Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UMLS:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The empty sella results from an extension of the subarachnoid space into an intrasellar position with subsequent remodeling of the sella turcica and the flattening of the pituitary gland. The sella turcica is usually enlarged causing the greatest diagnostic difficulty to distinguish it from a pituitary tumor. The most patients with this syndrome usually have normal pituitary function, while about 30% have varying degrees of hypopituitarism. The Authors describe a case report of a man with primary empty sella syndrome come to the medical observation for obesity and hyperglyccemia. The endocrine evaluation performed (TRH test, GN-RH test, T3, T4, FT3, FT4, Arginine test, metyrapone test) were normal. OGTT shows a maturity onset diabetes (glycemia = 160 mg%). This rare clinical association is not well understood. Probably this diabetes is to the interruption of the normal hypothalamo-pituitary neurovascular connection.
...
PMID:[The primary empty sella syndrome. A case report study (author's transl)]. 747 Jan 79

Primary empty sella syndrome (ESS) is an anatomo-radiological picture characterized by the presence of an arachnoid herniation filled with liquor that compresses the pituitary against the sellar wall. ESS occurs particularly in obese, hypertensive, cephalalgic women. It is often asymptomatic but may be associated with ophthalmologic, neurologic and non-characterizing endocrine disorders. We report here 43 cases of primary ESS observed and assessed in our Departments of Internal Medicine from June 1983 to May 1993. The following endocrinological diagnostic procedures were carried out: hormonal (RIA) basal profile: FT3, FT4, TSH, PRL, ACTH, FSH, LH, 8.00 a.m. and p.m., blood cortisol, aldo, PRA, DHEA-S, FTe, E2, P, PTH, CT, and calcemia and phosphoremia; provocative tests: TRH, GnRH, etc.; inhibition tests: high dose dexamethasone. Clinical, neurologic (skull radiographs, sellar stratigraphy, computed tomography scan and magnetic resonance), and ophthalmologic (fundus, visual fields) assessments were also made. Our findings fit with the data in the literature concerning common symptoms of ESS, associated endocrinopathies and other illness. We found obesity (62.7%), oligo-amenorrhea (16.6%), galactorrhea (14.6%), hyperPRL (11.6%), hypopituitarism (9.3%), hypogonadism (4.6%), diabetes insipidus (2.3%), (micro-)polycystic ovary syndrome (19%), hyperACTH (2.3%). In 9.3% of the cases, endocrinopathy referred to pituitary adenomas. Moreover, we noted a high frequency of psychological disorders, to our knowledge not previously reported in the literature, including anxiety or dysthymic disorders with altered behavior (chiefly oral compulsion). We also make the hypothesis that obesity (occurring in 62.7% of our patients) and hypertension (62.7%) may be related to hypothalamic alterations.
...
PMID:[43 cases of primary empty sella syndrome: a case series]. 761 55

The tripeptide hormone, TRH, is metabolized by three enzymes, the most specific of which is pyroglutamyl peptide hydrolase-II (also termed thyroliberinase), a metalloenzyme present in serum and brain. Because pyroglutamyl peptidase-II activity in rat serum is regulated by thyroid hormone levels, we tested the hypothesis that this activity is similarly altered in humans. We studied serum pyroglutamyl peptidase-II activity in 6 patients with hyperthyroidism, 18 patients with hypothyroidism, and 31 euthyroid, normal weight volunteers. Because TRH [or its metabolite cyclo(His-Pro)] is believed to be an important hormone regulating appetite and metabolism, we also evaluated pyroglutamyl peptidase-II activity in 27 euthyroid patients with obesity. Serum pyroglutamyl peptidase-II activity was elevated in patients with hypothyroidism (mean +/- SEM, 33.9 +/- 3.7 nmol/mL.h) compared to that in euthyroid, normal weight volunteers (24.5 +/- 2.8 nmol/mL.h; P < 0.05), but not that in patients with hyperthyroidism (28.3 +/- 4.1 nmol/mL.h; P = NS). Euthyroid obese patients had the highest pyroglutamyl peptidase-II activity (43.6 +/- 2.8 nmol/mL.h; P < 0.0001 vs. normal weight volunteers). Pyroglutamyl peptidase-II activity was positively correlated with body mass index (r2 = 0.30; P < 0.0001). After correction for body mass index, there were no difference in pyroglutamyl peptidase-II activity in hypothyroid, hyperthyroid, and euthyroid individuals. We conclude that serum pyroglutamyl peptidase-II activity is regulated by, or regulates, body weight.
...
PMID:Pyroglutamyl peptidase-II ("thyroliberinase") activity in human serum: influence of weight and thyroid status. 771 73

