UMLS:C0038187 - FACTA Search

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To evaluate the effect of starvation, oral and i.v. nutriments, and hypothyroidism on the peripheral conversion of thyroxine (T4) to 3,3', 5-triiodothyronine (T3) in the rat and mouse, an in vitro system for assessing T4 conversion to T3 by fresh liver homogenates was used. A 2-day starvation in the rat reduced hepatic T3 generation from T4 by 47% +/- 3.5% (mean +/- SE) in six separate experiments and also impaired the metabolism of 125I-r-T3. Administration of carbohydrate (CHO) and amino acids (P), but not lipid (L), significantly increased T3 generation above values observed in the starved rat. The mean serum glucose concentration was similar in all nutriment-infused groups, but serum insulin was significantly greater in the CHO- and P-infused as compared to the L-infused rats. These findings suggest that CHO and P, but not L, are important modulators of hepatic outer ring thyronine deiodination in the rat, perhaps due to increased intracellular glucose. Hypothyroidism in the rat induced by thyroidectomy and congenital secondary hypothyroidism in the dwarf mouse resulted in a striking decrease in hepatic conversion of T4 to T3. This decrease was restored to normal by the daily s.c. administration of physiologic doses of T4 (1.5 microgram/100 g) or T3 (0.5 microgram/100 g) for 14 days, and was increased above normal following treatment of normal rate with greater than physiologic doses of T4 (3microgram/100 g) or T3 (1 microgram/100g). In vitro hepatic conversion of T4 to T3 is, therefore, dependent upon thyroid function. Since 2-days starvation in the rat was associated with decreased serum concentrations of T4, T3, and TSH, and hypothyroidism resulted in decreased conversion of T4 to T3, the effect of a constant 2-day infusion of physiologic doses of T4 or T3 in the starved rat on the in vitro deiodination of T4 was assessed. Thyroid hormone replacement did not enhance the conversion of T4 to T3 in the starved rat. These observations suggest that the starvation-induced decrease in hepatic generation of T3 from T4 is not due to hypothyroidism and that the mechanism(s) of the decreased T3 production observed in starvation and hypothyroidism is different.
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PMID:Effect of starvation, nutriment replacement, and hypothyroidism on in vitro hepatic T4 to T3 conversion in the rat. 3 20

Total starvation in the rat for 2 days did not alter the hypothalamic content of thyrotropin-releasing hormone (TRH), but did decrease both pituitary TSH content and serum TSH concentration. Five days starvation resulted in a significant decrease in serum TSH and a slightly enhanced serum TSH response to exogenous TRH, suggesting that the pituitary retains its sensitivity to TRH. Fasting for 5 days resulted in a decreased 1 and 4th, but an increased 24th thyroid 131I uptake. Other starvation-induced abnormalities of intrathyroid 131I metabolism were a consistent increase in the percent of organified 131I present as MIT and DIT and a decreased percent 131I labeled T4 AND T3. These alterations in the intrathyroid metabolism of 131I in the starved rat probably reflect both a decrease in serum TSH concentration and a decrease in urinary and fecal loss of administered 131I. The serum total and free T4 and total and free T3 concentrations were decreased following 2 and 5 days of starvation.
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PMID:Effect of starvation on hypothalamic-pituitary-thyroid function in the rat. 9 84

In order to compare, in vitro, the TSH suppressive effects of iodothyronines, rat pituitary quarters were first preincubated with T4, T3, rT3, or 3,3'-diiodothyronine (T2) in Gey and Gey buffer containing 1% bovine serum albumin for 2 h at 37 C and then incubated at 37 C for 1 h with the iodothyronine under study and TRH. TSH released into the medium during incubation was compared to that released by control pituitary fragments, which were not exposed to iodothyronines. All four iodothyronines (T3, T4, rT3, and T2) were able to significantly inhibit the TRH-induced release of TSH from pituitary fragments in a dose range of 0.015-2.2 microgram/ml. However, much larger doses of sodium iodide (1.25 mg/ml) and diiodotyrosine (10 and 30 microgram/ml) had no significant effect on the release of TSH. Among T3, rT3, and T4, T3 was the most potent and rT3 was the least potent. The relative potency of T3:T4:rT3 appeared to be approximately 100:12:1 when estimated from the lowest doses that caused significant inhibition of TRH-induced release of TSH, and approximately 100:6:0.5 when estimated from the doses that caused 50% inhibition of TSH release; the TSH inhibiting potency of T2 was similar to that of rT3. The activity of T4 could not be explained entirely on the basis of contamination of T4 with T3 or by in vitro conversion of T4 to T3. Similarly, the available data suggested that rT3 and T2 possess some, albeit modest, intrinsic TSH-Suppressive activity. TSH-inhibiting activities of T3, T4, and rT3 were also studied using pituitary fragments from starved and iodine-deficient rats. There was no evidence of a change in the sensitivity of the thyrotroph to either T3 or T4 in starvation. Similarly, comparison of the responses to several doses of rT3 did not indicate any significant abnormality in the sensitivity of the thyrotroph to rT3 in starvation or iodine deficiency. However, comparison of the TSH-suppressive effects of T4 in the iodine-deficient and normal rat indicated a significant increase in the sensitivity of the thyrotroph to T4 in iodine deficiency. A similar trend was also evident in the effect of T3 in iodine deficiency, but it fell short of statistical significance.
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PMID:Comparison of inhibitory effects of 3,5,3'-triiodothyronine (T3), thyroxine (T4), 3,3,',5'-triiodothyronine (rT3), and 3,3'-diiodothyronine (T2) on thyrotropin-releasing hormone-induced release of thyrotropin in the rat in vitro. 10 90

