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Query: UNIPROT:P01350 (
gastrin
)
9,683
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This review shows that numerous neuropeptides and hormones are involved in the regulation of intestinal transit. Many gastrointestinal hormones known to act on smooth muscle to influence muscle contractility also play a role in the genesis of abrupt changes associated with alimentary behaviour. In many monogastrics and ruminants, the cyclic occurrence of the migrating motor complex (MMC) is linked to peripheral hormonal factors only slightly influenced by the nature of food. Motilin is the major hormone involved in triggering the gastric migrating motor complex while somatostatine and enkephalins are implicated in the propagation along the small intestine. Other hormones, like CCK8, insulin,
gastrin
, and neurotensin, trigger the development of an intestinal feed pattern but CCK released at the central nervous system ventromedial hypothalamus is involved in maintaining the postprandial type of activity. Gastrointestinal transit may be altered in physiopathological situations in which CRF,
TRH
and some cytokines (IL1 beta, TNF alpha) play an important role.
...
PMID:Neurohormonal control of intestinal transit. 784 Aug 68
Mammalian germinal angiotensin I-converting enzyme (gACE) is a single-domain dipeptidyl carboxypeptidase found exclusively in male germ cells, which has almost identical sequence and enzymic properties with the C-domain of the two-domain somatic ACE. Mutant mice that do not express gACE are infertile, suggesting a role for the enzyme in the processing of undefined peptides involved in fertilization. A number of spermatid peptides [e.g. cholecystokinin (CCK) and
gastrin
] are processed from pro-hormones by endo- and exo-proteolytic cleavages which might generate substrates for gACE. We have shown that peptide hormone intermediates with Lys/Arg-Arg at the C-terminus are high-affinity substrates for human gACE. gACE from human sperm cleaved Arg-Arg from the C-terminus of the CCK5-GRR (GWMDFGRR), a peptide corresponding to the C-terminus of a CCK-
gastrin
prohormone intermediate. Hydrolysis of CCK5-GRR by recombinant human C-domain ACE was Cl- dependent, with maximal activity achieved in 5-10 mM NaCl at pH 6.4. C-Domain ACE cleaved Lys/Arg-Arg from the C-terminus of dynorphin-(1-7), a pro-
TRH
peptide KRQHPGKR, and two insect peptides FSPRLGKR and FSPRLGRR. C-Domain ACE displayed high affinity towards all these substrates with Vmax/Km values between 14 and 113 times greater than the Vmax/Km for the conversion of the best known ACE substrate, angiotensin I, into angiotensin II. In conclusion, we have identified a new class of substrates for human gACE, and we suggest that gACE might be an alternative to carboxypeptidase E for the trimming of basic dipeptides from the C-terminus of intermediates generated from pro-hormones by subtilisin-like convertases in human male germ cells.
...
PMID:Cleavage of arginyl-arginine and lysyl-arginine from the C-terminus of pro-hormone peptides by human germinal angiotensin I-converting enzyme (ACE) and the C-domain of human somatic ACE. 937 19
The possible effects of
TRH
administration on different parameters of gastric function were studied in 10 patients with different gastrointestinal complaints. Basal (BAO) and pentagastrin stimulated (6 micrograms pentagastrin/kg bw sc) maximal (MAO) acid output were determined and serum levels of TSH, total and free thyroxine (T4 and FT4), triiodothyronine (T3) were measured. After determinations of BAO and MAO and the hormones indicated above, one group of patients received a
TRH
injection (0.2 mg protirelin) intravenously. The second group of patients was injected with atropine (atropinum sulfuricum, 1 mg, iv). At different times following the injections in both groups of patients BAO, MAO and serum levels of TSH, total and free T4, T3,
gastrin
were determined. Injection of
TRH
resulted in an increase in TSH and with some delay in thyroxine and gastric acid levels. Atropine treatment was followed by a decrease in gastric acid secretion and a small decrease in TSH and no changes in the values of the other studied hormones. The results suggest a complex interrelationship between
TRH
, vagal system and pentagastrin-dependent gastric acid secretion operating in human subjects.
...
