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

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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The influence of aging on the renin-angiotensin-aldosterone system was evaluated by comparing young (20 to 30 yr) with elderly (62 to 70 yr) healthy subjects. Despite comparable body sodium-fluid balance in the two age groups, serum renin concentration, plasma renin activity and aldosterone concentrations were lower in the elderly. The age-related decreases in circulating renin and aldosterone concentrations were slight while subjects were supine and receiving normal sodium intake; when upright and during sodium depletion, they were more pronounced. Inverse renin-blood pressure interrelations were noted during two of four study conditions involving normal sodium intake or mild sodium depletion (r = --0.44 and --0.47, respectively), but not during progressive sodium depletion. Plasma renin levels were decreased in the elderly regardless of the presence or absence of an inverse relationship with blood pressure. Aldosterone and cortisol responses to corticotropin infusion were unaltered in the elderly. It is concluded that aging may cause a decrease in circulating renin, with parallel lowering of plasma aldosterone concentrations.
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PMID:Effect on aging on plasma renin and aldosterone in normal man. 0 May 38

Control of aldosterone responsiveness in terminal renal failure. Plasma aldosterone concentration in 30 hemodialysis patients correlated closely with renin concentration, renin activity or renin and potassium concentrations combined (r is greater than or equal to 0.62; P is less than 0.01), and increased consistently in response to upright posture or corticotropin administration. Aldosterone response to hemodialysis was variable. Significant correlations (r is greater than or equal to 0.65; P is less than 0.01) were demonstrated between postural plasma aldosterone and renin responses, between aldosterone responses to corticotropin and basal plasma aldosterone or renin and potassium values, between hemodialysis-induced changes in plasma aldosterone and those in potassium or renin; but not between various indexes of heparin treatment and aldosterone activity. Bilateral nephrectomy reduced basal plasma renin and aldosterone concentrations and aldosterone responsiveness in five preoperatively normoreninemic or hyperreninemic patients, but not in a hyporeninemic patient. These results demonstrate the complementary roles of circulating renin and potassium in the control of aldosterone release under basal and stimulatory conditions in patients with terminal renal failure. Administration of heparin in dosages used during long-term hemodialysis does not appear to significantly interfere with aldosterone control.
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PMID:Control of aldosterone responsiveness in terminal renal failure. 16 31

The restriction of dietary sodium intake is known to depress the cardiovascular responses to angiotensin II and increase the sensitivity of the adrenal zona glomerulosa to this steroidogenic octapeptide. In sodium-repleted animals, angiotensin III is a weak pressor substance and a potent stimulant of aldosterone biosynthesis. The effect of a low sodium diet on vascular and steroidogenic responses to angiotensin II and angiotensin III was investigated. In nephrectomized rats, angiotensin III had one-third of the pressor activity relative to angiotensin II when either normal or sodium-deprived animals were compared. When administered subcutaneously (sc) to rats, angiotensin II and III induced comparable steroidogenic responses, whereas only angiotensin II significantly elevated blood pressure. The comparison of cell suspensions from control adrenals with suspensions of adrenals from sodium-deprived animals showed that the zona glomerulosa from rats on low sodium diets had increased wet weight (20%), cell protein (25%), and basal steroidogenic rats (45%). Adrenocorticotropic hormone (ACTH)-induced responses in adrenal cells from low sodium animals were about twice the responses of cells from normal adrenals. Angiotensin II and III stimulated the cortex at a threshold concentration of 5 X 10(-10) M and induced a maximum response at about 5 X 10(-8) M in cells prepared from normal rat adrenals. In cells dispersed from adrenal capsules of sodium-deprived rats, the maximal steroidogenic response to angiotensin II occurred at 3 X 10(-8) M, whereas angiotensin III was maximal at 1 X 10(-9) M. Aldosterone synthesis induced by both peptides was increased approximately 45% in adrenal cells from low salt rats. At 0.9 mumol/kg, sc, Sar-1, Ile-8-angiotensin II antagonized cardiovascular responses to angiotensin II and did not alter aldosterone in the sodium-deprived rat. In contrast, treatment with Ile-7-angiotensin III blocked the adrenal cortex but not the vascular actions of angiotensin II. These data are consistent with a role for angiotensin III in the renin-angiotensin-aldosterone response to sodium deprivation.
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PMID:Changes in cardiovascular and adrenal cortical responses to angiotensin III induced by sodium deprivation in the rat. 17 64

