A possible contribution of exercise to the fluid retention associated with acute mountain sickness (AMS) was investigated in 17 mountaineers who underwent an exercise test for 30 min on a bicycle ergometer with a constant work load of 148 +/- 9 (SE) W at low altitude (LA) and with 103 +/- 6 W 4-7 h after arrival at 4,559 m or high altitude (HA). Mean heart rates during exercise at both altitudes and during active ascent to HA were similar. Exercise-induced changes at LA did not differ significantly between the eight subjects who stayed well and the nine subjects who developed AMS during a 3-day sojourn at 4,559 m. At HA, O2 saturation before (71 +/- 2 vs. 83 +/- 2%, P less than 0.01) and during exercise (67 +/- 2 vs. 72 +/- 1%, P less than 0.025) was lower and exercise-induced increase of plasma aldosterone (617 +/- 116 vs. 233 +/- 42 pmol/l, P less than 0.025) and plasma antidiuretic hormone (23.8 +/- 14.4 vs. 3.4 +/- 1.8 pmol/l, P less than 0.05) was greater in the AMS group, whereas exercise-induced rise of plasma atrial natriuretic factor and changes of hematocrit, potassium, and osmolality in plasma were similar in both groups.(ABSTRACT TRUNCATED AT 250 WORDS)
Nerve growth factor (NGF) is a protein essential for the development and maintenance of the peripheral sympathetic nervous system, causing responsive neurones to increase in size and to extend neurites. Biochemically, the selective induction of tyrosine hydroxylase (TH) and dopamine beta-hydroxylase key enzymes in catecholamine biosynthesis is one of its most characteristic effects. Both the morphological and biochemical effects are modulated by glucocorticoids, suggesting a close relationship between specific effects of NGF and hormone action. NGF has been shown to induce an increase in adrenal cyclic AMP in intact but not in hypophysectomised rats, and so we have looked directly at the effect of systemic administration of NGF on the hypothalamo-pituitary-adrenal axis. We report here that NGF induced an enhanced secretion of adrenocorticotropin (ACTH) and a prolonged increase in plasma glucocorticoid concentration after intravenous (i.v.) injection. Such effects could have important implications for the biological activity of NGF.
This brief review focuses on the transcriptional regulation of liver carnitine palmitoyltransferase I (L-CPT I) by pancreatic and thyroid hormones and by long-chain fatty acids (LCFA). Both glucagon and 3,3',5-tri-iodothyronine (T(3)) enhanced the transcription of the gene encoding L-CPT I, whereas insulin had the opposite effect. Interestingly, the transcriptional effect of T(3) required, in addition to the thyroid-responsive element, the co-operation of a sequence located in the first intron of L-CPT I gene. Non-esterified fatty acids rather than acyl-CoA ester or intra-mitochondrial metabolite were responsible for the transcriptional effect on the gene encoding L-CPT I. It was shown that LCFA and peroxisome proliferators stimulated L-CPT I gene transcription by distinct mechanisms. Peroxisome proliferator stimulated L-CPT I gene transcription through a peroxisome-proliferator-responsive element (PPRE) located at -2846 bp, whereas LCFA induced L-CPT I gene transcription through a peroxisome-proliferator-activated receptor alpha (PPARalpha)-independent mechanism owing to a sequence located in the first intron of the gene.
Cyproteroneacetate, an antiandrogenic and gonadotropin-inhibiting steroid, has a marked ACTH suppressive effect. In rats, adrenal atrophy and severe impairment of ACTH and corticosterone responses to stress are induced by a 10-day treatment with 3-0.75 mg/100 g BW cyproteroneacetate/day. Two weeks after cessation of treatment, the ACTH adrenal system has not yet recovered. The ACTH suppression is evident 6 h after a single dose. In 25 human volunteers, a single dose of 200 mg cyproteroneacetate impaired their ACTH and 11-deoxycorticosteroid response to 1 g metyrapone. A similar impairment was seen in 12 women on sequential treatment with cyproteroneacetate and ethinyl estradiol. In 4 out of 11 children treated for precocious puberty, random plasma ACTH and cortisol measurements, cortisol responses to ACTH, and ACTH and cortisol responses to insulin-induced hypoglycemia revealed severely impaired ACTH adrenal function. Questionable impairment was found in 2 out of 11 and normal function in 5 out of 11 children. In 10 patients with endogenous elevated plasma ACTH, 10 days of treatment with cyproteroneacetate, in addition to the steroid substitution, diminished the morning plasma ACTH levels. It is concluded that cyproteroneactate has a pronounced ACTH-suppressive effect. The individual susceptibility of treated patients varies and the effect is dose dependent. A cortisol-like effect must be assumed, because cyproteroneacetate-treated animals and patients under therapy can withstand stress situations without signs of adrenal insufficiency. ACTH adrenal function must, however, be closely watched in treated patients and steroid cover must be considered in conditions of stress. Great care has to be taken when the drug, with its own "stress-protective" effect, is withdrawn. The recovery of ACTH adrenal function may take several months.
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