UNIPROT:P61278 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Theorists have extrapolated the cholinergic supersensitivity theory of affective disorder from a convincing and broad spectrum of clinical observation and research. This hypothesis is tested using a neuroendocrine probe approach with the challenge drug pyridostigmine, an indirect cholinergic agent thought to release growth hormone (GH) by decreasing inhibitory somatostatin tone. The consequent increments in plasma GH were considered to reflect central acetylcholine responsivity. Fifty-four volunteers were tested: 27 DSM-III-R major depressives (18 women and 9 men) and 27 age- and sex-matched healthy controls. Subjects were cannulated at 9.00 h following an overnight fast and two baseline samples were taken at 15 min intervals. Pyridostigmine 120 mg was administered orally and thereafter samples were taken at the time points +60, +90, +120 and +180 min. GH responses were significantly greater in depressives than controls and this effect was more marked for men than women. These results support the proposal that muscarinic upregulation and/or supersensitivity is associated with depression.
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PMID:Pyridostigmine-induced growth hormone responses in healthy and depressed subjects: evidence for cholinergic supersensitivity in depression. 131 44

Pyridostigmine (PD), a cholinesterase inhibitor, has been shown to elicit GH release when given alone and to potentiate the GH response to GH-releasing hormone (GHRH) in man. Numerous experiments have indirectly indicated that somatostatin (SS) inhibition is its likely mechanism of action. This study sought to establish the ability of PD to induce GH release in the rat, determine the dose-response relationship, and test the hypothesis that SS inhibition is the method of action. Three experiments were performed to monitor the GH response to PD. I) Five groups of male rats were food deprived for 72 h. The groups were then treated iv with saline, SS antibody (SS-ab), and 10, 100, and 1000 micrograms/kg PD, respectively. Blood samples were drawn before and after treatment. II) Two groups of male rats were pretreated iv with GHRH antibody (GHRH-ab) and either SS-ab or normal sheep serum (NSS). Blood samples were drawn every 30 min for 8.5 h, during which time each animal was injected with PD (10 micrograms/kg) in the third hour and again in the sixth hour. III) Male rats received a PD injection (10 micrograms/kg, iv) during a spontaneous GH trough period and a second PD injection during a spontaneous GH peak period. Blood samples were drawn at regular intervals preceding and following treatments. In Exp I, PD induced a clear 4- to 5-fold increase in GH concentrations in food-deprived rats. The maximal GH responses occurred after the 10 and 100 micrograms/kg doses, although the pattern and duration were different with these two doses. In Exp II, PD induced an approximately 2-fold increase in GH values in animals pretreated with GHRH-ab and NSS, but failed to induce a change in GH in the animals treated with GHRH-ab and SS-ab. In Exp III, PD failed to induce any change in GH concentration when administered during spontaneous GH peaks or troughs. The first two experiments suggest that PD increases GH secretion in the rat via inhibition of SS. The failure of PD to alter GH during a spontaneous peak is consistent with the current hypothesis that the level of SS is low at this time. Its failure to alter GH during trough periods may be related to very high SS tone. In conclusion, our results support the hypothesis that PD acts via inhibition of SS secretion.
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PMID:Pyridostigmine-mediated growth hormone release: evidence for somatostatin involvement. 134 8

Somatostatin (SS) inhibits GH and TSH secretion, but its role in modulating their pulsatility is unclear. We studied GH and TSH responses to GH-releasing hormone (GHRH) and TRH stimulation upon a variable background infusion of saline, SS-(1-14) at 20 and 100 micrograms/m2.h, and oral pyridostigmine (30 and 60 mg) in six adult males. Basal GH levels were unaffected by SS-(1-14). Deconvolution analysis of serum GH values demonstrated that the pituitary responded to two GHRH stimuli 90 min apart without attenuation of the second response. The higher dose of SS-(1-14) significantly blunted the first GH response; second GH responses were further attenuated by both SS-(1-14) doses. Maximum GH release and "switch-off" rates for both stimuli were reduced without changes in the 50% secretion time. Pyridostigmine enhanced the first GH response to GHRH with an increase in the GH release rate; second GH responses were not augmented. GH secretion was prolonged by pyridostigmine, although the 50% secretion time remained unchanged. Peak stimulated serum TSH was attenuated by both SS-(1-14) doses, but pyridostigmine had no effect. All other TSH parameters examined were unaffected. We conclude that the GH response to GHRH is dependent on SS tone, but that the thyrotroph is not tonically inhibited by SS. SS attenuates the rate of GH release without changing the duration of secretion and appears important in terminating GH secretion.
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PMID:The effect of changing somatostatin tone on the pituitary growth hormone and thyroid-stimulating hormone responses to their respective releasing factor stimuli. 135 4

