Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0028754 (obesity)
 124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Obstructive Sleep Apnea (OSA) is considerably more common in men than women. Preliminary data suggest that androgens may play a role in the male predominance of apnea. Polycystic Ovary Syndrome (PCOS) is characterized by menstrual disturbances, androgen excess, and frequently obesity. These features suggest that women with PCOS may be at increased risk for OSA. To determine whether obese women with PCOS have an increased prevalence of sleep apnea compared with age and weight-matched reproductively normal women, we performed overnight polysomnography for determination of the apnea-hypopnea index (AHI) in 18 obese women with PCOS and age and weight-matched control women. Additional measurements included waist, hip, and neck circumferences, serum total testosterone, unbound testosterone, and DHEAS. Women with PCOS had a higher AHI than controls (22.5 +/- 6.0, vs. 6.7 +/- 1.0, P = 0.008). Women with PCOS were also more likely to suffer from symptomatic OSA syndrome (44.4% vs. 5.5%, P = 0.008). AHI correlated with waist-hip ratio (r = 0.51, P < 0.03), serum testosterone (r = 0.52, P < 0.03) and unbound testosterone (r = 0.50, P < 0.05) in women with PCOS. We conclude that obese women with PCOS are at increased risk of OSA when compared with matched reproductively normal women. Women with PCOS should be carefully questioned regarding symptoms of sleep apnea.
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PMID:Increased prevalence of obstructive sleep apnea syndrome in obese women with polycystic ovary syndrome. 1123 5

The A-->G (-3826) point mutation within the distal region of the uncoupling-protein-1 (UCP-1) promoter is possibly involved in the development of obesity, diabetes and related disorders. DHEAS has been found to stimulate expression of UCP-1-mRNA. The aim of our study was to evaluate the prevalence of the three UCP-1 genotypes in type 2 diabetic patients out of a population based sample. Possible associations of A-->G mutation with serum levels of DHEAS and with obesity, diabetes and retinopathy were examined. - In 549 diabetic patients (312 males and 237 females) out of a population-based sample UCP-1 genotype was determined by genomic PCR and Bcl-I-RFLP analysis. Serum levels of DHEAS were measured by ELISA. - Genotype frequencies were: GG genotype, 4.4% (n= 24); AG genotype 37.3% (n=205) and AA genotype 58.3% (n= 320). The genotype groups were comparable with respect to sex, BMI, HbA1c, systolic blood pressure (BP), retinopathy and also to serum levels of C-peptide, leptin and cortisol. Serum levels of DHEAS were lowest in GG-genotype as compared to AG and AA (GG: 1.8+/-1.5 micromol/l, AG: 2.2+/-1.8 micromol/l, AA: 2.6+/-2.1 micromol/l; AA vs AG, AA vs GG: p<0.05). In a multiple linear regression analysis, which controlled for age, C-peptide, cholesterol, systolic BP, BMI, and HbA1c DHEAS was significantly negatively correlated with levels of cholesterol and positively with systolic BP only in females (p<0.05). - Allelic frequency for G in diabetic subjects was 0.23 which was similar as compared to a non-diabetic population examined by us in an earlier study. GG-genotype was associated with low levels of DHEAS in diabetic patients but not with retinopathy. We suggest a role for UCP-1 polymorphism in the pathogenesis of obesity and arteriosclerosis. This hypothesis, however, needs further investigation.
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PMID:GG-genotype in the promotor region of uncoupling-protein-1 gene is associated with lower level of dehydroepiandrosterone in type 2 diabetes. 1134 Dec 97

The current study was designed to examine the relationship between body fat distribution, as evaluated by anthropometry and magnetic resonance imaging (MRI), and circulating insulin, sex hormone and SHBG levels in obese adolescent girls. Twenty-nine obese adolescent girls, aged 12.6-16.9 years with a mean BMI of 30.51+/-1.86 participated in this study. All girls had breast stage B4-5 and pubic hair stage P4-5. Percent obesity and BMI as indices of being overweight were calculated; the waist-to-hip ratio (WHR) and the waist-to-thigh ratio (WTR) were calculated to obtain two anthropometric indices for the pattern of body fat distribution. The areas of visceral (VAT) and subcutaneous adipose tissue (SAT) were evaluated by MRI at the L4-L5 level. Serum concentrations of total T, DHEAS, 17beta-estradiol, progesterone and SHBG were measured. Plasma glucose and insulin concentrations were evaluated during an oral glucose tolerance test. WHR was the only anthropometric parameter that was significantly associated with the area of VAT. Insulin level showed correlation with both WHR and the area of VAT; no correlation was found between insulin levels and WTR. Both WHR and VAT were negatively correlated with serum DHEAS level and positively correlated with T level. There were strong negative correlations between serum SHBG level and the area of VAT and WHR. Inverse correlation was found between serum SHBG level and insulin. Serum 17beta-estradiol and progesterone levels showed no significant correlation with all the patterns of body fat distribution. SAT was not significantly correlated with both anthropometric parameters and any of the sex hormones evaluated. We can draw two main conclusions. Firstly, in massively obese adolescent girls, the WHR seems to be a good indicator for the accumulation of VAT, and abdominal obesity, rather than adiposity per se, appears to be related to biochemical complications. Secondly, increased upper body adiposity and, in particular, the intra-abdominal fat area are associated with increased insulin levels in massively obese adolescent girls. The associated reductions in SHBG and DHEAS levels represent an early general risk factor for the development of metabolic and cardiovascular diseases in this population, as previously described for obese adult women.
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PMID:Increased visceral adipose tissue is associated with increased circulating insulin and decreased sex hormone binding globulin levels in massively obese adolescent girls. 1143 68