To evaluate whether the PRL, TSH and gonadotropin secretion is altered in conditions with elevated body mass index, 7 patients with central Cushing's disease before and after transsphenoidal surgery, 7 untreated patients with Cushing's syndrome caused by adrenal adenoma, 17 simplex obese (obese) women and 9 non-obese controls (all females, aged 18-45 years) were tested with TRH (200 micrograms i.v. bolus) and GnRH (100 micrograms i.v. bolus) and the hormone responses were measured. There were no differences in the basal pituitary hormone secretion among the groups. In obese subjects the PRL response was reduced as compared to untreated patients with corticotrop pituitary adenoma. No significant differences of TSH release could be observed among the groups, whereas serum total T4 levels were higher in obesity than in patients with hypercorticism either caused by pituitary or adrenal Cushing's syndrome. No differences were found in the LH response, but the stimulated FSH release was lower in obesity, in patients with central Cushing's disease after transsphenoidal surgery and in patients with primary Cushing's syndrome as compared to the normal controls.
...
PMID:[Anterior pituitary responsiveness in central Cushing disease and in Cushing syndrome caused by adrenal cortex tumors, as well as in simple obesity]. 786 32

Thyrotropin releasing hormone (TRH) administration is known to induce a greater TSH response in normal subjects than in obese subjects. In obesity even GH and PRL response to various stimuli are blunted, presumably because of an augmented somatostatinergic tone in obese subjects. Further studies have shown that pyridostigmine (Pyr), an acetylcholinesterase inhibitor, is capable of augmenting GH in obesity by means of somatostatin inhibition. In order to evaluate the possible interference of an increased somatostatinergic tone on TSH secretion, we studied the TSH response to a TRH bolus in 5 obese children with or without a pyr pretreatment. Similarly, we tested a group of 10 obese adult subjects, with TRH alone or TRH plus pyr administration, 30 min or 60 min before TRH. All subjects had a body weight of 30-50% greater than I.B.W. Our data show that a pretreatment with pyr, 60 min before TRH administration, significantly augments the TSH response in adult obese subjects but not in children; the modality of pyr administration seems to be crucial to evidenciate such an alteration since the pyr pretreatment is not effective when administered 30 min before TRH. The absence of this pyr effect in obese children induces to hypothesize that somatostatinergic tone is differentially modulated in children vs adult obese subjects.
...
PMID:Pyridostigmine effects on TSH response to TRH in adult and children obese subjects. 834 46

The prevalence of obesity is increasing in the developed as well as underdeveloped countries. Obesity in women is associated with reproductive disorders. The levels of estrone and androgens are higher in obese women along with a reduction in the levels of sex hormone binding globulin ( SHBG ). The pituitary secretion of hormones is altered either due to a deficient peripheral feedback regulation or a concomitant central defect in the obese. Luteinizing hormone ( LH ) level may increase in some of the obese subjects. The secretion of LH in response to luteinizing hormone releasing hormone ( LHRH or GnRH ), clonidine and naloxone may be altered in obese women. The levels of circulating prolactin may fall along with a delay in the nocturnal surge of the hormone. The secretion of prolactin in response to thyrotropin releasing hormone ( TRH ), insulin-induced hypoglycemia, arginine and chlorpromazine is altered. Similarly growth hormone secretion in response to growth hormone releasing hormone ( GHRH ), clonidine, naloxone and arginine is also altered in obesity. The literature suggests an alteration in the autonomic nervous system activity and the metabolism of carbohydrates and fats in the obese. Steroid hormones could affect the distribution of fat in the various regions of the body, and the distribution of body fat is linked with the severity of hyperandrogenism and metabolic disorders in obese subjects. However, it is heartening to note that many of the endocrinological and reproductive disorders are reversible with weight reduction in the obese subjects.
...
PMID:Reproductive functions in obese women. 837 28

