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: HUMANGGP:036187 (gut)
73,132 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Limited isovolaemic haemodilution was produced in cats by addition of dextran 75-Ringer solution to an extracorporeal blood reservoir connected in series with the cat. Total hepatic venous outflow was neasured using a hepatic venous long-circuit and hepatic arterial flow was measured with an electromagnetic flow probe. Oxygen uptake was monitored in the guts and liver. Na-pentobarbitone anaesthesia was used. 2. Following reduction of the haematocrit (from 31 to 22) the oxygen uptake of the gut segment and liver were maintained. Gut conductance increased to 125% of control while the oxygen extraction ratio increased to only 109%. The hepatic arterial conductance did not change in spite of a greatly reduced (to 68%) oxygen delivery. Hepatic extraction increased to 140% of control. 3. The hepatic artery did not dilate to maintain constant oxygen supply to the liver thus confirming our previous observation that blood flow is not coupled to hepatic metabolism. 4. Oxygen extraction in the gut correlated well with changes in portal blood flow but not with changes in vascular conductance, arterial blood pressure or oxygen delivery. 5. The blood flow of the gut (vascular beds draining into the portal vein in the splenectomized preparation) was controlled in a manner that prevented changes in portal venous PO2 in spite of a reduction in oxygen content. Local PO2 and perhaps pH, are suggested as the factors controlling gut blood flow following haemodilution. 6. Changes in portal blood flow correlated with changes in portal vascular (intrahepatic) conductance such that increased portal flow produced an increased portal conductance thereby maintaining portal venous pressure constant.
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PMID:Control of hepatic and intestinal blood flow: effect of isovolaemic haemodilution on blood flow and oxygen uptake in the intact liver and intestines. 1 8

The ontogenetic pattern of noradrenergic differentiation in rat embryonic autonomic neuroblasts was defined in vivo. Noradrenergic specialization was examined by documenting the immunohistochemical appearance of tyrosine hydroxylase [Tyr-OH; tyrosine 3-monooxygenase; L-tyrosine,-tetrahydropteridine:oxygen oxidoreductase (3-hydroxylating), EC 1.14.16.2] and the development of histofluorescence due to catecholamine (CA). Tyr-OH and CA were undetectable in the dorsal neural crest or the ventrally migrating crest cells and first appeared at 12.5 days of gestation (36--37 somite stage) in sympathoblasts that had formed sympathetic ganglion primordia. Fluorescence intensity and the number of fluorescent cells increased progressively thereafter. In addition, Tyr-OH and CA transiently appeared in scattered presumptive neuroblasts in the gut. The enzyme and transmitter were first detectable at 11.5 days of gestation and thereafter decreased progressively so that, by 14.5 days, only rare cells were encountered. There was remarkable synchrony in the appearance and disappearance of Tyr-OH and CA. These observations suggest that a number of noradrenergic transmitter mechanisms develop simultaneously in the differentiating neuroblast. The relevance of these results to the elucidation of developmental regulatory mechanisms is discussed.
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PMID:Ontogenetic appearance and disappearance of tyrosine hydroxylase and catecholamines in the rat embryo. 2 19

The nature of pH changes with temperature is similar in both air-breathing and water-breathing poikilotherms having a pH-temperature slope of -0.015 to 0.020 U/degrees C. The means by which this is accomplished are quite different in the two groups. The air-breather behaves in vivo as a Rosenthal, or constant CO2 content system, with PaCO2 increasing at higher temperatures. The increase in PaCO2 is brought about by a reduction in the ration VE/MCO2. The water-breather, on the other hand, does not change VG/MO2, so as not to sacrifice oxygen delivery, and consequently does not control PaCO2 by ventilation and perhaps does not control it at all. Instead, the ratio of CT/SCO2 is controlled by altering blood bicarbonate concentration. Since alteraction of Na+ and Cl- uptake rates affects blood pH, and alterations of blood pH affect uptake of Na+ and Cl- at the gills, the carrier-mediated Na+/H+(NH4+) and Cl-/HCO3-(OH-) mechanisms now known to occur in gills appear to be the primary pH-regulating mechanism in water-breathers. Our knowledge of the role of gut and kidney in pH regulation is incomplete, but on the basis of preliminary information the kidney does not appear to respond to acid challenge.
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PMID:Regulation of blood pH in teleost fish. 2 50