Epidemiological evidence links breast cancer, a typical endocrine-related tumor, with western lifestyle, in particular eating habits. Yet, it's necessary to distinguish premenopausal from postmenopausal breast cancer. Visceral obesity and body weight gain are considered responsible for the increased risk of postmenopausal breast cancer. In fact, the mammary gland is sensitive to the level of circulating estrogens, visceral obesity is usually associated with higher levels of free steroid hormones, and the adipose tissue performs important endocrine function (clearance and aromatisation of androgens, regulation of free testoterone/DHEAS molar ratio). Before menopause, ovarian polycystosis is often seen with android obesity, and breast cancer risk could arise; however, as visceral obesity is generally less frequent, genetic factors are more important than nutritional ones. Furthermore, variations have been recorded in the secretion of insulin and insulin-like growth factors, involved in the genesis of the breast cancer. High body weight and male fat distribution negatively influence prognosis of breast cancer, too; this association is linked with the presence of estrogen and progesterone receptors in tumoral cells. Links between diet quality and breast cancer risk are shown: increased use of saturated fats and animal proteins, and a consequently decreased use of vegetables, legumes and fruit, constituting the so-called Mediterranean diet, are considered responsible for the increased risk of breast cancer. Lower fat and alcohol ingestion, the use of dietary fibre and a higher use of complex carbohydrates could reduce breast cancer risk. Finally, starting from the results of our previous animal researches, we suggest using a tryptophan devoid diet for a few days for premenopausal women with male obesity and alterations to the menstrual cycle.
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PMID:Breast cancer and obesity. 1144 84

Adrenarche is the puberty of the adrenal gland. The descriptive term "pubarche" indicates the appearance of pubic hair, which may be accompanied by axillary hair. This process is considered premature if it occurs before age 8 yr in girls and 9 yr in boys. The chief hormonal products of adrenarche are DHEA and DHEAS. The well-documented evolution of adrenarche in primates and men is incompatible with either a neutral or harmful role for DHEA and implies most likely a positive role for some aspects of young adult pubertal maturation and developmental maturation. Premature adrenarche has no adverse effects on the onset and progression of gonadarche and/or final height. Mechanisms for initiation of adrenal androgen secretion at adrenarche are still not well understood. Maturational increases in 17-hydroxylase and 17,20-lyase are seen together with a lower activity of 3beta-hydroxysteroid dehydrogenase (3beta-HSD). There is good evidence that the zona reticularis is the source of adrenal androgens. Adrenarche and gonadarche are regulated differently. Although premature adrenarche has been thought to be a benign, normal variant of puberty, our findings indicate that, for certain girls, premature adrenarche represents an early clinical feature of syndrome X (obesity, hypertension, dyslipidemia, insulin resistance). Perhaps the early identification of these patients will permit early therapy, such as lifestyle changes, including dietary and activity level intervention. As insulin resistance is an underlying feature of premature adrenarche, it seems rational to assess the efficacy and safety of using insulin-sensitizing agents to treat these individuals. In the absence of controlled longitudinal studies, the cross-sectional data available from our studies suggest that premature pubarche driven by premature adrenarche and hyperinsulinemia may precede the development of ovarian hyperandrogenism, and this sequence may have an early origin with low birth weight serving as a marker. Premature adrenarche may thus be a forerunner of syndrome X in some girls.
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PMID:Premature adrenarche. 1171 59

