EC:3.1.1.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.1.7 (acetylcholinesterase)
28,390 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pituitary glands of two urodelan species (Mertensiella caucasica, Triturus cristatus) and one one caecilian species (Chthonerpeton indistinctum) were examined with histological (Alcian blue, Brookes' trichrome stain), enzyme histochemical (acid phosphatase, alpha-naphthylacetate-esterase, acetylcholinesterase) and immunofluorescence techniques (anti-carp GTH, anti-ovine prolactin, anti-synthetic alpha-MSH). In the pituitary gland of Mertensiella and Triturus six chromophilic cell types could be distinguished. A strong fluorescence was observed in the MSH-, GTH- and TSH-cells. In the pituitary gland of Chthonerpeton only five chromophilic cell types could be distinguished: in the rostral part of the pituitary gland the B3-cell; in the basal region of the central area the B2-cell; dorsocaudally the B1-cell. The acidophilic cells were found in the central and caudal part of the pars distalis. The basophils of the pars intermedia could be observed in the dorsocaudal part of the pituitary gland surrounding the neurohypophysis. All acidophilic cells showed a strong immunofluorescence with anti-ovine prolactin (LTH).
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PMID:Histological, immuno- and enzyme-histochemical investigations on the adenohypophysis of the urodeles, Mertensiella caucasica and Triturus cristatus and the caecilian, Chthonerpeton indistinctum. 34 44

Cholinergic mechanisms have been implicated in the regulation of anterior pituitary hormone secretion. The present study was designed to determine the effect of a single injection of an organophosphate acetylcholinesterase inhibitor, diisopropylfluorophosphate (DFP), on anterior pituitary function in male rats. DFP increased serum ACTH (2.7-fold) and corticosterone (9.1-fold), while suppressing TSH, PRL, LH, and GH by up to 95%. The earliest response was at 1 hr, with a duration of at least 18 hr for TSH and LH. Responses were similar in adrenalectomized animals. After DFP, responses to hypothalamic releasing factors were normal for TSH, GH, and ACTH, but significantly blunted for PRL and LH. TSH suppression was partially prevented by combined therapy with a nicotinic (mecamylamine) and a muscarinic (atropine) antagonist. TSH suppression was partially reversed by immunoneutralization with somatostatin antibody, and PRL suppression was completely prevented by a dopamine antagonist (haloperidol). Atropine alone prevented the effects on corticosterone. TSH pituitary content and TSH-beta mRNA were reduced by 37 and 22%, respectively, by DFP. In contrast, PRL mRNA was unchanged but PRL content was increased 3-fold. We conclude that cholinesterase inhibition evokes a multiplicity of effects on anterior pituitary function. There is a hierarchy of responses, with corticosterone being the most and TSH the least sensitive. There is evidence for inhibition at both the hypothalamic and pituitary levels, involving both nicotinic and muscarinic receptors. Although cholinesterase inhibition is the proximate event, other neurotransmitter pathways involved in TSH and PRL suppression are somatostatin and dopamine, respectively.
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PMID:Diisopropylfluorophosphate (DFP) reduces serum prolactin, thyrotropin, luteinizing hormone, and growth hormone and increases adrenocorticotropin and corticosterone in rats: involvement of dopaminergic and somatostatinergic as well as cholinergic pathways. 167 67

