Dietary supplementation with cysteine prevents adverse metabolic outcomes of repeated cures with paracetamol in old rats (original) (raw)
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Journal of physiology and pharmacology : an official journal of the Polish Physiological Society, 2014
The use of glutathione (GSH) and sulfate for the detoxification of paracetamol (acetaminophen, APAP) could occur at the expense of the physiological uses of cysteine (Cys). Indeed GSH and sulfate both originate from Cys. Significant APAP-induced Cys loss could generate alterations in GSH and protein metabolisms leading to muscle wasting. The study aimed to investigate the effects of chronic treatment with APAP on whole-body and tissue homeostasis (mass, GSH, proteins, and nitrogen balance) in relation to sulfur losses through APAP-detoxification pathways. Adult male Wistar rats were fed 0% APAP, 0.5% APAP or 1% APAP diets for 17 days. APAP doses were respectively around and largely above the threshold of sulfation saturation for rats. During the last days, the rats were placed in metabolic cages in order to quantify N balance and urinary APAP metabolites. Gastrocnemius muscle mass, protein and GSH contents, N balance and plasma free cyst(e)ine were 8% (P=0.02), 7% (P=0.03), 26% (P=0...
AGE, 2012
Sulfur amino acids are determinant for the detoxification of paracetamol (N-acetyl-p-aminophenol) through sulfate and glutathione conjugations. Long-term paracetamol treatment is common in the elderly, despite a potential cysteine/glutathione defi-ciency. Detoxification could occur at the expense of anti-oxidative defenses and whole body protein stores in elderly. We tested how older persons satisfy the extra demand in sulfur amino acids induced by longterm paracetamol treatment, focusing on metabolic and nutritional aspects. Effects of 3 g/day paracetamol for 14 days on fasting blood glutathione, plasma amino acids and sulfate, urinary paracetamol metabolites, and urinary metabolomic were studied in independently living older persons (five women, five men, mean (±SEM) age 74±1 years). Dietary intakes were recorded before and at the end of the treatment and ingested sulfur amino acids were evaluated. Fasting blood glutathione, plasma amino acids, and sulfate were unchanged. Urinary nitrogen excretion supported a preservation of whole body proteins, but large-scale urinary metabolomic analysis revealed an oxidation of some sulfur-containing compounds. Dietary protein intake was 13% higher at the end than before paracetamol treatment. Final sulfur amino acid intake reached 37 mg/kg/day. The increase in sulfur amino acid intake corresponded to half of the sulfur excreted in urinary paracetamol conjugates. In conclusion, older persons accommodated to long-term paracetamol treatment by increasing dietary protein intake without any mobilization of body proteins, but with decreased anti-oxidative defenses. The extra demand in sulfur amino acids led to a consumption far above the corresponding population-safe recommendation.
Biochemical Pharmacology, 1986
The effect of paracetamol-N-acetyl-DL-methionate (PAM) in preventing paracetamol-induced hepatic glutathione (GSH) depletion and hepatic cell damage assessed by plasma ALAT level, was compared to those of concomitantly administered paracetamol and N-acetyl+cysteine (NAC) or Nacetyl-DL-methionine (NAM) and paracetamol 400 mg/kg (P) alone. PAM, NAM and NAC reduced hepatic GSH depletion compared to P. The concomitant administration of GSH precursors in either form apparently maintained hepatic cell integrity as evaluated by plasma ALAT compared to predose and 16 hr control measurements. No statistically significant difference between PAM, NAM and NAC was observed. In group P a statistically significant, but transitory, rise in plasma ALAT level following dosage was seen. NAC was more effective than PAM and NAM in the prevention of GSH depletion 1 hr after dosing but was less effective in promoting de nova GSH synthesis towards 16 hr. There was no statistically significant difference between PAM&d NAM with respect to effect on GSH depletion or heoatic cell integrity. PAM and NAM increased the GSH level sienificantlv above control level 16 hr after *dosing. PAM is-rapidly cleaved to paracetamol and methio&te folio-ting dosage as shown by the observed plasma paracetamol level. PAM compares favourably in hepatoprophylactic effect, to concomitant administration of equimolar doses of free N-acetyl-DL-methionine added to the paracetamol formulation.