The GH response to insulin-induced hypoglycaemia and growth hormone-releasing hormone (GHRH) has been shown to be impaired in subjects with Cushing's syndrome and in healthy volunteers given oral glucocorticoids. Pyridostigmine is an anticholinesterase that stimulates GH secretion, probably by inhibition of hypothalamic somatostatin secretion. This work was designed to study the site of action of glucocorticoids in inhibiting the secretion of GH. Eight healthy male volunteers were studied on three occasions in random order. They took 2 mg oral dexamethasone or placebo at precisely 6-hourly intervals for 48 h before receiving 120 mg oral pyridostigmine or placebo, followed 60 min later by GHRH (100 micrograms) i.v. Samples for measuring GH were obtained at 15 min intervals for 2 h. The 'area under the curve' (AUC) for each of the treatments was significantly different: dexamethasone-pyridostigmine-GHRH (mean +/- S.E.M., 1938 +/- 631 mU/min per l), dexamethasone-placebo-GHRH (634 +/- 211) and placebo-placebo-GHRH (4267 +/- 1183) (P < 0.02, Wilcoxon test). In conclusion, dexamethasone given for 48 h significantly inhibited the AUC for GH following treatment with GHRH. However, pretreatment with pyridostigmine significantly reversed the inhibition although this was still partial. Our data suggested that this short-term suppressive effect of dexamethasone was independent of GHRH, and most probably relates to stimulation of the release of somatostatin.
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PMID:Pyridostigmine partially reverses dexamethasone-induced inhibition of the growth hormone response to growth hormone-releasing hormone. 135 70

Cholinergic pathways play an important role in the regulation of GH secretion. To assess their participation in GH feedback, we investigated the effect of pyridostigmine (an acetylcholinesterase inhibitor) on plasma GH responses to GH-releasing hormone (GHRH) plus TRH, insulin hypoglycemia, and arginine as well as on the inhibition of these responses by exogenous GH. The GH response to each stimulus was inhibited by an infusion of GH (0.55 micrograms/m2/min), started 4 h earlier. Pyridostigmine (120 mg, orally), administered 30 min before the stimulus, enhanced GH responses to GHRH and insulin during both saline and GH infusions. However, GH responses during combined administration of pyridostigmine and GH were less than those during pyridostigmine alone. GH responses to arginine, in contrast, were not affected by pyridostigmine in either the absence or presence of exogenous GH. TSH responses to TRH were unaltered by either GH or pyridostigmine. Pyridostigmine enhancement of GH responses to a maximally stimulatory dose of GHRH suggests that its effect is exerted by inhibition of somatostatin release. The lack of effect of pyridostigmine on plasma GH responses to arginine suggests that arginine and pyridostigmine increase GH secretion through a common pathway. The enhancement by pyridostigmine of GH responses in both the presence and absence of exogenous GH suggests that exogenous GH and pyridostigmine exert their discordant effects on GH secretion through independent mechanisms.
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PMID:The role of the cholinergic pathway in growth hormone feedback. 190 84

The effect of caloric restriction (CR) on the growth hormone (GH) response to compounds reportedly capable of acting via somatostatinergic influences, i.e. cholinergic agonist or antagonist drug, glucose or thyrotropin-releasing hormone (TRH), administered alone or combined with GH-releasing hormone (GHRH), was evaluated in dogs. Eight beagle dogs, aged 4-5 years, underwent a 26-day period of increasing CR; they were evaluated either under basal conditions or starting from day 13 of CR, according to a schedule which allowed the mean length of CR to be similar among individual tests. CR resulted in a significant increase in basal GH levels, and starting from day 13 in a significant decrease in plasma somatomedin C levels; plasma glucose levels were significantly diminished on day 13 of CR and then remained unaltered. Administration of GHRH (GHRH1-44, 2 micrograms/kg, i.v.) induced a rise in plasma GH levels strikingly higher during CR than under basal conditions. Pyridostigmine (2 mg/kg orally), a muscarinic cholinergic agonist reportedly capable of restraining hypothalamic release of somatostatin (SS), enhanced the GH response to GHRH under basal conditions, but failed to do so during CR. Conversely, pirenzepine (0.6 mg/kg, i.v.), a muscarinic cholinergic antagonist, abolished the GHRH-induced GH rise under basal conditions, but only reduced it during CR. Only by doubling the dose of pirenzepine was complete inhibition of the GHRH-induced GH rise effected. Glucose alone (2 g/kg, p.o.) failed to modify basal GH secretion either before or during CR, but significantly inhibited the GHRH-induced GH rise either before or during CR.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Studies of growth hormone secretion in calorically restricted dogs: effect of cholinergic agonists and antagonists, glucose and thyrotropin-releasing hormone. 190 62