Man and higher primates have adrenals that secrete large amounts of dehydroepiandrosterone (DHEA) [prasterone] and its sulphate (DHEAS) [PB 008]. A remarkable feature of plasma DHEAS levels in humans is their great decrease with aging. Researchers have postulated that this age-related decline of DHEAS levels may explain some of the degenerative changes associated with aging. Moreover, administration of DHEA to laboratory animals has demonstrable beneficial effects such as prevention of diabetes mellitus, obesity, cancer, heart disease and positive immunomodulator effects. However, in rodents DHEA(S) circulating levels are so low that it is impossible to detect any significant age-related decrease. Therefore results from rodent experiments are not relevant to human beings. Three mechanisms of action of DHEA(S) have been identified. DHEA and DHEAS are precursors of testosterone and estradiol, DHEAS is a neurosteroid which modulates neuronal excitability via specific interactions with neurotransmitter receptors and DHEA is an activator of calcium-gated potassium channels. Randomised, placebo-controlled clinical trials which included healthy individuals aged 60 years and over treated with (near) physiological doses of DHEA (50-100 mg/day) have yielded very few positive results. Impact of DHEA replacement treatment was assessed on mood, well being, cognitive and sexual functions, bone mass, body composition, vascular risk factors, immune functions and skin. The major limitations of these trials were their short duration (maximum 1 year) and the low number of study participants involved (maximum 280). Many elderly people in western countries take DHEA without medical supervision. In the US, DHEA is even classified as food supplement. At present there is no scientific evidence to recommend DHEA replacement in the elderly. Further studies are needed to form conclusions about the efficacy and the safety of DHEA replacement in elderly, and to better understand the mechanisms of action of DHEA at the molecular and cellular levels.
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PMID:Pharmacology and therapeutic effects of dehydroepiandrosterone in older subjects. 1456 Nov

Aim of this study was to test the hypothesis that obesity promotes the insulin-sensitivity and ovarian hyperandrogenism in anovulating women independently of the polycystic ovary syndrome (PCOS). We examined 80 women of reproductive age (19-38 years, mean 28.5 +/- 0.6 years) with anovulary cycles. 45 subjects had PCOS and 35 had chronic anovulation without hormonal and ultrasound criteria of PCOS. The control group consisted of 12 healthy females with normal ovulary menstrual cycle (age 26.4 +/- 0.6 years). We evaluated plasma insulin level baselines (I0); 120 min after oral administration of 75g of glucose (I120), we examined FSH, LH, prolactin, testosterone, 17 OH progesterone and DHEAS and calculated indexes of insulin sensitivity, i.e. FIRI and G/I. Women with anovulary cycles yielded a significant increase in I0 (p < 0.01), I120 (p < 0.01), FIRI (p < 0.01), FSH, LH (both p < 0.05) and testosterone (p < 0.01), and a significantly decrease in G/I (p < 0.01) in comparison to controls with normal weight. There was a significant correlation between BMI and insulin levels, BMI and FIRI, and between WHR or waist circumference and FIRI, or G/I. The highest levels of insulinemia and the highest degree of insulin resistance were found in obese women (BMI > 30 kg/m2). In the group of obese anovulating women we found a positive correlation between I0 and testosterone (p < 0.01). In PCOS group, we found a negative correlation between I0 and LH (p < 0.01), and FIRI and LH (p < 0.01). In the group of obese PCOS women there were significantly higher levels of plasma insulin, and lower insulin sensitivity as compared to lean PCOS patients. However, lean PCOS women were more hyperinsulinemic and insulin resistant than the control group of lean women. Our results indicate, that obesity is the important factor determinating the insulin sensitivity and hyperinsulinemia in PCOS women. Moreover, the body weight is the major determinant of insulinemia, insulin sensitivity and ovarian hyperandrogenism, independently of PCOS. (Tab. 5, Fig. 4, Ref. 23.).
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PMID:Obesity is the major factor determining an insulin sensitivity and androgen production in women with anovulary cycles. 1505 31

This study was performed to investigate the serum levels of bisphenol A (BPA), an endocrine disruptor, in women with ovarian dysfunction and obesity. Fasting serum samples were obtained from 19 non-obese and 7 obese women with normal menstrual cycles: 7 patients with hyperprolactinemia, 21 patients with hypothalamic amenorrhea, and 13 non-obese and 6 obese patients with polycystic ovary syndrome (PCOS). BPA was measured by an enzyme-linked immunosorbent assay. BPA was detected in all human sera. Serum BPA concentrations were significantly higher in both non-obese and obese women with polycystic ovary syndrome (1.05 +/- 0.10 ng/ml, 1.17 +/- 0.16 ng/ml; p<0.05, respectively) and obese normal women (1.04 +/- 0.09 ng/ml, p<0.05) compared with those in non-obese normal women (0.71 +/- 0.09 ng/ml). There was no difference among women with hyperprolactinemia, women with hypothalamic amenorrhea, and non-obese normal women. There were significant positive correlations between serum BPA and total testosterone (r = 0.391, p<0.001), free testosterone (r = 0.504, p<0.001), androstenedione (r = 0.684, p<0.001), and DHEAS (r = 0.514, p<0.001) concentrations in all subjects. These findings show that there is a strong relationship between serum BPA and androgen concentrations, speculatively due to the effect of androgen on the metabolism of BPA.
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PMID:Positive relationship between androgen and the endocrine disruptor, bisphenol A, in normal women and women with ovarian dysfunction. 1511 66