In vivo FFA block basal and stimulated GH secretion and have been implicated in the pathogenesis of the altered GH secretion present in obesity and Cushing's syndrome. Although a direct action on the somatotroph cell has been postulated, the FFA mechanism of action is unknown. The main biological target for FFA action is the cellular membrane, and it has been shown that these metabolites can block the activity of a number of plasma membrane pumps, channels, and receptor systems. In the present work, it was observed using different types of pituitary cells (GH3, GH4C1, and rat pituitary primary cultures) that cis-unsaturated fatty acids, such as oleic, 1) do not perturb TRH binding or the homologous desensitization of the TRH receptor; 2) inhibit TRH-induced inositol 1,4,5-trisphosphate/diacylglycerol generation, probably by a direct perturbation of phospholipase C; 3) reduce the TRH-induced intracellular Ca2+ redistribution and the ensuing changes in membrane potential; 4) completely inhibit the [Ca2+]i rise due to the TRH-induced opening of voltage-gated Ca2+ channels; and 5) abolish the TRH-induced Ca2+ efflux through plasma membrane Ca2+ pumps. These results suggest that cis-unsaturated FFA such as oleic acid selectively perturb the function of integral membrane proteins such as enzymes, channels, and pumps without perturbing the binding of ligands to receptors.
...
PMID:cis-unsaturated free fatty acids block growth hormone and prolactin secretion in thyrotropin-releasing hormone-stimulated GH3 cells by perturbing the function of plasma membrane integral proteins. 897 13

A 16-year-old Brazilian girl presented with severe growth retardation (-6.3 SDS), obesity, delayed pubertal development, facial dysmorphia, dry skin, and borderline low intelligence (IQ 89). Endocrinological evaluation showed primary hypothyroidism (no uptake of iodine-131 of the right thyroid lobe). Basal and stimulated gonadotropins were increased and ultrasonography revealed hypoplastic ovaries. The karyotype of peripheral lymphocytes was 46,X,i(Xq). The GH response in euthyroid condition after stimulation with GHRH and insulin was diminished. MRI of the pituitary region showed a suprasellar mass (12 x 15 mm) which was removed by transsphenoidal surgery because of extension to the optic chiasm. Histological examinations revealed regular pituitary tissue with hyperplasia of TSH- and FSH-producing cells. Thyroxine treatment was adjusted and GH was given. We conclude that the suprasellar mass was the consequence of long-lasting hypothalamic overstimulation with TRH and LHRH, due to gonadal and thyroid insufficiency.
...
PMID:Pituitary hyperplasia in a girl with gonadal dysgenesis and primary hypothyroidism. 905 Sep 52