Growth hormone-releasing hormone (GHRH) increases serum GH levels in a dose-dependent manner. Pyridostigmine (PD), an acetylcholinesterase inhibitor, is able to elicit GH secretion when administered alone and to enhance the GH response to GHRH in normal subjects, probably via a decrease in the hypothalamic release of somatostatin. The aim of the present study was to investigate if an enhancement of the cholinergic tone was able to influence the dose-response relationship between GHRH and GH in normal adult subjects. Six healthy adult volunteers underwent 10 experimental protocols. They were: human GHRH (1-29)NH2, 1 micrograms/kg injected as an intravenous (IV) bolus 60 minutes after (a) PD, 120 mg administered orally, or (b) placebo, two tablets administered orally; GHRH, 0.3 micrograms/kg injected as an IV bolus 60 minutes after (c) PD or (d) placebo; GHRH, 0.1 micrograms/kg injected as an IV bolus 60 minutes after (e) PD or (f) placebo; GHRH, 0.01 micrograms/kg injected as an IV bolus 60 minutes after (g) PD or (h) placebo; saline, 1 mL injected as an IV bolus 60 minutes after (i) PD or (l) placebo. The GH response in placebo-treated subjects was similar after 1 microgram/kg and 0.3 microgram/kg GHRH, while the 0.1 microgram/kg dose elicited a lower response. The 0.01 microgram/kg dose of GHRH did not significantly increase GH levels as compared with saline. After PD, the GH responses to GHRH were greatly enhanced at all doses tested: 1.0, 0.3, and 0.1 microgram/kg GHRH all elicited similar GH responses; the GH response to 0.01 microgram/kg GHRH was lower, but was still higher than that observed after saline.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The role of cholinergic tone in modulating the growth hormone response to growth hormone-releasing hormone in normal man. 202 38

OBJECTIVE The aim of the study was to investigate whether pyridostigmine, a cholinesterase inhibitor which is thought to act at the hypothalamus to inhibit somatostatin secretion, would augment spontaneous or GHRH-stimulated serum GH levels in patients with GH-insufficiency. DESIGN Oral pyridostigmine 60 mg or placebo was administered at the start of a 9-h subcutaneous infusion of either GHRH (1-29)NH2 10 micrograms/kg/h or saline control. Studies were performed during the daytime (0900-1800 h) in five patients, and the night-time (2100-0600 h) in a further five. PATIENTS Ten short, pre-pubertal children (aged 6-11 years; eight boys) with growth hormone insufficiency were studied. MEASURES Blood for serum GH was sampled every 20 min, and analysed using the PULSAR program. RESULTS The subcutaneous infusion of GHRH 10 micrograms/kg/h increased mean serum GH levels (+/- SEM): by day 17.7(+/- 6.8) vs placebo 2.2(+/- 0.4) mU/l (P less than 0.01), and by night 26.9(+/- 3.3) vs 5.5(+/- 1.3) mU/l (P less than 0.05). There was a significant rise in mean 'baseline' GH concentration: by day 5.5(+/- 1.7) vs 1.0(+/- 0.0) mU/l (P less than 0.05); and night 8.2(+/- 2.7) vs 1.3(+/- 0.3) mU/l (P less than 0.05). Pyridostigmine failed to produce a significant overall increase in either spontaneous or GHRH-stimulated GH secretion by day or night, although there was a significant rise in mean GH levels during the 3 h following pyridostigmine administration in the morning: 4.4(+/- 1.1) vs 2.4(+/- 0.5) mU/l (P less than 0.001). GHRH or pyridostigmine given singly or in combination had no significant effect on the number of pulses. Side-effects attributable to pyridostigmine occurred in seven children. CONCLUSIONS Pyridostigmine, either on its own or as an adjuvant therapy in combination with GHRH, acts for only a brief time and does not offer any potential benefit in the management of children with short stature.
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PMID:Pyridostigmine fails to increase either spontaneous or GHRH-stimulated GH secretion during day or night in growth hormone-insufficient children. 206 Jan 50