We sought to determine, in rat embryo, when and at what site in their migration cells derived from the neural crest differentiate into sympathetic neuroblasts. This has been accomplished by immunocytochemical detection, within the cells, of the enzymes catalyzing catecholamine biosynthesis-tyrosine hydroxylase [TH; tyrosine 3-monooxygenase, L-tyrosine, tetrahydropteridine:oxygen oxidoreductase (3-hydroxylating), EC 1.14.16.2] dopamine-beta-hydroxylase [DBH; 3,4-dihydroxyphenylethylamine,ascorbate:oxygen oxidoreductase (beta-hydroxylating), EC 1.14.17.1)]-and, as a marker of prospective adrenal medullary cells, the enzyme phenylethanolamine N-methyltransferase (PNMT; S-adenosyl-L-methionine:phenylethanolamine N-methyltransferase, EC 2.1.1.28). TH and DBH, not detected in the neural crest, appear almost simultaneously in cells of the thoracic sympathetic ganglia in 11-day-old embryos, and in abdominal and lumbar ganglia 1-2 days later, thereby exhibiting a characteristic rostral-caudal gradient of differentiation. Cells stained for TH and DBH are seen in the gut wall from day 11 to day 14, but not thereafter. Cells stained for TH and DBH appear in the adrenal anlage at day 15. However, PNMT is not detected in the adrenal until day 17 of development, and is present only in the sympathoblasts in contact with the adrenal cortex. Treatment of pregnant rats with dexamethasone failed to accelerate the appearance of PNMT in the embryo or to initiate its expression in cells of other sympathetic organs. We conclude that neural crest cells express a noradrenergic phenotype only after leaving the neural crest and that these cells are labile with respect to their neurotransmitter and are capable of transformation in response to environmental stimuli.
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PMID:Appearance of catecholamine-synthesizing enzymes during development of rat sympathetic nervous system: possible role of tissue environment. 3 53

To define the fate of embryonic neuroblasts in rat gut, which transiently express several noradrenergic traits, we investigated the high-affinity uptake of norepinephrine. At 12.5 days of gestation, these cells exhibited immunoreactivity to tyrosine hydroxylase [tyrosine 3-monoxygenase; L-tyrosine, tetrahydropteridine:oxygen oxidoreductase (3-hydroxylating), EC 1.14.16.2] and endogenous catecholamine fluorescence. However, by 13.5 days these noradrenergic neurotransmitter phenotypic characters essentially disappeared. In contrast, norepinephrine uptake, which was also apparent at 12.5 days, persisted at least through 17.5 days. These observations indicate that norepinephrine uptake develops as an additional noradrenergic characteristic in these cells and persists after the disappearance of other noradrenergic traits. Consequently, neurotransmitter phenotypic characters may be transiently displayed during normal development in vivo.
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PMID:Selective loss of noradrenergic phenotypic characters in neuroblasts of the rat embryo. 4 Dec 48

The oxygen uptakes by pieces of gut from the porcine roundworm, Ascaris suum, under Po2 10 to 710 torr were from 0.6 to 3.0 mul/mg dry wt/hr (Qo2). Increasing concentrations of tissue, 30 to 90 mg (dry wt/3 ml) decreased Qo2 in air from 1.9 to 1.1 and only technical grade catalase was found to relieve this inhibition. Conversely aerobic fermentation, judged by acid production, was directly proportional to the amount of tissue present: the acids from this fermentation were 2-methyl-butyric (1% of the total), succinic (8%), propionic (40%), and acetic (51%). Glucose did not increase Qo2 but it doubled the incorporation of labeled carbon into protein from glycine-1-14C. Judged by this, protein synthesis proceeded at the same rate under low Po2 (0.01 torr) as under air.
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PMID:Intestine of Ascaris: oxygen consumption, fermentation acids, and anaerobic synthesis of protein. 24 80