PMID:Effects of TRH on gastric acid secretion: a model for human study. 940 5
Recent studies have revealed that islet cells differentiate from the epithelial cells of primitive pancreatic ducts during embryogenesis, and can regenerate in response to the loss of islet cells even in adult pancreas. The ability of islet cells to regenerate raises the possibility that impaired and decreased islets of diabetic patients can be restored. In this review, factors regulating islet development including differentiation factors (Shh, activin, follistatin, and TGF alpha), transcriptional factors (PDX1, Isl1, Pax4, Pax6, Nkx2.2, Nkx6.1, BETA2, and HNF), growth factors (the EGF family, HGF, IGF-I, IGF-II, Reg, INGAP, PDGF, FGF, VEGF, and NGF), hormones (insulin, the GH family, PTHrP,
TRH
, and
gastrin
), and cell adhesion molecules (N-CAM and cadherins) are described after a short introduction and an outline of pancreatic development.
...
PMID:Development of pancreatic islets (review). 1002 48
Thyrotropin-releasing hormone
(
TRH
) acts in brain stem nuclei to induce vagally mediated stimulation of gastric secretion. The effects of intracisternal injection of the
TRH
analog RX-77368 on plasma
gastrin
levels and corpus histidine decarboxylase (HDC) activity were studied in 48-h fasted conscious rats. RX-77368 (25-100 ng) increased plasma
gastrin
levels by threefold at 30 min, which remained significantly higher than control at 2 and 4 h postinjection. Corpus HDC activity began to increase at 2 h and reached a peak at 4 h postinjection with a 21-fold maximum response observed at 50 ng. Morphological changes in the appearance of corpus HDC-immunoreactive cells correlated well with HDC activity. Pretreatment with
gastrin
monoclonal antibody completely prevented RX-77368 stimulatory effects on HDC activity. Atropine significantly attenuated
gastrin
increase at 30 min by 26%. These results indicated that in conscious fasted rats,
TRH
analog acts in the brain to increase corpus HDC activity in the enterochromaffin-like cells, which involves
gastrin
release stimulated by central
TRH
analog.
...
PMID:Intracisternal TRH analog increases gastrin release and corpus histidine decarboxylase activity in rats. 1019 33
Mechanisms involved in the cephalic phase of gastric acid secretion were studied in awake fasted rats with chronic gastric fistula and exposed to the sight and smell of chow for 30 min. Acid secretion was monitored using constant intragastric perfusion and automatic titration. Sham feeding induced a peak acid response reaching 82 +/- 7 micromol/10 min within 20 min compared with the average 22 +/- 2 micromol/10 min in controls. The sham-feeding response was abolished by intracisternal pretreatment with the
TRH
(1)-receptor antisense oligodeoxynucleotides or subcutaneous injection of atropine, whereas
TRH
(1) mismatch oligodeoxynucleotides had no effect. Serum
gastrin
was not altered by the sham feeding and increased by refeeding.
Gastrin
antibody did not block the rise in acid during sham feeding, although the net acid response was reduced by 47% compared with the control group. Glycine-
gastrin
antibody, indomethacin and nitro-l-arginine methyl ester had no effect. Atropine and
gastrin
antibody decreased basal acid secretion by 98 and 75%, respectively, whereas all other pretreatments did not. These results indicate that the cholinergic-dependent acid response to sham feeding is mediated by brain medullary
TRH
(1) receptors in rats.
...
PMID:Cephalic phase of acid secretion involves activation of medullary TRH receptor subtype 1 in rats. 1238 76
Several neural peptides have been demonstrated to influence central nervous system control of nutrient metabolism. The principal mechanism by which these peptides influence peripheral nutrient metabolism is by altering the secretion of adrenal epinephrine. Bombesin or its mammalian counterpart,
gastrin
releasing peptide, and
TRF
act within the brain to stimulate the secretion of epinephrine from the adrenal gland. Associated with these changes in epinephrine secretion is a reduction of plasma insulin and elevation of plasma glucagon and glucose. Somatostatin and various somatostatin analogs act in the brain to inhibit adrenal epinephrine secretion stimulation by a variety of stimuli.
...
PMID:Neuropeptides: Central nervous system effects on nutrient metabolism. 2794 15
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