The regulation of body fat stores is a problem of energy and nutrient balance that can be most readily viewed as a feedback system. Several elements are involved in any feedback system, including afferent signals, a controller that senses the afferent signals and transduces their information and then activates efferent controls that regulate the controlled system. The recent discovery of leptin has provided a major missing link in the feedback control system. This afferent signal is produced exclusively in fat cells of nonpregnant mammals but can be produced in the placenta as well. This circulating peptide has a very strong relationship to the level of body fat and its absence experimentally and clinically produces massive obesity. In the controller, or brain, several anatomic regions play a central role in regulating fat stores. Damage to the ventromedial nucleus (VMH) or the paraventricular nucleus (PVN) in the hypothalamus produces massive obesity in mammals and birds. Injury to the central nucleus of the amygala will also produce obesity. In contrast, damage to the lateral hypothalamus reduces body fat. The syndrome of leptin deficiency or defects in the leptin receptors produce a massive obesity that is metabolically similar to the VMH or PVN lesion syndromes of obesity, suggesting that leptin may have its metabolic effects through these medial hypothalamic centers. Support for this idea has come from studies showing that damage to the PVN or VMH will block the effects of leptin. A number of neuropeptides and monoamines are involved with modulating of food intake and fat stores. Both serotonin, acting through 5-HT2C receptors, and norepinephrine, acting through beta 2 and/or beta 3 receptors, reduce food intake. A variety of peptides also influence food intake and body fat. Neuropeptide Y, dynorphin, galanin, and melanocyte-stimulating hormone all increase food intake. In contrast, a large number of peptides--including cholecystokinin, corticotrophin-releasing hormone/urocortin, enterostatin, insulin, leptin, alpha-MSH, and TRH--reduce food intake. Chronic administration of neuropeptide Y, acting through Y-5 receptors, can produce chronically increased food intake and obesity. This syndrome is similar to the VMH syndrome and suggests that NPY must be acting as an inhibitor of a feeding system. The melanocortin receptor system may be particularly important because a mouse that does not express MC4 receptors is massively overweight. These central systems modulate food intake and fat stores by the controlled system. Glucocorticoids from the adrenal gland are important in obesity, since adrenalectomy will reverse or prevent the development of all forms of obesity. The sympathetic nervous system is also important because low sympathetic activity is associated with experimental and clinical obesity. The reciprocal relationship between food intake and sympathetic activity has been a robust relationship, suggesting that beta receptors in the periphery or brain may be involved in feeding control. In one model of dietary obesity resulting when animals eat a high-fat diet, the syndrome is blocked by inhibitory adrenal steroid activity. These animals show a lower level of sympathetic activity and a low level of brain serotonin. Finally, they show an enhanced sensitivity to essential fatty acids when these are applied to the tongue or given into the gut. In this chapter, the control of energy stores as fat is viewed as a feedback system. Leptin is perceived as a key afferent signal and glucocorticoids and the sympathetic nervous system through beta receptors as essential elements of this control system.
...
PMID:The MONA LISA hypothesis in the time of leptin. 976 5

Primary empty sella syndrome (ESS) is an anatomo-radiological picture characterized by the presence of an arachnoid herniation filled with liquor that compresses the pituitary against the sellar wall. ESS occurs particularly in obese, hypertensive, cephalgic women, it is often asymptomatic but it may be associated with ophthalmologic, neurologic and sometime non-characterizing endocrine disorders. We report here 71 cases of primary ESS observed and assessed during the last fourteen years. The following endocrinological diagnostic procedures were carried out: hormonal (RIA) basal profile: FT3, FT4, TSH, PRL, ACTH, FSH, LH, 8.00 a.m. and p.m. cortisolemia, Aldo, PRA, DHEA-S, FTe, E2, P, PTH, CT, and calcemia and phosphoremia; provocative tests: TRH, GnRH, insulin hypoglycemia, etc.; inhibition tests: "overnight" and high dose dexamethasone. Clinical, radiological (skull radiographs, CT and/or MRI) and ophthalmologic (fundus, visual fields) assessment were made. We found principally cephalgia (52/71: 73.2%), hypertension (42/71: 59.1%), obesity (47/71: 66.1%). But we found especially mental disorders (57/71: 80.2%), in our knowledge not previously reported in the literature, as anxiety or dysthymic disorders with behavioural disturbances (chiefly oral compulsion). We found endocrinopathies in 36/71 (50.7%), isolated or coexisting in some patients: hyperPRL (14%), hypopituitarism (10.4%), hypogonadism (7%), diabetes insipidus (2.8%), hyperACTH (1.4%), hypoGH (15.4%), pituitary adenomas (8.4%). Several hypothalamic illness show a clinical picture including mental disorders and obesity. The Authors hypothesize that the ESS may be a "new" hypothalamic syndrome (compression/stretching on hypophysis and/or hypophyseal stalk by arachnoidocele; disorder of some hormones and neurotransmitters as leptin, neuropeptide Y, orexins, POMC-derived peptides, etc).
...
PMID:[Primary empty sella syndrome. Observations on 71 cases]. 1020 96


<< Previous 1 2 3 4 5 6 7 Next >>

---