Alterations in liver nucleic acids and nucleotides in arginine deficient rats

Alteration of serum amino acid profiles by dietary adenine supplementation inhibits fatty liver development in rats

Studies on animal models have demonstrated that feeding a low-arginine diet inhibits triacylglycerol (TAG) secretion from the liver, resulting in marked fatty liver development in rats. Here, we first showed that culturing hepatocytes in the medium mimicking the serum amino acid profile of low-arginine diet-fed rats induced TAG accumulation in the cells, indicating that the specific amino acid profile caused TAG accumulation in hepatocytes. Dietary adenine supplementation completely recovered hepatic TAG secretion and abolished hepatic TAG accumulation in rats. A comprehensive non-linear analysis revealed that inhibition of hepatic TAG accumulation by dietary adenine supplementation could be predicted using only serum amino acid concentration data. Comparison of serum amino acid concentrations indicated that histidine, methionine, and branched-chain amino acid (BCAA) concentrations were altered by adenine supplementation. Furthermore, when the serum amino acid profiles of low-arginine diet-fed rats were altered by modifying methionine or BCAA concentrations in their diets, their hepatic TAG accumulation was abolished. Altogether, these results suggest that an increase in methionine and BCAA levels in the serum in response to dietary arginine deficiency is a key causative factor for hepatic TAG accumulation, and dietary adenine supplementation could disrupt this phenomenon by altering serum amino acid profiles.

A Novel Oxidovanadium (IV)-Orotate Complex as an Alternative Antidiabetic Agent: Synthesis, Characterization, and Biological Assessments

Diabetes is an increasingly common metabolic disorder with high comorbidity and societal and personal costs. Insulin replacement therapy is limited by a lack of oral bioavailability. Recent studies suggest vanadium has therapeutic potential. A newly synthesized complex between oxidovanadium (IV) and orotic acid (OAH₃), [(OAH₁)(VO)(NH₃)₂].3H₂O, was characterized using spectroscopic and thermogravimetric techniques. In vivo potential was assessed in a streptozocin-induced rat model of diabetes. OAH₃ acts as a bidentate ligand in the formation of the dark green, crystalline oxidovanadium (IV) complex in a square pyramidal configuration. Treatment with oxidovanadium (IV)-orotate in vivo significantly improved many biochemical parameters with minimal toxicity and restored pancreatic and hepatic histology. The results of the present work describe a safe, new compound for the treatment of diabetes.

L-arginine intake effect on adenine nucleotide metabolism in rat parenchymal and reproductive tissues

L-arginine is conditionally essetcial amino acid, required for normal cell growth, protein synthesis, ammonia detoxification, tissue growth and general performance, proposed in the treatment of men sterility and prevention of male impotence. The aim of the present paper was to estimate the activity of the enzymes of adenine nucleotide metabolism: 5'-nucleotidase (5'-NU), adenosine deaminase (ADA), AMP deaminase, and xanthine oxidase (XO), during dietary intake of L-arginine for a period of four weeks of male Wistar rats. Adenosine concentration in tissues is maintained by the relative activities of the adenosine-producing enzyme, 5'-NU and the adenosine-degrading enzyme-ADA adenosine deaminase. Dietary L-arginine intake directed adenine nucleotide metabolism in liver, kidney, and testis tissue toward the activation of adenosine production, by increased 5'-NU activity and decreased ADA activity. Stimulation of adenosine accumulation could be of importance in mediating arginine antiatherosclerotic, vasoactive, immunomodulatory, and antioxidant effects. Assuming that the XO activity reflects the rate of purine catabolism in the cell, while the activity of AMP deaminase is of importance in ATP regeneration, reduced activity of XO, together with the increased AMP-deaminase activity, may suggest that adenine nucleotides are presumably directed to the ATP regenerating process during dietary L-arginine intake.

Diagnostic value of urinary orotic acid levels: applicable separation methods

Urinary orotic acid determination is a useful tool for screening hereditary orotic aciduria and for differentiating the hyperammonemia disorders which cannot be readily diagnosed by amino acid chromatography, thus reducing the need for enzyme determination in tissue biopsies. This review provides an overview of metabolic aberrations that may be related to increased orotic acid levels in urine, and summarises published methods for separation, identification and quantitative determination of orotic acid in urine samples. Applications of high-performance liquid chromatography, gas chromatography, and capillary electrophoresis to the analysis of urinary specimens are described. The advantages and limitations of these separation and identification methodologies as well as other less frequently employed techniques are assessed and discussed.

