AJP - Gastrointestinal and Liver Physiology

Philipps, AF; Carson, BS; Meschia, G; Battaglia, FC

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The relationships between arterial plasma insulin, glucose, and fructose concentrations during the fed and fasted state were studied in seven fetal lambs and their mothers. A significant correlation between insulin and glucose concentration was noted in all fetal lambs and in their mothers. Fetal sensitivity to glucose, as measured by the slopes of the insulin-response curves, was equal to that of the adult although the fetal response was shifted to the left of the maternal. Glucose infusion in four fetal lambs caused significant insulin elevations but no early insulin response (phase I). Maternal fasting caused no alteration in glucose-induced response in the fetus. Similar glucose infusions in newborn and 1-mo-old lambs demonstrated significant early-phase insulin secretion. Basal insulin to glucose ratios were consistent with an adult pattern as early as 3 days after birth.

Duncan, ; Hurley, LS

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This study examined the proposal that a low molecular weight, zinc-binding ligand (ZBL) in certain milks is important for zinc absorption in the neonatal period. Ten-day-old rats, in which intestinal ZBL is absent, fed (by stomach intubation) 65Zn-labeled ZBL from rat milk, absorbed significantly more 65Zn than those fed free 65ZnCl2 or bovine milk fractions. ZBL from human milk appeared to have an intermediate effect, possibly due to species specificity. 65Zn was found in the ZBL fraction in intestinal mucosa of 10-day-old rats fed rat or human milk fractions, but not in those fed bovine milk or free 65ZnCl2. In contrast, in 18-day-old rats, which have an endogenous intestinal ZBL, there were no differences in zinc absorption, and any of the labeled milk fractions or free 65Zn caused localization of 65Zn in the ZBL fraction of intestinal mucosa. These results support the hypothesis that the intestinal ZBL plays a role in zinc absorption and that in the neonatal period before its development the milk ZBL is valuable for this function. This mechanism may be important in normal human infants as well as in acrodermatitis enteropathica patients.

Burns, AH; Reddy, WJ

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The inclusion of plasma levels of the natural amino acids plus 2.5 mM glutamate and 2.5 mM malate (PAAGM) raised the oxygen consumption and glucose oxidation of isolated cardiac myocytes in phosphate buffered saline. The addition of calcium (1.25 mM) and magnesium (0.66 mM) potentiated the stimulatory effect of PAAGM on glucose oxidation and oxygen consumption, PAAGM did not alter the shape of the dose-response curve for glucose oxidation by the isolated cardiac myocyte preparation. It did increase the amount of glucose oxidation at any given media glucose concentration up to 20 mM. PAAGM also increased the rate of lactate oxidation by the isolated cardiac myocyte preparation. PAAGM did not stimulate the oxidation of octanoate unless there was glucose present in the incubation media as well. Measurements of the concentrations of free amino acids indicated higher levels in myocytes incubated in PAAGM than in myocytes incubated in phosphate buffered saline. The data suggest that substrate metabolism by the isolated cardiac myocyte preparation can be influenced by the presence of plasma constituents that would be available to the myocardium in vivo.

Henning, SJ

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A sensitive protein-binding assay has been used to measure plasma concentrations of total corticosterone during postnatal development in the rat. These concentrations were extremely low on days 6--12, showed a significant rise by day 14, and then continued to rise until peaking on day 24. Plasma titers of corticosteroid-binding globulin rose even more dramatically from day 12 onward. Consequently, the percentage of total plasma corticosterone, which was protein-bound, showed a gradual rise from 78% on day 12 to 98% on day 24. Despite this trend, when concentrations of free corticosterone were calculated, they were found to have a developmental profile very similar to that of total corticosterone. Assay of jejunal lactase and sucrase in the same animals that were used for the corticosterone studies showed that the ontogenic rise of both total and free corticosterone preceded the developmental changes in the activities of these enzymes by approximately 2 days. The data suggest that the rise in free corticosterone that begins on day 14 acts as a cue for enzymic changes in both liver and intestine.

Pascaud, XB; Genton, MJ; Bass, P

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An extraluminal strain gage force transducer has been developed for recording gastrointestinal motility in small animals such as rats. Two commercial strain gages are bonded and wires attached to form half a Wheatstone bridge. The device is placed between silicone sheeting and prepared for implantation. As many as six implanted transducers can record simultaneously contractions and tone variations of circular or longitudinal gastrointestinal muscles. The transducers have been implanted in more than 20 rats, with some units lasting up to 4 mo. Furthermore, good relationships exist between intraluminal pressure waves registered by a small intraluminal balloon and gut contractions registered by the transducer. The transducers are a useful and accurate tool for rodent gut motility studies.