Glucocorticoids have been shown to inhibit GH secretion in normal man when acutely and chronically administered in pharmacological amounts. Pyridostigmine (PD), an acetylcholinesterase inhibitor, is able to elicit GH secretion when administered alone and to enhance the GH response to GHRH in normal subjects probably via a decrease in the hypothalamic release of somatostatin. The aim of the present study was to investigate the influence of glucocorticoids on the GH response to PD administered either alone or in combination with GHRH in normal adult subjects. Six healthy adult volunteers underwent six experimental protocols. They received 1) human (h) GHRH(1-29)NH2, 100 micrograms injected as an iv bolus; 2) cortisone acetate, 50 mg administered orally (po) 60 min before an hGHRH iv bolus injection; 3) PD, 120 mg administered po, 60 min before an hGHRH iv bolus injection; 4) PD and cortisone acetate, administered po 60 min before an hGHRH iv bolus injection; 5) PD, administered po 60 min before a saline iv bolus injection; 6) PD and cortisone acetate administered po 60 min before a saline iv bolus injection. Mean GH levels, peak GH levels, and GH area under the curves (AUCs) were significantly lower after GHRH + cortisone as compared to GHRH alone. However, these parameters were not significantly different after PD + GHRH + cortisone when compared to PD + GHRH and after PD + cortisone when compared to PD alone. We conclude that acute administration of pharmacological amounts of glucocorticoids cannot inhibit the GH response to PD alone or in combination with GHRH. Thus, we hypothesize that the inhibitory action of glucocorticoids on the GH response to GHRH in man may be mediated by an enhancement of either somatostatin release by the hypothalamus or somatostatin action on the pituitary.
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PMID:Pyridostigmine blocks the inhibitory effect of glucocorticoids on growth hormone-releasing hormone stimulated growth hormone secretion in normal man. 211 35

Obesity is associated with an impairment of the GH secretion elicited by all stimuli known to date, but the basic mechanism of this alteration is unknown. To determine whether obesity is associated with a chronic state of tonic somatostatin secretion, several tests with GH stimuli with or without pyridostigmine were undertaken in both obese subjects and matched controls. Pyridostigmine reduces somatostatin release from the hypothalamus by increasing central cholinergic neurotransmission. The administration of clonidine (300 micrograms, orally) to obese subjects did not modify basal GH values (1.9 +/- 0.7 micrograms/L at 90 min), while in control subjects the clonidine-induced GH peak was 13.1 +/- 1.6 micrograms/L. Pretreatment with pyridostigmine (120 mg, orally) notably increased clonidine-stimulated GH secretion in both the obese (6.9 +/- 1.8 micrograms/L) and control (17.6 +/- 2.7 micrograms/L) subjects. Since clonidine acts by releasing endogenous GHRH, similar studies were undertaken employing arginine, which presumably enhances GH release by reducing somatostatin discharge. Arginine administration in obese subjects induced an increase in GH levels of 5 +/- 2.3 micrograms/L, which was significantly smaller than that in the matched control subjects (13.3 +/- 2.4 micrograms/L). Pretreatment with pyridostigmine increased the arginine action toward a GH peak of 12.2 +/- 2.2 micrograms/L in the obese and 21.6 +/- 2.5 micrograms/L in control subjects. As a third hypothalamic stimulus of GH secretion, trials of insulin-induced hypoglycemia were carried out. Hypoglycemia induced an increase in GH levels in obese subjects of 12.2 +/- 1.8 micrograms/L, which was higher than that produced by any other stimulus, but lower than that in control subjects (28.4 +/- 5.5 micrograms/L). In contrast with the previous two GH stimuli, pretreatment with pyridostigmine did not modify the hypoglycemia-induced GH release in either obese or normal subjects. Our results lend support to the view that clonidine acts through GH-releasing hormone release and arginine by reducing somatostatin discharge from the hypothalamus. In addition, they seem to indicate that hypoglycemia acts by a combination of both mechanisms, mainly through a reduction in somatostatin release. These findings support the idea that obesity is associated with a state of chronic somatostatin hypersecretion as the basis for the derangements in GH secretion.
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PMID:Effect of central cholinergic neurotransmission enhancement by pyridostigmine on the growth hormone secretion elicited by clonidine, arginine, or hypoglycemia in normal and obese subjects. 215 83

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