Glutamine and arginine affect Caco-2 cell proliferation by promotion of nucleotide synthesis

OBJECTIVE

We tested our hypothesis that 1) the major effect of Gln is as a nitrogen donor, not an energy source, for nucleotides (NT) and 2) the supplementation of culture medium with arginine (Arg) decreases the flux of glutamine (Gln) for conversion to Arg, thus accelerating NT synthesis.

METHODS

Various concentrations of nucleosides (NS+NT) Gln, and glutamate (Glu) in culture were tested for their effect on Caco-2 cell proliferation. (Arg was tested in media with and without Gln to evaluate the Gln pathway. The incorporation of (15)N from L-[5-(15)N]-Gln into NTs of DNA was measured under different NS + NT and Arg concentrations.)

RESULTS

The proliferation of Caco-2 cells was increased by NS + NT and Gln supplementation, but not by Glu. The effective concentration of NS + NT was 100-fold smaller than that of Gln. An Arg effect was observed only in the presence of Gln. The NT synthesis from Gln, as indicated by (15)N incorporation from L-[5-(15)N]-Gln, was increased by Arg supplementation and decreased by NS + NT supplementation.

CONCLUSION

These results support our hypothesis that the effects of Gln and Arg on Caco-2 cell proliferation are by the promotion of NT synthesis and that the major role of Gln is not energy supply.

The metabolism and urinary excretion of orotic acid in hyperargininaemic sheep

The synthesis, blood plasma turnover and urinary excretion of the orotic acid in normo- and hyperargininaemic sheep was investigated. The whole-body orotate formation was evaluated indirectly by the measurement of urinary orotate excretion after blockage of pyrimidine pathway with 6-azauridine (4 hour i.v. infusion of 0.2 mg.kg-1.min-1). Simultaneous infusion of L-arginine (2.5 mumols.kg-1.min-1) significantly elevated the blood plasma arginine, ornithine and urea level, however, it did not significantly influence urinary orotate excretion. In normoargininaemia blood plasma turnover of exogenous orotic acid amounted to 4.9 min and 67% of this compound was eliminated through the kidneys. The renal clearance of orotic acid amounted to 21.7 ml.min-1.kg-0.75. Hyperargininaemia elevated blood plasma turnover to 8.2 min, and diminished the renal clearance of this metabolite to 13.7 ml.min-1.kg-0.75. These results indicate that hyperargininaemia and hyperornithinaemia do not change the whole body synthesis of orotic acid in sheep but they can affect renal excretion of this metabolite, particularly at the rate of tubular secretion close to saturation.

dUTP pyrophosphatase and uracil-DNA glycosylase in rat liver and hepatomas

1. The activity of dUTP pyrophosphatase (dUTPase) was similar in rat liver and hepatomas of slow or moderate growth rate but was increased several fold in three rapidly growing hepatomas. 2. There was an approx three-fold increase in the activity of uracil-DNA glycosylase in Morris hepatoma 7800 but there was little change in activity in other hepatomas that were examined. 3. The activities of dUTPase and uracil-DNA glycosylase were not significantly affected by two diets that may be promotional for hepatocarcinogenesis, a high orotate diet and an arginine-deficient diet.

Inhibitory effects of orotate on precursor incorporation into nucleic acids

The influence of orotic acid on the incorporation of precursors into nucleic acids was studied in mice and rats and in isolated cells. In vivo, orotate levels were modified by two diets which are known to increase the rate of pyrimidine nucleotide synthesis in rat liver. Of these diets, a 1% orotate diet had greater inhibitory effects than an arginine-deficient diet on the incorporation of [3H]orotate into RNA of mouse kidney than mouse liver. This contrasted with the situation in the rat where there was a greater effect in the liver than the kidney. The situation in the rat was more readily interpreted than in the mouse in terms of previously established effects of these diets on ribonucleotide pool sizes. However, studies using [3H]adenosine as a precursor for incorporation into RNA suggested that even in the mouse the effects of orotate were on pool sizes rather than an inhibitory effect on RNA synthesis. The incorporation of [3H]thymidine into DNA was inhibited by orotate to a similar degree in cultured HTC hepatoma cells and a line of rat liver epithelial cells. An effect on DNA synthesis rather than solely on pool sizes was suggested by the observation that the pool size of dTTP was not increased by 5 mM orotate under conditions in which there was a four-fold increase in the level of UTP in HTC cells. An inhibitory effect of orotate on DNA synthesis was further supported by an observation of decreased incorporation of [3H]deoxyadenosine into DNA and a lower rate of cellular proliferation.