Plasma 16 beta-hydroxydehydroepiandrosterone (16 beta-OH-DHEA) levels were measured by radioimmunoassay in normal and pathological conditions in man. 16 beta-OH-DHEA levels in normal subjects rose sharply during adolescence and then declined slowly throughout adult life: 192 pg/ml age 7-11, 395 pg/ml age 15-19, 330 pg/ml age 20-39, 261 pg/ml age 40-59, and 124 pg/ml over 60-years-old. No marked difference was seen between male and female subjects. 16 beta OH-DHEA rose significantly (p less than .01) during adrenocorticotropin (ACTH) stimulation, declined (p less than .005) during dexamethasome suppression and during gonadal suppression, rose (p less than .05) during gonadal stimulation and following administration of WIN 24540, an inhibitor of 3 beta-o1-dehydrogenase (p less than .005). 16 beta-OH-DHEA levels in adrenal venous blood were higher than in inferior vena cava blood but the levels in hepatic venous blood were not higher than in arterial blood. These results indicate that 16 beta-OH-DHEA is secreted directly by the adrenal cortex and probably the gonads. 16 beta-OH-DHEA levels were elevated in normal pregnant women, pregnant women with toxemia and in patients with Cushing's disease, ectopic ACTH-producing tumor and congenital adrenal hyperplasia but not in patients with low-renin essential hypertension.
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PMID:Plasma 16 beta-hydroxydehydroepiandrosterone in normal and pathological conditions in man. 18 75

Adrenal steroid secretion rates and the renin-angiotensin-aldosterone (RAA) system were studied in the normothermic marmot. Adrenal secretion by the anesthetized, laparotomized marmot was (mean +/- SEM); aldosterone 1.2 +/- 0.3 ng/min, deoxycorticosterone 16.7 +/- 11.5 ng/min, corticosterone 15.2 +/- 7.8 ng/min, and cortisol 554 +/- 108 ng/min. Four forcings were investigated that affect feedback control at different sites: adrenocorticotropic hormone (ACTH) and angiotensin II (AII) infusion, sodium (Na) depletion, and Na loading. Plasma aldosterone, cortisol, Na, and potassium (K) concentrations as well as plasma renin activity (PRA) hematocrit (Hct), and in some studies, blood pressure were measured. ACTH infusion increased the plasma concentrations of aldosterone and cortisol. AII infusion increased aldosterone concentration, blood pressure, and Hct. Na depletion increased aldosterone, Hct, and PRA; plasma Na and K were decreased. Aldosterone concentration, Hct, and PRA decreased after salt loading. Normothermic, salt-depleted marmots demonstrated a pronounced fall in blood pressure following infusion of the AII analog, 1-sarcosine-8-alanine AII. The average plasma values for aldosterone, PRA, and cortisol found in 44 control animals were: aldosterone 3.8 +/- 0.3 ng/100 ml, PRA 1.9 +/- 0.2 ng AI-ml-1-h-1, and cortisol 54 +/- 4 ng/ml. It was concluded that normothermic marmots have a RAA system comparable to other mammalian species.
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PMID:Renin-angiotensin-aldosterone system of the normothermic marmot. 19 79

Factors controlling proliferation of adrenocortical cells have been studied in monolayer cultures of bovine adrenocortical cells. Angiotensin II stimulated cell proliferation and [3H]thymidine incorporation into DNA with a half-maximal effective concentration of 0.96 +/- 0.27 nM. Similar sensitivity to angiotensin III with reduced sensitivity to angiotensin I and tetradecapeptide renin substrate was observed. Although sensitivity to angiotensin II was equivalent to that for fibroblast growth factor (1.5 nM half-maximal effective concentration), maximal effects of angiotensin were less than for fibroblast growth factor and serum. High concentrations of insulin (1-10 micrometer) also stimulated [3H]thymidine incorporation into DNA and cell proliferation. [Sar1,Ile5,Ile8]Angiotensin II, a competitive antagonist of angiotensin II, blocked angiotensin II stimulation of DNA synthesis but did not affect fibroblast growth factor and insulin stimulation of DNA synthesis. Corticotropin (ACTH) blocked the stimulatory effects of both angiotensin II and fibroblast growth factor. The dose-response curves for angiotensin II stimulation of steroidogenesis were similar to those for stimulation of [3H]thymidine incorporation into DNA. Among the seven cell types examined, only adrenocortical cells responded to angiotension II with stimulation of DNA synthesis.
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PMID:Angiotensin stimulation of bovine adrenocortical cell growth. 27 83

