Mahdi Zarei scite author profile

Sulfasalazine is a commonly used drug for the treatment of rheumatoid arthritis and inflammatory bowel disease. There are several cases of renal injury encompass sulfasalazine administration in humans. The mechanism of sulfasalazine adverse effects toward kidneys is obscure. Oxidative stress and its consequences seem to play a role in the sulfasalazine-induced renal injury. The current investigation was designed to investigate the effect of sulfasalazine on kidney mitochondria. Rats received sulfasalazine (400 and 600 mg/kg/day, oral) for 14 consecutive days. Afterward, kidney mitochondria were isolated and assessed. Sulfasalazine-induced renal injury was biochemically evident by the increase in serum blood urea nitrogen (BUN), gamma-glutamyl transferase (c-GT), and creatinine (Cr). Histopathological presentations of the kidney in sulfasalazine-treated animals revealed by interstitial inflammation, tubular atrophy, and tissue necrosis. Markers of oxidative stress including an increase in reactive oxygen species (ROS) and lipid peroxidation (LPO), a defect in tissue antioxidant capacity, and glutathione (GSH) depletion were also detected in the kidney of sulfasalazine-treated groups. Decreased mitochondrial succinate dehydrogenase activity (SDA), mitochondrial depolarization, mitochondrial GSH depletion, increase in mitochondrial ROS, LPO, and mitochondrial swelling were also evident in sulfasalazine-treated groups. Current data suggested that oxidative stress and mitochondrial injury might be involved in the mechanism of sulfasalazine-induced renal injury. ARTICLE HISTORY

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Ammonia-induced mitochondrial dysfunction and energy metabolism disturbances in isolated brain and liver mitochondria, and the effect of taurine administration: relevance to hepatic encephalopathy treatment

Niknahad¹,

Jamshidzadeh²,

Heidari³

et al. 2017

ceh

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IntroductionAmmonia-induced oxidative stress, mitochondrial dysfunction, and energy crisis are known as some the major mechanisms of brain injury in hepatic encephalopathy (HE). Hyperammonemia also affects the liver and hepatocytes. Therefore, targeting mitochondria seems to be a therapeutic point of intervention in the treatment of HE. Taurine is an abundant amino acid in the human body. Several biological functions including the mitochondrial protective properties are attributed to this amino acid. The aim of this study is to evaluate the effect of taurine administration on ammonia-induced mitochondrial dysfunction.Material and methodsIsolated mice liver and brain mitochondria were exposed to different concentrations of ammonia (1, 5, 10, and 20 mM) and taurine (1, 5, and 10 mM), and several mitochondrial indices were assessed.ResultsIt was found that ammonia inhibited mitochondrial dehydrogenases activity caused collapse of mitochondrial membrane potential (MMP), induced mitochondrial swelling (MPP), and increased reactive oxygen species (ROS) in isolated liver and brain mitochondria. Furthermore, a significant amount of lipid peroxidation (LPO), along with glutathione (GSH) and ATP depletion, was detected in ammonia exposed mitochondria. Taurine administration (5 and 10 mM) mitigated ammonia-induced mitochondrial dysfunction.ConclusionsThe current investigation demonstrates that taurine is instrumental in preserving brain and liver mitochondrial function in a hyperammonemic environment. The data suggest taurine as a potential protective agent with a therapeutic capability against hepatic encephalopathy and hyperammonemia.

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Carnosine protects brain mitochondria under hyperammonemic conditions: Relevance to hepatic encephalopathy treatment

et al. 2017

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Carnosine ameliorates liver fibrosis and hyperammonemia in cirrhotic rats

Jamshidzadeh

Heidari

Latifpour

et al. 2017

Clinics and Research in Hepatology and Gastroenterology

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Fragmentation functions of the pion, kaon, and proton in the NLO approximation: Laplace transform approach

Zarei

Taghavi-Shahri

Tehrani³

et al. 2015

Phys. Rev. D

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Using repeated Laplace transform, We find an analytical solution for DGLAP evolution equations for extracting the pion, kaon and proton Fragmentation Functions (FFs) at NLO approximation. We also study the symmetry breaking of the sea quarks Fragmentation Functions, D h q (z, Q 2 ) and simply separated them according to their mass ratio. Finally, we calculate the total Fragmentation Functions of these hadrons and compare them with experimental data and those from global fits. Our results show a good agreement with the FFs obtained from global parameterizations as well as with the experimental data.

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Heritable natural variation of light/dark preference in an outbred zebrafish population

Dahlén

Wagle

Zarei

et al. 2019

Journal of Neurogenetics

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Solving a dynamic virtual cell formation problem by linear programming embedded particle swarm optimization algorithm

Rezazadeh

Mahini

Zarei

2011

Applied Soft Computing

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Mahdi Zarei

Taurine treatment preserves brain and liver mitochondrial function in a rat model of fulminant hepatic failure and hyperammonemia

Sulfasalazine induces mitochondrial dysfunction and renal injury

Ammonia-induced mitochondrial dysfunction and energy metabolism disturbances in isolated brain and liver mitochondria, and the effect of taurine administration: relevance to hepatic encephalopathy treatment

Carnosine protects brain mitochondria under hyperammonemic conditions: Relevance to hepatic encephalopathy treatment

Carnosine ameliorates liver fibrosis and hyperammonemia in cirrhotic rats

Fragmentation functions of the pion, kaon, and proton in the NLO approximation: Laplace transform approach

Heritable natural variation of light/dark preference in an outbred zebrafish population

Solving a dynamic virtual cell formation problem by linear programming embedded particle swarm optimization algorithm

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