Selective modulation of nucleotide levels in rat liver and hepatomas by high-orotate or arginine-deficient diets and by carbamoylating agents

Transplanted Morris hepatomas in Buffalo-strain rats were found to be resistant to the changes in ribonucleotide levels in rat liver caused by a high-orotate diet or an arginine-deficient diet. The increase in UTP levels and decrease in ATP levels seen in the livers of rats on a 1%-orotate diet were less marked in the livers of BUB- and DBA-strain mice on this diet. Although the changes were less than in rat liver, there was a 2-3-fold increase in UTP concentration in the livers of mice on the high-orotate diet. However, there was a similar response in nucleotide levels in the two species when the animals were maintained on an arginine-deficient diet, and there was a greater than 10-fold increase in the UTP level in the livers of both rats and mice. These diets had much less effect on the levels of deoxyribonucleotides than of ribonucleotides. In contrast to the insensitivity of hepatomas to dietary modulation of nucleotide levels, treatment of hepatoma-bearing rats with carbamoylating agents (sodium cyanate and 2-chloroethyl isocyanate) caused decreases in the levels of nucleotides in the tumors which were generally greater than in host livers. For example, 2-chloroethyl isocyanate depressed ATP levels in the Morris hepatomas 5123C and 20 under conditions in which there was no significant effect on host liver ATP. The data revealed selective modulation of nucleotide levels in normal and neoplastic liver which may be achieved by either dietary modification or drug treatment.

Hepatic uptake of amino acids in late-pregnant rats. Effect of food deprivation

Hepatic availability, uptake and fractional extraction of amino acids were estimated in anaesthetized 21-day-pregnant and age-matched virgin rats, either fed or after 24 h starvation. Amino acid availability was unaltered in fed pregnant rats as compared with fed virgin controls. However, the hepatic uptake of these compounds was higher in the former than in the latter. These adaptations were mediated by an increase in the hepatic capability to take up amino acids in late-pregnant rats, as reflected by the changes found for the fractional extraction rates. The decrease in amino acid availability found after starvation was more pronounced in pregnant than in virgin rats. Nevertheless, the hepatic uptake was similar in both groups. These results indicate that amino acids are not limiting for ureagenesis during late pregnancy, strongly suggesting that the mechanism(s) which modulate urea synthesis may be intracellular in origin.

Orotic acid, arginine, and hepatotoxicity

This communication presents evidence from the literature and recent experiments that describe circumstances wherein arginine may be a conditional dietary essential. Previous work has established that the synthesis of orotic acid (OA), the first pyrimidine formed in the de novo pathway of nucleic acid synthesis, becomes elevated whenever the ammonia load exceeds the capacity of the urea cycle. Under these circumstances, the common intermediate, carbamyl phosphate, leaks from the mitochondria and induces OA synthesis in the cytoplasm. This leads to increased OA excretion in the urine as pyrimidine synthesis escapes feedback control. A deficiency of urea cycle substrates such as arginine, and administration of certain drugs, ammonium salts, urease, or excess amino acids raises orotic acid excretion. Our recent experiments in rats show that OA excretion is also elevated after partial hepatectomy following galactosamine administration, exposure to carbon tetrachloride, or feeding 36% of calories as ethanol. The elevation in OA excretion was suppressed by dietary supplementation with arginine, implying that arginine is conditionally essential. Adult human male alcoholics showed elevated urinary orotic acid-to-creatinine ratios early after drinking episodes, which declined with time following abstinence. Such evidence shows that well studied hepatotoxins and surgical liver injury affect pathways of ammonia metabolism and suggests that urinary orotic acid can be an indicator of hepatotoxicity and increased needs for arginine. Arginine-deficient diets and alcohol feeding both enhance fatty deposition in the liver, which can be worsened by high fat intakes in rats. Alcoholism, various other diseases, and fasting and realimentation change orotic acid excretion. Such responses will have to be taken into account in establishing "normal values" for OA excretion.