A specific antibody to tryptophan hydroxylase [L-tryptophan, tetrahydropteridine:oxygen oxidoreductase (5-hydroxylating), EC 1.14.16.4] has been used to localize the enzyme immunohistochemically in neurons of the mammalian gut. The enzyme was found in perikarya of intestinal neurons of mice, rats, and guinea pigs. Neurons containing the enzyme survived for up to 3 weeks in organotypic tissue culture and were intrinsic to the gut. These neurons are probably serotonergic and are the first such neurons to be found in the peripheral nervous system.
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PMID:Serotonergic neurons in the peripheral nervous system: identification in gut by immunohistochemical localization of tryptophan hydroxylase. 33 27

To examine gut-islet interrelationships, we entirely separated the gastrointestinal tract from the rat. When we arterially perfused this preparation with an erythrocyte-free solution for 1 h, it remained histologically intact and took up oxygen and glucose. Feedings were given via a duodenal tube. The gut absorbed glucose when glucose in the feeding was high (9.2 g/dl), but not when glucose in the feeding was low (58 mg/dl). With feeding, the portal venous effluent (PVE) from this preparation (stomach to ileum) enhanced late-phase, glucose-induced insulin secretion from pancreas of another rat. This enhancement occurred when the gut was fed either glucose (9.2 g/dl) in electrolyte solution or electrolyte solution alone. PVE from glucose-fed upper gut (stomach, duodenum) was similarly insulinotropic. In contrast, PVE from unfed gut or from glucose-fed gut of old rats was not insulinotropic. PVE from all gut preparations except upper gut produced a glucagon "spike" during basal pancreatic perfusion. Effects of gastrointestinal peptides (gastric inhibitory polypeptide, cholecystokinin octapeptide, secretin, gastrin) and immunoassays of PVE suggested that the insulinotropic substance is not one of these peptides. Thus, an insulinotropic substance that is not dependent on feeding nutrient material is secreted from the intestine.
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PMID:Secretion of an insulinotropic factor from isolated, perfused rat intestine. 37 52

We compared the effectiveness of three pharmacologically and chemically dissimilar vasodilators (histamine, glucagon, and perhexiline) in reversing the hemodynamic and metabolic deficits of intestinal ischemia produced by hemorrhage. With intraarterial infusion into the superior mesenteric artery of anesthetized control dogs, all three agents increased mesenteric blood flow and oxygen consumption without altering systemic arterial blood pressure. Similarly, in the ischemic gut following moderate hemorrhage all three vasodilators increased mesenteric flow and oxygen consumption while reducing vascular resistance and not affecting systemic arterial blood pressure. On a molar basis glucagon was the most potent dilator drug. In severely hemorrhaged dogs whose intestinal blood flow had been reduced nearly 80%, glucagon restored oxygen uptake and vascular resistance to control levels. These findings demonstrate the efficacy of three different vasodilators in reversing the mesenteric ischemia and hypoxia produced by hemorrhage.
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PMID:Effects of vasodilators on mesenteric ischemia and hypoxia induced by hemorrhage. 49 29

It has been postulated that local circulatory control mechanisms regulate the O2 flux to parenchymal cells by two vascular mechanisms: changes in blood flow that minimize capillary PO2 variations and changes in the density of the perfused capillary bed through which O2 extraction is regulated. To test this prediction, isolated loops of canine jejenum and ileum were perfused at either constant blood flow or constant pressure, and intraluminal glucose was used to increase metabolic rate. In the constant-flow series, glucose increased O2 extraction, O2 uptake, and rubidium extraction. Resistance fell when the metabolic rate was elevated. In the constant-pressure series, glucose increased blood flow, O2 extraction, O2 uptake, and capillary filtration coefficients. These results show that vascular resistance falls and that capillary density increases following an increase in oxygen demand. Thus, the glucose-stimulated gut loop seems to be a valid model of metabolic hyperemia, and its behavior would be difficult to reconcile with a purely myogenic theory of intestinal blood flow autoregulation.
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PMID:Intestinal capillary blood flow during metabolic hyperemia. 51 52


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