R. Dietrich scite author profile

R. Dietrich

5Publications

39Citation Statements Received

86Citation Statements Given

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Affiliations

University of California, Davis, Heidelberg University

Publications

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Effect of acute metabolic acidosis on ammonia metabolism in kidney

Bogusky

Dietrich

1989

American Journal of Physiology-Renal Physiology

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To understand the mechanisms that initiate the increase in ammonia formation during acute acidosis in kidney [amino-15N]- and [amino-15N]glutamine were used as substrates in isolated perfused rat kidney experiments. Perfused kidneys from methionine sulfoximine-treated rats take up glutamine nitrogen at the rate of 1.50 +/- 0.08 mumol.g kidney-1.min-1 while forming ammonia at a rate of 0.65 +/- 0.09 mumol.g.kidney-1.min-1. Mass spectrometer analysis of the perfusate and urine reveals that ammonia is formed from the amide nitrogen of glutamine at the rate of 0.32 +/- 0.06 mumol.g kidney-1.min-1 and ammonia is formed from glutamate derived from glutamine at the rate of 0.21 +/- 0.04 mumol.g kidney-1.min-1. The balance of the ammonia formed is from unidentified endogenous sources. Addition of HCl to the perfusate to lower perfusate pH increases ammonia formation to 1.09 +/- 0.10 mumol.g kidney-1.min-1. The results exclude a role for the purine nucleotide cycle during acute acidosis and confirm that ammonia formation from glutamate derived from glutamine is via glutamate dehydrogenase. Lowering perfusate pH increases the rate of glutamine deamidation significantly by 0.33 +/- 0.06 mumol.g kidney-1.min-1 and increases the rate of ammonia formation via glutamate dehydrogenase insignificantly by only 0.08 +/- 0.04 mumol.g kidney-1.min-1, whereas ammonia formation from endogenous sources remains unchanged. The results demonstrate that regulation of glutamine deamidation is an important controlling step in ammonia formation during acute metabolic acidosis in kidney.

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The Cardiovascular Effects of Neuropeptide Y (NPY)

Petty

Dietrich

Lang

1984

Clinical and Experimental Hypertension. Part A: Theory and Prac

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NPY (1ng-10/micrograms) had no effect on mean arterial pressure (MAP) or heart rate (HR) when administered into the lateral brain ventricle or cisterna magna of conscious, chronically instrumented normotensive, male Wistar rats. However upon intravenous injection (0.1-5/micrograms) it produced a dose related pressor response accompanied by bradycardia. This pressor effect was not influenced by prazosin infusion (100 micrograms/kg/min). These results suggest that NPY has no direct role in central cardiovascular regulation, but peripherally is a very potent vasoconstrictor peptide.

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Concentrations of retinol, 3,4‐didehydroretinol, and retinyl esters in plasma of free‐ranging birds of prey

Müller

Raila

Altenkamp

et al. 2011

Animal Physiology Nutrition

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This study investigated vitamin A compounds in the plasma of healthy free-ranging Central European raptors with different feeding strategies. Plasma samples of nestlings of white-tailed sea eagle [white-tailed sea eagle (WTSE), Haliaeetus albicilla) (n = 32), osprey (Pandion haliaetus) (n = 39), northern goshawk (Accipiter gentilis) (n = 25), common buzzard (Buteo buteo) (n = 31), and honey buzzard (Pernis apivorus) (n = 18) and adults of WTSE (n = 10), osprey (n = 31), and northern goshawk (n = 45) were investigated with reversed-phase-high-performance liquid chromatography (RP-HPLC). In WTSE, northern goshawks and common buzzards retinol were the main plasma component of vitamin A, whilst in ospreys and honey buzzards, 3,4-didehydroretinol predominated. The median of the retinol plasma concentration in the nestlings group ranged from 0.12 to 3.80 μm and in the adult group from 0.15 to 6.13 μm. Median plasma concentrations of 3,4-didehydroretinol in nestlings ranged from 0.06 to 3.55 μm. In adults, northern goshawks had the lowest plasma concentration of 3,4-didehydroretinol followed by WTSE and ospreys. The plasma of all investigated species contained retinyl esters (palmitate, oleate, and stearate). The results show considerable species-specific differences in the vitamin A plasma concentrations that might be caused by different nutrition strategies.

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Formation of gluconeogenic precursors in rat skeletal muscle during fasted-refed transition

Goodman

Dietrich

Luu

1990

American Journal of Physiology-Endocrinology and Metabolism

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During the fasted-refed transition, hepatic glycogen repletion from glucose can occur by the direct and indirect pathway. In the indirect pathway, glucose is first metabolized to 3-carbon intermediates that then are converted in the liver to glucose 6-phosphate via the gluconeogenic pathway before conversion to glycogen. The present study evaluated whether skeletal muscle is a major source of 3-carbon intermediates (i.e., lactate, pyruvate, and alanine) during refeeding of 1-day fasted rats. Arteriovenous differences for lactate, pyruvate, and alanine across the anesthetized rat hindlimbs were used to evaluate muscle metabolism in the fed, fasted, and refed state. In the fasted state, liver glycogen was depleted, and muscle released 3-carbon intermediates. One hour after refeeding, hepatic glycogen was 30% repleted, and blood lactate, pyruvate, and alanine increased. Despite this, the release of alanine by muscle diminished at this time and lactate was removed. At 4 h after refeeding, 3-carbon intermediates were all released by hindlimb tissue but in an amount not greater than in the fasted state. Overall, these results suggest that skeletal muscle in the rat is not a major source of 3-carbon precursors for early postprandial hepatic glycogen repletion via the indirect pathway, nor is the rise in 3-carbon intermediates in blood during refeeding caused by their increased output by muscle.

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Plasma concentration of α-tocopherol in different free-ranging birds of prey

et al. 2011

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In this study, we investigated the α-tocopherol plasma concentrations in healthy free-ranging nestlings of the white-tailed sea eagle (Haliaeetus albicilla) (n=32), osprey (Pandion haliaetus) (n=39), northern goshawk (Accipiter gentilis) (n=25), common buzzard (Buteo buteo) (n=31), and honey buzzard (Pernis apivorus) (n=18) as well as of free-ranging adults of the white-tailed sea eagle (n=10), osprey (n=31), and northern goshawk (n=45). α-Tocopherol plasma concentrations were determined by reverse-phase high-performance liquid chromatography. α-Tocopherol plasma concentrations in nestlings of osprey, white-tailed sea eagle, and northern goshawk did not differ significantly amongst the species, but the common buzzard and honey buzzard nestlings had significantly lower α-tocopherol plasma concentrations than nestlings of the other species (both P<0.001). Adult male ospreys and white-tailed sea eagles had significantly higher α-tocopherol concentrations compared to adult females (both P<0.005). Adult ospreys and northern goshawks had significantly higher α-tocopherol plasma concentrations compared to their nestlings (both P< 0.001). In adult female northern goshawks, plasma concentrations of α-tocopherol increased significantly before egg laying (P<0.001). These results demonstrate α-tocopherol plasma concentrations in birds of prey to be species specific and influenced by age and reproductive status.

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R. Dietrich

Effect of acute metabolic acidosis on ammonia metabolism in kidney

The Cardiovascular Effects of Neuropeptide Y (NPY)

Concentrations of retinol, 3,4‐didehydroretinol, and retinyl esters in plasma of free‐ranging birds of prey

Formation of gluconeogenic precursors in rat skeletal muscle during fasted-refed transition

Plasma concentration of α-tocopherol in different free-ranging birds of prey

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