Nine sawmill workers were divided into two groups according to their exposure to 2-ethylhexanoic acid, (EHA), a pesticide which has replaced the older pentochlorophenol. The men with lower exposure excreted 30±10 nmol EHA/mmol creatinine (mean ±SD,n=4) in urine samples taken after the workshift, whereas men with higher exposure excreted 1.8±1.6 mol EHA/mmol creatinine (mean±SD,n=5,p<0.01). The urinary ornithine and arginine concentrations were at the lower exposure 1.4±0.4 and 1.5±0.8 mol/mmol creatinine, respectively (mean±SD,n=4), and they increased significantly (p<0.01) to 4.5±2.5 and 3.2±1.5mol/mmol (mean±SD,n=5), respectively, at the higher exposure. This might have been caused by the inhibitory effect of EHA on urea synthesis which was partially compensated for by elevated arginine and ornithine concentrations to drive the urea cycle more efficiently. 相似文献
To investigate the fluxes of cationic amino acids beyond the proximal convolution, we micropunctured and microperfused superficial tubules of male Wistar rats in vivo et situ. In free-flow micropuncture experiments, the concentrations of endogenous L-arginine+, [Arg], and of intravenously infused L-homoarginine+, [HoArg], were determined by HPLC. Fluorescein isothiocyanatelabeled inulin was detected on-line in the same tubular fluid samples. To determine undirectional fluxes, radiolabeled Arg and inulin were (1) microperfused through short loops of Henle and (2) microinfused into different tubule segments to measure urinary recovery of the radiolabel. At a mean [Arg]plasma of 116 mol/l, [Arg] was 9.3 mol/l in the late proximal tubule (LPT), and 35.6 mol/l in the early distal tubule (EDT) corresponding to fractional deliveries (FD) of 0.055 in LPT and 0.078 in EDT. Fractional urinary excretion (FE) of Arg was 0.00033 (P<0.05 vs FDEDT). Infusion of HoArg (2.5 or 7.5 mol/min) led to respective mean [HoArg]plasma values of 1.44 and 3.73 mmol/l, and resulted in respective FDLPT values for HoArg of 0.23 and 0.53, respective FDEDT values of 0.29 and 0.41, and finally, respective FE values for HoArg of 0.25 and 0.58. When short loops of Henle were microperfused with 1 or 50 mmol/l [14C]Arg (+[3H]inulin), fractional recovery (FR) of 14C (relative to inulin) in the EDT was 0.13 and 0.36, respectively. During microinfusion of radiolabeled Arg (1 or 50 mmol/l) and inulin into LPT, the urinary FR of the radiolabel was 0.14, or 0.59, respectively. If 0.007, 1 or 50 mmol/l radiolabeled Arg were microinfused into EDT, the respective urinary FR of the radioactivity was 1.02, 1.10, or 1.01. Microperfusion of microinfusion of 1 mmol/l [14C]Arg plus 50 mmol/l HoArg resulted in a FREDT of 14C of 0.43 (loop, perfusion) and an FE for 14C of 0.69. Five conclusions can be drawn. First, cationic amino acids can enter and leave the lumen of short loops of Henle through specific carrier(s) at high rates, although, secondly, net transport is small or absent. Thus, medullary tubule cells can be supplied with Arg from the lumen of short loops of Henle for urea and nitric oxide production. Thirdly, the distal convolution of superficial nephrons and the collecting duct are not permeable to Arg. Thus, fourthly, the difference between FDEDT and urinary FE of Arg must be explained by an inter-nephron heterogeneity between deep and superficial nephrons. Finally, the process responsible for the different Arg handling in deep nephrons is not accessible to HoArg or, if so, it is saturated at millimolar concentrations. 相似文献
Alveolar macrophages were obtained by broncho-alveolar lavage of isolated rat and rabbit lungs and cultured (2.5 × 106 cells/dish) for 18 h in the absence or presence of bacterial lipopolysaccharides (LPS) alone or in combination with cytokines. Thereafter, accumulation of 3H-citrulline (NO synthase activity) and 3H-ornithine (arginase activity) were determined.During incubation of rat alveolar macrophages with 3H-arginine clear amounts of 3H-citrulline and 3H-ornithine (3.8 and 4.6% of the added 3H-arginine, respectively) were formed and most of these metabolites appeared in the incubation medium (ratios extra-/intracellular of 17 and 70 for 3H-citrulline and 3H-ornithine, respectively). When rat alveolar macrophages had been cultured with LPS the formation of 3H-citrulline was increased about 30-fold and this was accompanied by a reduction