Patients with anorexia nervosa can demonstrate clinical and/or laboratory findings suggestive of reduced thyroid hormone secretion. In this study, the thyroxine (T4) and triiodothyronine (T3) serum concentrations, and thyrotropin (TSH) response to intravenous administration of thyrotropin releasing hormone (TRH) were determined in 6 patients (aged 9 to 15 yr) with anorexia nervosa and the results compared to those found in a group of 15 normal subjects. The mean basal TSH concentration and mean maximum increase in TSH after TRH were comparable to those in the normal subjects. The mean T4 concentration (7.2 mug/100 ml) in the anorexia nerovsa group was slightly but significantly lower than in the normal group (9.5 mug/100 ml). Five of the 6 patients had serum T3 concentrations below the lower limits of normal and the mean T3 concentrations (49.7 ng/100 ml) was significantly lower than in the normal group (106 ng/100 ml). The extremely low serum levels of T3 in these patients with anorexia nervosa suggest that peripheral conversion of T4 to T3 is impaired during chronic starvation.
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PMID:Low serum triiodothyronine in patients with anorexia nervosa. 80 75

Ten days of total energy deprivation evoked the following endocrine changes in 12 healthy, normal-weight males: early and marked reductions and increments in the blood levels of T3 and reverse T3, respectively, with rapid returns to pre-starvation levels after refeeding; a slight and late decrease in the blood levels of T4; a minute reduction of the blood levels of TSH; a pronounced increase in the blood levels of growth hormone, but a return towards pre-exposure levels even before discontinuation of starving; a minor and gradual enhancement of the blood levels of cortisol, and an increase in nocturnal urinary adrenaline excretion. It is assumed that these changes reflect a complex regulatory mechanism, the purpose of which is to secure adequate energy supply to vital organs.
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PMID:Effects of total energy withdrawal (fasting) on thelevels of growth hormone, thyrotropin, cortisol, adrenaline, noradrenaline, T4, T3, and rT3 in healthy males. 83 66

Effects of starvation on thyroid function were studied in 5- to 6-week-old (R x U) F1 rats. Starvation lowered plasma TSH in female, but not in male rats. Plasma T4 and T3 levels decreased, whereas the dialysable T4 fraction increased during starvation. Free T4 (FT4) levels decreased rapidly in females, but only after prolonged fasting in male rats. Glucose decreased, and free fatty acid levels increased during starvation. Peripheral TRH levels did not change during food deprivation. Since effects of starvation were most apparent in young female rats, such rats were used to study hypothalamic TRH release during starvation and subsequent refeeding. Basal in vitro hypothalamic TRH secretion was less in starved rats than in control or refed animals. In vitro hypothalamic TRH release in medium with 56 mM KCl increased 3-fold compared to basal release, and in these depolarization conditions TRH release was similar between hypothalami from control, starved and refed rats. In rats starved for 2 days, TRH level in hypophysial portal blood was lower than that of controls. Thus, diminished thyroid function during starvation may at least in part be caused by a reduced hypothalamic TRH release.
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PMID:Effect of starvation and subsequent refeeding on thyroid function and release of hypothalamic thyrotropin-releasing hormone. 143 73