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

Incubation of cultured rat pituitary cell aggregates with [3H]choline ([3H]Chol) yielded a derivative that was identified as [3H]acetylcholine ([3H]ACh) by several criteria: 1) the [3H]Chol derivative with the highest retention time coeluted with a [14C]ACh standard in cation exchange and reverse phase HPLC; 2) cholinesterase treatment converted this derivative to a substance with the retention time of [3H]Chol; 3) two blockers of ACh production, hemicholinium and 4-[(1-naphthylvinyl)pyridinium], eliminated 3H-labeled material in the HPLC fractions with ACh retention time. Spontaneous [3H]ACh release was increased by depolarizing potassium concentrations, and both synthesis and release of ACh were increased by the glucocorticoid hormone dexamethasone. Double immunostaining of choline acetyltransferase (CAT) and, respectively, of ACTH, GH, PRL, TSH, S100, LH, and FSH in rat pituitary cells revealed that most of the CAT-immunoreactive cells were also ACTH immunoreactive. A small proportion (less than 10%) of the PRL-immunoreactive cells also showed CAT immunoreactivity, but all other cell types were negative. The immunocytochemical evidence for colocalization of CAT within the ACTH cell was strengthened by the finding of a significantly higher rate of [3H]ACh synthesis in a corticotroph-enriched cell population obtained by separating pituitary cells on a velocity sedimentation gradient. In addition, the mouse pituitary corticotropic cell line AtT20 contained CAT immunoreactivity, converted [3H]Chol to [3H]ACh, and released bioactive ACh-like material. In conclusion, the present data provide strong evidence that pituitary corticotrophs synthesize and release ACh, and that the activity of this intrapituitary cholinergic transmission system is under regulatory control.
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PMID:Synthesis and release of acetylcholine by normal and tumoral pituitary corticotrophs. 253 72

Thyroid function was studied in 40 patients with chronic heart failure. Thyroid antibodies and microsome antibodies were negative in all cases. Serum T4, and T3 concentrations showed significant inverse correlation with cardiothoracic ratio, mean right atrial pressure, pulmonary artery systolic pressure, and peripheral venous pressure. Serum T4, T3 concentrations showed significant correlation with PaO2, serum albumin, and serum cholinesterase. Serum TSH concentrations increased with increasing cardiothoracic ratio. Histological examinations showed fibrosis and atrophy of the thyroid gland in 2 cases. These findings suggest the possible development of primary hypothyroidism as a result of chronic heart failure.
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PMID:Primary hypothyroidism in severe chronic heart failure. 296 70

Ten patients with liver cirrhosis and six normal subjects were studied to evaluate the effect of iopanoic acid (IA) on thyrotropin secretion. A thyrotropin-releasing-hormone (TRH) test was performed before and 5 days after IA administration (single oral dose of 3 g). After IA administration, a significant increase in TSH response to TRH was observed in normal subjects. In cirrhotics, however, it did not significantly increase after IA administration. The serum T3 and T3/TBG ratio were significantly decreased and the serum T4 and T4/TBG ratio were increased after IA administration in normal subjects and cirrhotics. There was no significant difference in the % decrease in serum T3, % increase in serum T4 or other thyroid hormone parameters including TSH in IA induced TSH responders (R) and non-responders (NR). However, r-T3 before and after IA in R was higher than those in NR. The values for hepatic function tests such as serum albumin, prothrombin time, 45 minutes retention rate of bromsulphalein (BSP 45 min) and the cholinesterase (ChE) level in R were not different from those of NR. These results suggested that in cirrhotics, abnormal regulation of the hypothalamo-pituitary system might exist.
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PMID:The effect of iopanoic acid on thyrotropin secretion in patients with cirrhosis of the liver. 367 54

The in vitro action of thyrotropin-releasing hormone (TRH) on the cyclic AMP level and iodine metabolism in dog thyroid, has been studied. TRH inhibited cyclic AMP accumulation and subsequent secretion in slices stimulated by thyrotropic hormone (TSH), prostaglandin E1, cholera toxin and to a lesser extent forskolin. The effect of TRH was suppressed in a medium deprived of calcium or in the presence of isobutylmethylxanthine. TRH also stimulated iodide binding to proteins, but not cyclic GMP accumulation. Although all these characteristics of TRH action on dog thyroid fit those of prostaglandin F1 alpha in this tissue, TRH effects were not relieved by indomethacine. The possibility of a TRH action through other known inhibitors of the cyclic AMP system in dog thyroid such as: acetylcholine, alpha-adrenergic agents, adenosine, iodide were checked and ruled out. The possible involvement of other neurotransmitters, such as ATP or vasoactive intestinal peptide were studied but could not be substantiated. Our data suggest the existence of a direct negative action of TRH on the thyroid itself besides its stimulatory role at the pituitary level. The great variability of the TRH effect was overcome by pretreatment of the dog by pyridostigmine, an acetylcholinesterase inhibitor.
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PMID:Effect of thyrotropin-releasing hormone on dog thyroid in vitro. 619 95