in 3H-ornithine formation of about 60%. The effects of LPS were largely attenuated by dexamethasone (10 mol/1). Inhibition of NO synthase by NG-monomethyl-l,-arginine (l-NMMA, 100 mol/1) in LPS treated alveolar macrophages reduced the formation 3H-citrulline by more than 90% and restored the 3H-ornithine formation. After culturing in the presence of LPS the ratios extra/intracellular of 3H-citrulline and 3H-ornithine were markedly enhanced and this effect was not dexamethasone sensitive. During incubation of rabbit alveolar macrophages a marked formation of 3H-ornithine (about 5.3% of the added 3H-arginine), but no significant formation of 3H-citrulline could be detected. Pretreatment with LPS tended to enhance the formation of 3H-ornithine (by 50%) without effects on 3H-citrulline. Rabbit-interferon and/or tumor necrosis factor- present together with LPS during the culture period did not result in a significant 3H-citrulline formation. Under all conditions tested, culture media of rabbit alveolar macrophages did not contain significant amounts of nitrite (less than 0.5 nmol) whereas in culture media of untreated rat alveolar macrophages 22 nmol nitrite (per 18 h) were detected, and LPS induced a 3-fold nitrite accumulation, an effect prevented by dexamethasone.In conclusion, in rabbit alveolar macrophages NO synthase activity was not detectable and could also not be induced by LPS and different cytokines, whereas in rat alveolar macrophages NO synthase was readily inducible. Alveolar macrophages of both species showed marked arginase activity. After induction of marked NO synthase activity, ornithine formation was largely reduced possibly by concomitant inhibition of arginase and/or withdrawn of arginine from arginase. 相似文献
Recent reports have demonstrated improvement in the clinical status and hemoglobin levels with use of intravenous arginine butyrate in patients with homozygous β-thalassemia and sickle cell disease.
To allow optimalization of therapy, we conducted pharmacokinetic studies in nine patients, five with sickle cell disease and four with β-thalassemia, treated with continuous intravenous infusion of arginine butyrate.
The disappearance of the drug after discontinuation was characterized by a biphasic elimination with an initial rapid phase followed by a slower phase. Redistribution was noted in five of the patients after 11.2 ± 4.0 min. The short half life was the result of both rapid clearance rate of 93.6 ± 31.9 ml/kg/min and small Vc (0.21 ± 0.26 l/kg) and Vss (0.31 ± 0.37 l/kg).
While preliminary results of the effectiveness of arginine butyrate are encouraging with a rise of γ-globin mRNA and F reticulocytes in some patients, the rapid elimination of this agent will probably limit its current use to administration by continuous infusion. 相似文献
Noradrenaline (NA) and angiotensin II (A II) were infused intravenously in conscious dogs without (series I) and with (series II) additional infusions of sodium nitroprusside at doses re-establishing normal levels of mean arterial pressure (MAP). In series I, NA infusion (1.6 g/min per kg for 30 min) initially elevated MAP by some 25 mm Hg and lowered heart rate by some 30 beats/min. Plasma concentrations of arginine vasopressin (AVP) remained constant, while those of A II and atrial natriuretic factor were slightly, but significantly, increased. Infusion of A II (10 or 20 ng/min per kg for 30 min) induced similar rises in MAP and slight reductions of heart rate and increased plasma AVP by 70% and atrial natriuretic factor by 60%. In series II, sodium nitroprusside (1–4 g/min per kg) was added for 30 min to infusions of NE (1.6 g/min per kg) and A II (20 ng/min per kg) in order to maintain MAP at its control level. This resulted in an 11-fold increase in plasma AVP during NA infusion and a 19-fold increase during A II infusion. Infusing sodium nitroprusside (4 g/min per kg) alone lowered MAP to clearly hypotensive levels, but the resulting rises in plasma AVP were less than, rather than equal to, those seen at normotensive MAP levels during the combined infusions of sodium nitroprusside with A II or NA, respectively. It is concluded that both NA and A II exert strong stimulatory actions on AVP release which are, however, counteracted by inhibitory influences arising from the hypertensive effects of NA and A II. 相似文献