Thyrotropin-releasing hormone (TRH) is produced in the hypothalamic paraventricular nucleus (PVN) as a 255-amino acid precursor (pro-TRH) with 5 TRH progenitor sequences. Pro-TRH is enzymatically processed to yield TRH and other peptides, which are transported to the median eminence and released into hypophysial portal blood. To elucidate the role of TRH in the control of thyroid function, we studied hypothalamic TRH synthesis and release in many conditions. TRH synthesis and release were assessed by pro-TRH mRNA measurement, and by sampling portal blood or push-pull perfusate, respectively. Destruction of the PVN reduced TRH and TSH secretion dramatically, while electrical stimulation of this nucleus enhanced their release. Hence, the PVN is important for normal TSH secretion. TRH synthesis and release decreased in hyperthyroid rats, but increased in hypothyroid rats. The magnitude of these changes, however, was small compared with alterations in TSH, suggesting that the feedback of thyroid hormones on TSH release is mainly exerted at the pituitary level. TRH synthesis and release increased during cold exposure, and decreased during starvation and diabetes. Thus, altered thyroid function during cold exposure, diabetes and starvation seems due to modified hypothalamic TRH synthesis and release.
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PMID:Regulation of hypothalamic TRH production and release in the rat. 151 60

Adult fed and starved Warren chickens, 2 yr of age, and approaching the end of the second laying year, were injected iv with 1 of the following products: 10 micrograms of thyrotropin releasing hormone (TRH); 100 micrograms of bovine thyrotropin (bTSH); 100 micrograms of ovine growth hormone (oGH); saline. The influence on plasma concentrations of thyroxine (T4), triiodothyronine (T3) or chicken GH (cGH) were followed. Prior to injection, it was clear from the control values that starvation for 3 d decreased plasma levels of T3 and increased cGH, whereas 7 d of fasting increased T4 and cGH. The plasma levels of cGH were elevated greater than 10-fold at 15 min following the TRH challenge in food-deprived chickens compared to a less than 4-fold increase in normal fed hens. This increase was followed by a rise in T3 after 1 h, which was also more pronounced in the starved animals, whereas T4 decreased or remained unaffected. Increases in T4 can, however, be obtained with 100 micrograms TSH in normal fed (2-fold) or starved animals (greater than 3-fold). Following injection of 100 micrograms oGH, a significant increase in T3 levels was observed which in fed animals was already present at 30 min, but the higher levels persisted for 1 and 2 h in fed and starved hens. At the same time, a decrease in T4 was observed in both groups of GH-treated chickens. It is concluded that TRH at the dose used is not thyrotropic but has a somatotropic effect and is responsible for the peripheral conversion of T4 into T3.
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PMID:Thyrotropin-releasing hormone (TRH) is not thyrotropic but somatotropic in fed and starved adult chickens. 174 1

Serious nonthyroid illness and caloric deprivation, which so often accompany systemic illness, have diverse and still incompletely understood effects on thyroid hormone economy. We have discussed the pathophysiologic basis for the most common pattern of alterations in routine thyroid function tests: a decreased serum T3 concentration; normal or, in critically ill patients, a low total serum T4 level; and a normal free T4 concentration. Another, less frequent pattern (high total and free T4 with a normal serum T3) can be encountered transiently in the acutely ill medical or psychiatric patient. With the recent advent of sensitive assays for TSH and better methods for serum free T4, it is now possible to define more quickly and accurately the thyroid-metabolic status of most of these sick patients; the vast majority are euthyroid. Certain drugs confound the picture. The most important of these include dopamine and high-dose glucocorticoids, both of which suppress TSH secretion from the pituitary and may actually cause a state of central hypothyroidism. Other drugs have multiple effects on thyroid hormone indices (e.g., amiodarone). Knowledge of all of the ways in which systemic illness, starvation, and certain drugs may influence thyroid function tests is crucial in assessing the thyroid status of patients with serious nonthyroid disease.
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PMID:The effects of nonthyroid disease and drugs on thyroid function tests. 198 45

Subconfluent FRTL cells were examined in the electron microscope after the following treatments: i) continuous TSH stimulation; ii) starvation from TSH for 3 or 7 days; iii) seven days of TSH deprivation followed by two days of TSH stimulation. The organelle complement of cells grown in the presence of TSH appeared to be consistent with their secretory properties. Rough endoplasmic reticulum (RER), in the form of round vesicles, and Golgi apparatus, were quite prominent. Cells were not properly polarized. Their dorsal surface was covered with microvilli and occasional pseudopods. After TSH withdrawal the cells flattened on the dish, lost most of their plasma membrane specializations and reorganized actin stress fibers. RER shape was modified from round vesicles to flat cisternae which thereafter almost completely disappeared. The Golgi apparatus did not seem to be modified. Autophagic vacuoles became more prominent. All the modifications were fully reversed after TSH replacement indicating an hormonal regulation in the amount and morphology of some organelle, in particular of the RER.
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PMID:Morphological changes induced by prolonged TSH stimulation or starvation in the rat thyroid cell line FRTL. 221 Jun 30

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