The Journal of nutrition, 2002
In liver, cysteine dioxygenase (CDO), cysteinesulfinate decarboxylase (CSD), and gamma-glutamylcysteine synthetase (GCS) play important regulatory roles in the metabolism of cysteine to sulfate, taurine and glutathione. Because glutathione is released by the liver and degraded by peripheral tissues that express gamma-glutamyl transpeptidase, some peripheral tissues may be exposed to relatively high concentrations of cysteine. Rats were fed diets that contained low, moderate or high concentrations of protein or supplemental cysteine or methionine for 2 wk, and CDO, CSD and GCS activities, concentrations and mRNA levels and the concentrations of cysteine, taurine and glutathione were measured in liver, kidney, lung and brain. All three enzymes in liver responded to the differences in dietary protein or sulfur amino acid levels, but only CSD in kidney and none of the three enzymes in lung and brain responded. Renal CSD activity was twice as much in rats fed the low protein diet as in r...
Oral amino acid supplementation counteracts age-induced sarcopenia in elderly rats
The American journal of …, 2008
We investigated the effects of a specific mixture of amino acid (AA) supplements on the adaptation changes induced by aging in the soleus muscle of rats. Male Wistar rats were divided into 3 groups (n ؍ 5 each): young control (YO), 3 months of age; elderly control (EL), 18 months of age; and elderly orally supplemented with an AA mixture (EL-AA), 18 months of age, given as 0.1 g/kg per day in drinking water for 8 weeks. Myosin heavy chain (MHC) composition was analyzed in all muscles. The total fiber number and fiber cross-sectional area of types 1 and 2A fibers were also measured in immunostained sections of the soleus muscle. The ratios between the sarcomere volume (V sar ) and the total volume (V tot ) and single muscle fibers were studied by electron microscopy. The expression of total and phosphorylated serine/ threonine protein kinase mammalian target of rapamycin (mTOR), a potent regulator of messenger RNA translation initiation, was also determined in all groups. Aging was associated with an overall shift toward the expression of a slower MHC phenotype, atrophy of fast and slow fibers, a significant decrease in V tot /V sar , and no changes in total fiber number. AA supplementation antagonized the effects of aging. A shift toward the expression of faster MHC isoforms was observed. Fiber atrophy appeared to be partly counteracted by the AA supplements; we noted an increase in cross-sectional area fibers and V tot /V sar in EL-AAs. Total and phosphorylated mTOR expression appeared to decrease in EL and was restored by the AA supplements. Collectively, these results suggest that aging-induced muscle adaptations can be partly restored by AA supplementation. An mTOR signal pathway may mediate the effects on fiber trophism.
The Journal of Nutritional Biochemistry, 2002
Protein malnutrition (PM) is a major health problem in the world. PM compromises antioxidant defense in the body. In particular, PM decreases tissue glutathione (GSH) levels. A high protein diet was found to restore tissue GSH levels in animal studies, however it is not recommended for the early phase of PM rehabilitation. Therefore, using dietary supplementation to restore tissue GSH without giving a high protein diet may be an adjunct therapy that helps improve antioxidant status during the early rehabilitation of PM. In this study, we systematically compared the efficacy of dietary supplementation of four cysteine prodrugs: N-acetylcysteine, L-2-oxo-4-thiazolidinecarboxylate, methionine, and GSH, on tissue GSH in mice fed a protein-deficient (0.5%) diet. Results showed that dietary supplementation of cysteine prodrugs to PM mice restored GSH levels in liver, lung, heart and spleen, but not in colon. GSH and GSSG levels in brain and kidney were not affected by cysteine prodrug or PM. Supplementation also restored the redox status in liver and heart (based on GSH/GSSG), and in liver and spleen (based on GSSG/2GSH reduction potential). This suggests that the restoration of GSH levels and redox status by cysteine prodrugs are tissue-specific, and that the two indicators of redox status are not always interchangeable. However, all four prodrugs exhibited similar GSH-enhancing capacities, showing no prodrug-specificity as seen in cell culture studies. In conclusion, this study provided information that may be useful in a clinical setting where a short-term oral supplementation of cysteine prodrugs is necessary for the early rehabilitation of PM patients.
