouse with type 2 diabetes and inflammation. 1670 76

We recently reported that in subjects with untreated type 2 diabetes a 5-wk diet of 30:30:40 carbohydrate/protein/fat ratio resulted in a significant decrease in 24-h integrated glucose, total %glycohemoglobin, and total cholesterol compared with a control diet of 55:15:30 carbohydrate/protein/fat given at the beginning of the 5-wk period. Body weight was stable and insulin was unchanged. We now present data on other hormones and metabolites considered to be affected by dietary macronutrient changes. The test diet resulted in an elevated fasting plasma total IGF-I, but not growth hormone. Urinary free cortisol was increased. Serum renin and urinary aldosterone remained unchanged. Blood pressure was stable. Serum creatinine and uric acid were increased. Urinary microalbumin was decreased. Creatinine clearance, serum B(12), folate, homocysteine, TSH, and free thyroxine were unchanged. Total triiodothyronine was decreased. Plasma alpha-amino nitrogen, urea nitrogen, and serum albumin were increased. Urea production rate was increased such that a new steady state was present. The calculated urea production rate accounted for 84% of protein ingested on the control diet but only 68% on the test diet, suggesting net nitrogen retention on the latter. Overall, the lack of negative effects, the improved glucose control, and the positive nitrogen balance suggest such a diet will be beneficial for older subjects with type 2 diabetes. Nevertheless, the long-term effects and general applicability of the diet remain to be determined.
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PMID:Metabolic effect of a LoBAG30 diet in men with type 2 diabetes. 1672 Jun 31

To determine whether glucose tolerance varies throughout the day in people with impaired glucose tolerance (IGT). We studied 15 healthy IGT, and 18 matched normal glucose tolerant (NGT) individuals. Blood samples were taken every 30-120 min during a 24h period in which all individuals had three mixed meals and nocturnal sleep. We measured glucose, free fatty acids, specific insulin, intact proinsulin, cortisol and growth hormone. Variable responses were considered as concentrations and areas under the curves. Comparison between the groups was by Student's t-test, Mann-Whitney, and analysis of variance. Higher total glucose response, inappropriate normal total insulin response, and unproportionally increased proinsulin total response were observed in the IGT group. Lower glucose tolerance occurred in IGT after dinner, as in the NGT, and after breakfast associated with increased insulin response after breakfast, and similar proinsulin response after all three meals. IGT had higher glucose response than NGT after breakfast and lunch, similar insulin responses, and increased proinsulin-insulin ratio after all three meals. Data from this study demonstrate that IGT individuals present lower glucose tolerance in the evening, as those with NGT, and in the morning, as reported in patients with type 2 diabetes.
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PMID:Daytime variations in glucose tolerance in people with impaired glucose tolerance. 1673 Aug 46

Diffuse idiopathic skeletal hyperostosis (DISH) is a non-inflammatory disease of skeleton characterized by hyperostosis of axial and peripheral skeleton. The association of DISH with type 2 diabetes mellitus and other metabolic alterations (e.g. impaired lipid metabolism) has been known for many years. However, it has not been explained satisfactorily yet. It seems that this pathological process is significantly influenced by hyperglycemia and insulin resistance. Also, it is affected by growth hormone (GH) and its action mediated by insulin-like growth factor (IGF) and its binding proteins (IGFBP2, IGFBP3). From the point of symptomatic therapy, patients should not be given medicaments that aggravate hyperinsulinemia.
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PMID:[Diffuse idiopathic skeletal hyperostosis and its relation to metabolic parameters]. 1677 Oct 94


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