Reilly, PE; Chandrasena, LG

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The constant-infusion, isotope-dilution method was used to investigate the interrelationships between the glucose and lactate pools of six trained sheep deprived of food overnight. Arterial plasma lactate concentration was a linear function of the net lactate entry rate as was the net production of glucose from lactate, which suggests that the net rate of formation of glucose from lactate is dependent on the availability of lactate. Similarly the arterial plasma glucose concentration was correlated with the net entry rate of glucose as was the net production rate of lactate from glucose, suggesting that the net rate of lactate production from glucose is a function of arterial plasma glucose concentration. The demonstration of these two interrelations between glucose and lactate in normal sheep suggests that, in the absence of external factors producing hormonal or other changes that could cause perturbations of carbohydrate homeostasis, the net rates of conversion of glucose to lactate and of lactate to glucose may be largely determined by the arterial concentrations of glucose and lactate, respectively.

Ledbetter, FH; Kilpatrick, D; Sage, HL; Kirshner, N

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The incorporation of 3Hleucine into chromogranins and into soluble and membrane-bound dopamine beta-hydroxylase (DBH) was studied in isolated perfused adrenal glands. 3Hchromogranins and 3HDBH were quantitatively determined by immunoprecipitation. The amounts of soluble 3HDBH formed were about equal to the amounts of membrane-bound 3HDBH whereas the amounts of 3Hchromogranin were 5- to 20-fold greater than that of soluble 3HDBH. On continuous sucrose density gradients, 3Hchromogranin was unimodally distributed after 2- to 20-h chase periods and accumulated in a vesicle having a lower buoyant density than mature chromaffin vesicles. At 2 h both membrane and soluble 3HDBH were both bimodally distributed whereas after a 20-h chase period the distribution of soluble and membrane 3HDBH was essentially unimodal and paralleled the distribution of 3Hchromogranin. These studies indicate that 3Hchromogranin, soluble 3HDBH, and membrane 3HDBH are synthesized concomitantly, but that each is transported into chromaffin vesicles at different rates.

Walling, MW; Mircheff, AK; Van Os, CH; Wright, EM

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The subcellular distributions of adenylate cyclase and guanylate cyclase were determined for the mature enterocyte from the rat duodenum. Brush-border and basolateral membranes were prepared from isolated cells by an analytical isolation procedure, and multiple linear regression analysis was used to obtain a quantitative estimate of the distribution of recovered cyclase activities between the brush borders and basolateral membranes. Adenylate cyclase was largely confined to the basolateral surface of the epithelium, whereas guanylate cyclase was found on the brush-border and basolateral membrane fractions in the ratio 2.4:1. There was no evidence for the presence of nucleotide cyclases in the cytosol. Guanylate cyclase in both the brush-border and basolateral membranes was stimulated by epinephrine, insulin, and Triton X-100, but not by carbachol. Adenylate cyclase was not influenced by epinephrine, but was markedly stimulated by NaF and vasoactive intestinal peptide. These results are discussed in relation to the effects of hormones on transport across the small intestine.

Gagerman, E; Idahl, LA; Meissner, HP; Taljedal, IB

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Acetylcholine potentiated the glucose-induced insulin release from microdissected mouse islets of Langerhans but had no effect on basal insulin release. Significant potentiation was obtained with 0.1 micron acetylcholine in the presence of 10 micron eserine and with 1 micron or more acetylcholine in the absence of a choline esterase inhibitor. Carbamylcholine, too, potentiated insulin release. Potentiation was blocked by methylatropine, whereas methylatropine alone had no effect on insulin release. Acetylcholine or carbamylcholine (5-500 micron) had no obvious effect on cyclic GMP or cyclic AMP in the islets. In the presence of 11.1 mM D-glucose, the membrane potential of beta-cells oscillated slowly between a polarized silent state of -50 to -55 mV and a depolarized active state of -33 to -39 mV, at which a fast spike activity occurred. Acetylcholine made the potential stay at the plateau and induced a continuous spike activity pattern. Atropine inhibited the electrical effects of acetylcholine but not those of glucose alone. It is suggested that cholinergic potentiation of insulin release is mediated by changes of transmembrane ionic fluxes, probably without the intervention of cyclic GMP or cyclic AMP.

Sehlin, J

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The role of Cl- in the function of pancreatic beta-cells was studied by using islets of noninbred ob/ob mice. 36Cl- was rapidly taken up by islet cells; apparent isotope equilibrium was reached within 30 min. The apparent distribution ratio was 0.50--0.72 in N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid (HEPES) medium and about 1.1 in Krebs-Henseleit medium. Uptake of 36Cl- was inhibited by 2,4-dinitrophenol, increased by ouabain, and not affected by omission of K+, Na+, or Ca2+. D-Glucose increased short-term uptake of 36Cl- but decreased the equilibrium content. Efflux of 36Cl- from prelabeled islets approached first-order kinetics with a half-life of about 5 min, was inhibited by 4-acetamido-4'-isothiocyanato-stilbene-2,2'-disulfonic acid or low temperature, was stimulated by D-glucose, D-mannose, or hydronium ion, and was unaffected by L-glucose or 3-O-methyl-D-glucose; D-manno-heptulose abolished the effect of D-glucose. Insulin secretion in response to D-glucose was reversibly inhibited in Cl- -deficient media. It is suggested that Cl- is nonpassively distributed across the beta-cell plasma membrane. D-Glucose-induced depolarization of beta-cells may partly be mediated by an increase of the Cl- permeability.