Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0847097 (acidity)
 15,165 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gastric acidity is influenced by systemic and local peptide effects. Previous work by others has shown that intraluminally secreted peptides may have a role in local control of gastric acidity; however, the response of these peptides to acute changes in gastric pH is unknown. To determine the effects of acute changes in pH on systemic and intraluminal peptide levels, 14 normal volunteers underwent placement of a nasogastric tube after an overnight fast. Blood and gastric fluid were analyzed on a control day, 2 hours after completion of 24 hours of aluminum-magnesium antacid therapy and after 24 hours of H2 blockade. Plasma and acid-alcohol-extracted gastric peptide levels were measured with specific radioimmunoassays. Specimens were subdivided into two groups: 28 gastric fluid specimens with a pH less than 4 and 10 specimens with a pH greater than 4. In the patients with a pH greater than 4, the luminal peptides, motilin, neurotensin, pancreatic polypeptide, somatostatin, substance P, and gastrin, were decreased by 50% to 90% and gastrin-releasing peptide was decreased by 36% compared with specimens with a pH less than 4. Conversely, intraluminal vasoactive intestinal polypeptide and calcitonin levels were elevated by 60% and 27%, respectively, in the samples with a pH greater than 4. Intraluminal peptide concentrations are responsive to changes in intragastric pH; however, this response was not seen in plasma peptide levels.
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PMID:Acute gastric pH changes alter intraluminal but not plasma peptide levels. 172 Sep 3

I.v. administration of neurotensin and its analogue DTch1I--neurotensin considerably decreased stomach secretion induced with pentagastrin but did not suppress stomach secretion induced with histamine, neither a microapplication of 10 micrograms in 3 microliter of neurotensin affected the secretion whereas the dose 50 micrograms in 3 microliter decreased both volume and acidity of the juice. I.v. administration of neurozensin increased the gastrin, neurotensin and the substance P contents in the dog blood. Microapplication of neurotensin to the globus pallidus with simultaneous i.v. administration of histamine increased the level of the serum gastrin.
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PMID:[Effect of natural neurotensin and its analog on gastric secretion and levels of various peptides in dog blood]. 258 Jul 44

Previously we improved the neurotensin (NT)-polyplex by the coupling of HA2 fusogenic peptide (FP) and Vp1 SV40 karyophilic peptide (KP). We now report the proportion of [(125)I]-NT, [(3)H]-FP, and poly-l-lysine (PLL) in the NT-polyplex, and some of its biophysical properties. We concluded that the most efficient NT-polyplex comprised 1 NT, 4 FP, and 2 PLL molecules. Electrophoresis revealed that high acidity is detrimental for NT-polyplex stability. Electron microscopy and electrophoresis studies showed that 6 muM KP and 1% serum condensed the plasmid DNA (pDNA) before the appearance of toroid structures. Four plasmids were used to evaluate the transfection efficiency. In vitro, maximum expression was produced at molar ratios (pDNA : [(125)I]-NT-[(3)H]-FP-PLL conjugate) of 1:34 for pEGFP-N1 and 1:27 for pECFP-Nuc. Cotransfection of those plasmids was attained at their optimum molar ratios. In vivo, maximum expression of the pDAT-BDNF-flag in dopamine neurons was produced at a 1:45 molar ratio, whereas that of pDAT-EGFP was at 1:20. The NT-polyplex in the presence of 1 muM SR-48692, an NT-receptor specific antagonist, and untargeted polyplex did not cause transfection in vivo demonstrating the specificity of gene transfer via NT-receptor endocytosis. This information is essential for synthesizing an efficient NT-polyplex that can provide a useful tool for specific gene transfection.
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PMID:Biophysical characteristics of neurotensin polyplex for in vitro and in vivo gene transfection. 1673 Sep 7