Pyridostigmine (PST), a cholinesterase inhibitor, induces a clear growth hormone (GH) release in man by suppression of hypothalamic somatostatin (SRIH). Somatostatin suppresses thyrotrophin (TSH) release in rats and men. Earlier studies showed that the thryotrophin-releasing hormone (TRH)-induced TSH response was not altered by 60-120 mg of PST. We studied whether a larger dose (180 mg) of PST can increase the TSH response to TRH. Six healthy young men were studied with the following six tests: (Test 1) 200 micrograms of TRH i.v.; (Test 2) 180 mg of PST po; (Test 3) three different doses of PST (60, 120, 180 mg) + TRH; (Test 4) 100 micrograms of octreotide (SMS) i.v.; (Test 5) SMS + TRH; (Test 6) PST + SMS + TRH. A large dose of PST (180 mg) significantly augmented GH, TSH and prolactin responses to TRH, while smaller doses of PST (60 and 120 mg) did not significantly increase the responses of GH and TSH. While the increased TRH-induced prolactin response by PST was not suppressed by SMS, the increased responses of GH and TSH were suppressed remarkably by SMS. Most of the subjects noticed a mild to moderate abdominal pain, nausea and muscular fasciculation after the administration of a large dose of PST administration. These data suggest that suppression of hypothalamic SRIH secretion by 180 mg of PST can augment the TSH response to TRH. However, the considerable side effects should be minimized before clinical application of the combined PST-TRH test.
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PMID:Combined pyridostigmine-thyrotrophin-releasing hormone test for the evaluation of hypothalamic somatostatinergic activity in healthy normal men. 758 70

To indirectly evaluate the hypothalamic somatostatin (SS) tone in patients with acromegaly, the effects of pyridostigmine (PD), a cholinesterase inhibitor which can inhibit hypothalamic SS secretion, on TRH-induced TSH secretion and the effects of SMS 201-995 on TSH or GH secretion were studied in acromegalic patients (31-69 yr, n = 10), normal young (21-24 yr, n = 7) and normal old male subjects (62-71 yr, n = 7). After pretreatment with PD (60 mg po, -30 min), normal young subjects showed significantly enhanced TSH responses to TRH (500 micrograms i.v., 0 min) compared to single administration of TRH, whereas normal old and acromegalic patients did not show such enhancement. Plasma TSH response to a single administration of TRH in acromegalic patients was significantly lower than that of normal young and old subjects. Although normal young and old subjects showed significantly enhanced GH responses to GHRH (100 micrograms i.v. at 0 min) after the pretreatment with PD (60 mg, -30 min), no such enhancement was observed in acromegalic patients. In contrast, the decrement in plasma TSH after SMS 201-995 administration was similar between normal subjects (5 young 5 old) and 7 acromegalic patients. Further, the maximal plasma GH decrement after administration was significantly greater in acromegalic patients than in the 5 normal young and 5 old subjects p < 0.01). In conclusion, hypothalamic SS tone does not appear to be elevated in acromegalic patients compared to normal young and probably old subjects.
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PMID:The evaluation of hypothalamic somatostatin tone using pyridostigmine and thyrotropin releasing hormone in patients with acromegaly. 791 36

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.
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PMID:Pyridostigmine effects on TSH response to TRH in adult and children obese subjects. 834 46

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