The case of a 62-year-old woman with severe post-menopausal hirsutism is described. Her clinical history revealed regular menstrual periods until menopause at the age of 50, hysterectomy for fibromatosis at 58 years, non-insulin dependent diabetes mellitus, hypertension, obesity, severe hirsutism, which had developed in the previous 3 years, with a deeping of the voice. Examination showed android obesity, hypertension and severe hirsutism involving the face and the trunk. Endocrine evaluation pointed out regular adrenal function, serum total and free-testosterone in the adult male range, with normal androstenedione, DHEAS and 17OHP levels. Estradiol was slightly increased and LH and FSH were inappropriately low for her post-menopausal age. Computed tomography of the abdomen showed regular adrenal glands, and a radio-labeled cholesterol scan was negative. A further pelvic transvaginal ultrasonography revealed a small cystic formation near the right ovary and a slight increase in the size of the left ovary. The patient underwent bilateral ovariectomy. Histological examination showed a lipoid cell tumor within the left ovary. Immunohistochemical studies were positive for inhibin and cytokeratin. After surgery, serum testosterone fell to normal levels, gonadotropins increased to menopausal levels, confirming that the tumor was able to produce both LH, and FSH-inhibiting factors, and hirsutism greatly improved. Periodic hormonal tests remained normal and CT of the abdomen and pelvic ultrasonography did not show alterations at a 3 years follow-up.
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PMID:[Severe postmenopausal hyperandrogenism due to an ovarian lipoid cell tumor: a case report]. 1525 55

Leptin can be regarded as a marker of the nutritional status of the body. This study was performed to determine the correlation of leptin levels with insulin (I) and androgens in girls with premature pubarche (PP) and prepubertal controls (C) with (OB) or without (nOB) obesity. We studied 25 girls with PP and 14 C; girls were dived into two subgroups according to body mass index (BMI): OB (18 PP and 8 C) and nOB (7 PP and 6 C). Obesity was defined as BMI >95th percentile for chronological age. Serum levels of leptin, I, glucose (G), DHEAS, testosterone, androstenedione (A), cortisol, SHBG, IGFBP-1 and lipid profile were measured. The fasting G to I ratio (FGIR) was calculated and FGIR <7 was considered as suggestive of I resistance (IR). Data were analyzed comparing PP vs C and OB vs nOB. Serum DHEAS (0.60 +/- 0.45 vs 0.18 +/- 0.22 microg/ml) and A (895.5 +/- 420.4 vs 457.0 +/- 352.1 pg/ml) levels were significantly higher in PP than C. Other hormonal and metabolic parameters were similar. Serum leptin (30.8 +/- 18.3 vs 8.1 +/- 5.9 ng/ml), A (841.8 +/- 471.1 vs 522.5 +/- 317.2 pg/ml), DHEAS (0.53 +/- 0.44 vs 0.31 +/- 0.39 microg/ml), G (88.4 +/- 8.8 vs 80.2 +/- 8.1 mg/dl), I (13.5 +/- 7.7 vs 5.1 +/- 3.7 microU/ml) and total cholesterol (TC) (180.5 +/- 30.9 vs 161.8 +/- 29.5 mg/dl) levels were greater in the OB than in the nOB group. IR was observed in 10 girls with OB and in one with nOB. Leptin was correlated with BMI (r = 0.83), SHBG (r = -0.44), IGFBP-1 (r = -0.47), I (r = 0.37), A (r = 0.48) and TC (r = 0.36), but in multiple regression analysis only with BMI (r2 = 0.72, p < 0.001). Girls with PP and prepubertal OB girls showed elevated leptin levels independent of I and androgen levels. Girls with OB had a greater degree of hyperandrogenism and IR. As obesity, IR and hyperandrogenism are common findings in polycystic ovary syndrome (PCOS), which is more prevalent in young women with a history of PP, a role of leptin in PCOS can be suggested. In addition, girls with PP could be considered a population at risk for plurimetabolic syndrome.
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PMID:Serum leptin levels in premature pubarche and prepubertal girls with and without obesity. 1552 17


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