The American Journal of Cardiology, 2008
Sarcopenia is an inevitable age-related degenerative process chiefly characterized by decreased synthesis of muscle proteins and impaired mitochondrial function, leading to progressive loss of muscle mass. Here, we sought to probe whether long-term administration of oral amino acids (AAs) can increase protein and adenosine triphosphate (ATP) content in the gastrocnemius muscle of aged rats, enhancing functional performance. To this end, 6-and 24-month-old male Fisher 344 rats were divided into 3 groups: group A (6-month-old rats) and group B (24-month-old rats) were used as adult and senescent control group, respectively, while group C (24-month-old rats) was used as senescent treated group and underwent 1-month oral treatment with a mixture of mainly essential AAs. Untreated senescent animals exhibited a 30% reduction in total and fractional protein content, as well as a 50% reduction in ATP content and production, compared with adult control rats (p <0.001). Long-term supplementation with mixed AAs significantly improved protein and high-energy phosphate content, as well as the rate of mitochondrial ATP production, conforming their values to those of adult control animals (p <0.001). The improved availability of protein and high-energy substrates in the gastrocnemius muscle of treated aged rats paralleled a significant enhancement in functional performance assessed by swim test, with dramatic elongation of maximal exertion times compared with untreated senescent rats (p <0.001). In line with these findings, we observed that, after 6 hours of rest following exhaustive swimming, the recovery in mitochondrial ATP content was ϳ70% in adult control rats, ϳ60% in senescent control rats, and normalized in treated rats as compared with animals of the same age unexposed to maximal exertion (p <0.001). In conclusion, nutritional supplementation with oral AAs improved protein and energy profiles in the gastrocnemius of treated rats, enhancing functional performance and accelerating high-energy phosphate recovery after exhaustive exertion. © 2008 Elsevier Inc. All rights reserved.
Biochemical and Biophysical Research Communications, 2013
Aging is the inevitable fate of life which leads to the gradual loss of functions of different organs and organelles of all living organisms. The liver is no exception. Oxidative damage to proteins and other macromolecules is widely believed to be the primary cause of aging. One form of oxidative damage is tyrosine nitration of proteins, resulting in the potential loss of their functions. In this study, the effect of age on the nitration of tyrosine in mouse liver proteins was examined. Liver proteins from young (19-22 weeks) and old (24 months) C57/BL6 male mice were separated using sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and electroblotted onto nitrocellulose membranes. Proteins undergoing tyrosine nitration were identified using anti-nitrotyrosine antibody. Three different protein bands were found to contain significantly increased levels of nitrotyrosine in old mice (Wilconxon rank-sum test, p < 0.05). Electrospray ionization liquid chromatography tandem mass spectrometry (ESI-LC-MS/MS) was used to identify the proteins in these bands, which included aldehyde dehydrogenase 2, Aldehyde dehydrogenase family 1, subfamily A1, ATP synthase, H + transporting, mitochondrial F1 complex, b subunit, selenium-binding protein 2, and protein disulfide-isomerase precursor. The possible impairment of their functions can lead to altered hepatic activity and have been discussed.
Advancing age and other factors influencing the balance between amino acid requirements and toxicity
The Journal of nutrition, 2004
As the average human lifespan increases, so does the recognition that advancing age is associated with changes in nutrient intake and requirements as a consequence of biological, social, and pathological factors. Studies show that whereas protein requirements may not differ significantly between younger and older adults, the adaptive mechanisms and responses to nutritional or pathological stressors may differ and alter the balance between requirement and toxicity of specific amino acids (AAs). As an individual gets older, cardiovascular disease and cancer become the leading causes of morbidity and mortality. Advancing age is also associated with changes in appetite, food intake, and physical activity, all of which can influence protein and AA metabolism. The sulfur amino acids (SAAs) methionine and cysteine recently attracted attention because of their pivotal roles in methyl group metabolism and maintenance of the cellular redox state. Methionine, an indispensable AA, is important ...