Evidence for the existence of a hormone that is stimulable by adrenocorticotropic hormone (ACTH) and capable of causing hypertension has been collected in several patients. This hormone is not a known mineralocorticoid or glucocorticoid. The hypothesis that a steroid can produce hypertension was tested in an 18-year-old man with dexamethasone-suppressible hypertension. During dexamethasone treatment, when aldosterone secretion was suppressed, less than normal and the patient was normotensive, steroids were given by constant infusion in an attempt to reproduce the hypertension of the dexamethasone-free state. Hypertension was not caused by 5 days of administration of aldosterone, 18-hydroxydeoxycorticosterone (18-OH-DOC) at 1 mg/day, or deoxycorticosterone (DOC) at 30 mg/day. However, sodium retention and potassium loss were observed during infusion of aldosterone and DOC. Hypertension was produced within 5 days during infusion of ACTH or oral metyrapone. The hypertensive effect of the metyrapone was eliminated by the additional treatment with aminoglutethimide. These studies suggest that an ACTH-dependent steroid rather than aldosterone, 18-OH-DOC, or DOC may be the cause of the hypertension in this patient. Study of a 3-year-old child who presented with short stature, hypertension, hypokalemic alkalosis, suppressed renin and ACTH, and decreased excretion of all known steroids suggested excessive secretion of a pressor hormone. Reversal of the hypertension and hypokalemic alkalosis occurred when spironolactone was administered. ACTH exacerbated the clinical and biochemical abnormalities, suggesting that the secretion of the unknown factor was dependent on ACTH. A study of the urinary steroids revealed remarkably low excretion of aldosterone and cortisol. Plasma levels of ACTH were low. The low production of aldosterone was not associated with the increased excretion of precursor metabolites. These finding suggest the secretion of an unknown hypertensive factor of remarkably high potency, with the ability to suppress the secretion of both renin and ACTH.
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PMID:Mineralocorticoid hypertension in childhood. 32 86

Aldosterone excretion (AE) and plasma renin activity (PRA) were measured in eight untrained (UT) and eight endurance-trained (TR) male subjects before and during 4 h head-out immersion to study the mechanism of reduced renal sodium excretion in athletes. AE was significantly lower before immersion, and decreased less during immersion, in TR than in UT. Fractional sodium excretion, too, was lower and increased less during immersion in TR than in UT. PRA decreased in the water bath in all subjects (p less than 0.001) with no significant difference between the groups. During immersion, plasma sodium concentration oscillated whereas potassium concentration showed a temporary rise in TR (p less than 0.001). The attenuated response of AE in TR may be due partly to this increase of plasma potassium concentration. The generally reduced aldosterone release in TR might be caused by a training induced adaptation of the adrenals to corticotropin. The lowered renal sodium excretion of TR in spite of the decreased AE suggests an intensified aldosterone effect in these subjects, diminishing the salt loss during exercise.
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PMID:Reduced aldosterone and sodium excretion in endurance-trained athletes before and during immersion. 39 64

The effect of 90-min heat exposure (46 degrees C, 35 mbar) on plasma aldosterone (PA) patterns was studied and the respective roles of plasma renin activity (PRA), adrenocorticotropin (ACTH), Na+ and K+ concentrations in the control of PA response were in investigated in eight subjects on a low sodium diet and in five subjects on a high sodium diet. In all subjects, transitory PA increases of varying importance were observed, which were not related to sweat losses (less than 1% bodyweight) or to rectal temperature rise. In sodium-repleted subjects, basal PA and PRA levels as well as heat-induced rises were low (mean PA peak level = 12.62 +/- 1.15 ng/100 ml). They were enhanced by sodium depletion and PA reached a mean peak level of 34.07 +/- 2.73 ng/100 ml. But, in both conditions, the heat-induced PA peaks were 3-times higher than the initial levels. PA correlated with PRA in all but one of the sodium-repleted subjects and in 6 of the 8 sodium-depleted subjects. ACTH release, as measured by plasma cortisol (PC) levels, occurred in those subjects who noted an increased feeling of annoyance and discomfort. Thus, PA correlated positively with PC in 4 sodium-depleted subjects. A high sodium intake improved heat-tolerance. Plasma K+ and Na+ concentrations were not significantly modified by exposure to heat. PA increases can occur without concomitant changes in PRA, PC, K+ or Na+, which suggests that an additional factor may play a role in aldosterone regulation during acute heat exposure.
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PMID:Plasma aldosterone, renin activity, and cortisol responses to heat exposure in sodium depleted and repeleted subjects. 44 70

Mineralocorticoid function of the adrenal cortex and the activity of the renin-angiotensin system were studied in patients with Itsenko-Cushing's disease before (36 cases) and after (27 cases) the treatment with chloditan--an adrenocortical inhibitor. Minertalocorticoid function of the adrenal cortex was assessed by the blood immunoreactive aldosterone content, urinary 18-aldosterone-glucuronide excretion, and the rate of aldosterone secretion. Condition of the renin-angiotensin system was assesed by the blood renin activity. Aldosterone and renin concentration was studied by the radioimmunological method. There proved to be a reverse relationship between the blood aldosterone concentraiton and the severity of Itsenko-Cushing's disease. Elevation of the mineralocorticoid function of the adrenal cortex in Itsenko-Cushing's disease was due to activation of the renin angiotensin system. During clinical remission of the disease following a course of chloditan treatment the patient displayed an increased blood aldosterone level and a rise of its secretion. The minralocorticoid function of the adrenal cortex was intensified at the state of clinical remission because of an increased blood corticotropin concentration.
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PMID:[Mineralocorticoid function of the adrenal cortex and the renin--angiotensin system in Itsenko-Cushing's disease]. 70 55


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