Study of the effect of use one dose crack on serum antioxidant enzymes in Rat
Subject Areas :
Veterinary Clinical Pathology
Neda Jalili Tabrizi
1
,
Bahram Amouoghli Tabrizi
2
1 - MSc. Graduate in Biology & Biochemistry, Department of Biology, Faculty of Basic Sciences, Ahar Branch, Islamic Azad University, Ahar, Iran.
2 - Associate Professor, Department of Clinical Science, Faculty of Veterinary Medicine, Tabriz Branch, Islamic Azad University, Tabriz, Iran.
Received: 2020-01-28
Accepted : 2020-03-24
Published : 2020-01-21
Keywords:
Antioxidant,
Rat,
Crack,
Blood serum,
Abstract :
Introduction: Nowadays one of the problems of countries around the world, is the use of drugs, including Crack. Crack, sometimes called rock, is a stimulant derived from cocaine treatment, but in Iran, it is derived from heroin derivatives, and consumption of this type of drug can add up to 3-times. Crack users are at an increased risk of both physical and mental illness and social harm. There is also evidence that they present more psychiatric problems than the general population, in addition to the fact that Crack use and mental disorders are mutually aggravated. The aim of this study was to evaluate the effect of a single dose of Crack for the antioxidant system of swelling in Rats.Material and Methods: Thirty Wistar Rats were selected with a mean weight of 25 ±250 and kept in 5 groups of 6 in a glass aquarium with 12 hours of light and 12 hours of darkness and the same nutritional conditions and free access to water. After acclimation to the Crack medium at a dose of 7.8 mg/kg, it was injected intraperitoneally (IP) in 4 treatment groups. In the control group, only physiological serum was used. The first group received 3 hours, the second group 6 hours, the third group 24 hours and the fourth group 1 week after the injection of the tail vein after anesthesia. In the control group, blood samples were taken on the first day. One sample was used anticoagulant. Then activity of Blood’s Catalase, Glutathione Peroxidase and Super-Oxide Dismutase were measured.Results and Discussion: Crack is first metabolized in the liver. 1% of it is excreted unchanged in the urine. Metabolization is the design of the hydrolytic ester, and the most important metabolites derived from the metabolism of Benzoylecgonine (BE) and other metabolites are: Ecgonine and (EME) Ecgonine Methyl Ester cocaine and its derivatives are clavulanates and its derivatives. Depending on how it is used, it has a degree of purity and dose. Its stimulatory effects include increased activity, increased blood pressure, increased heart rate, and palatability. Other complications include coronary artery spasm, cardiac arrest, bronchospasm, systemic and pulmonary eosinophilic fever, chest pain, difficulty breathing and gingivitis. This drug (Crack-Cocaine) binds to the effective transporter site of amines (serotonin-dopamine-adrenaline light) and prevents their reabsorption into presynaptic neurons. Dopamine is an important neurotransmitter in the brain that induces pleasurable drug behaviors. In other words, the increase in dopamine in the brain will have pleasurable effects.One of the important effects of increased dopamine after drug use especially crack and cocaine is the creation of oxidative conditions. In other words, there is an increase in free radicals after drug use. An increase in this neurotoxicity in the nervous system, and especially in the synaptic cleft, results in an increase in Reactive Oxygen Species (ROS). Free radicals are atoms or molecules that are highly reactive due to the unpaired electrons in the body, causing severe damage to macromolecules including fats, proteins, carbohydrates, and nucleic acids. These substances are cytotoxic, so they can be electronically macromolecules and cause irritation in the cells in order to reach stability. The body has an antioxidant system that can counteract these damaging agents called antioxidants, which can prevent damage by affecting oxidants and neutralizing its electrons. These include vitamins E, C, A, as well as superoxide dismutase, glutathione peroxidase, catalase, etc.Free radicals such as superoxide anion, hydroxide radical, are metals such as iron and copper. Oxygen-free radicals are referred to as Reactive oxygen species (ROS).The reason for the increase in free radicals during drug use, especially crack and cocaine, maybe due to increased levels of neurotransmitters, especially dopamine, which increase the reactive oxygen species. Super-Oxide Dismutase and Catalase have important roles in the protection of lipid peroxidation. Super-Oxide Dismutase has antioxidant role and Catalase plays an important role in detoxification of high concentrations of hydrogen peroxide, which is mainly in erythrocytes.Conclusion: The results showed that the number of antioxidants decreased significantly at 6 and 24 hours after injection (p < /p>
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Amiri, M., Khosravi, A. and Chaman, R. (2010). Drug abuse pattern and high risk behaviors among addicts in Shahroud county of Semnan province, Northeast Iran in 2009. Journal of Research in Health Sciences, 10(2): 104-109.
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Lipaus, I.F.S., Gomes, E.F., Martins, C.W., e Silva, C.M., Pires, R.G.W., et al. (2019). Impairment of spatial working memory and oxidative stress induced by repeated crack cocaine inhalation in rats. Behavioral Brain Research, 359: 910-917.
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Prohaska, J.R. and Ganther, H.E. (1977). Glutathione peroxidase activity of glutathione-S-transferases purified from rat liver. Biochemical and Biophysical Research Communications, 76(2): 437-445.
Saugstad, O.D. (2000). Therapy in free radical disease in the newborn. Current Obstetrics & Gynaecology, 10(2): 103-108.
Scheibmeir, H.D., Christensen, K., Whitaker, S.H., Jegaethesan, J., Clancy, R. and Pierce, J.D. (2005). A review of free radicals and antioxidants for critical care nurses. Intensive and Critical Care Nursing, 21(1): 24-28.
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Woolliams, J.A., Wiener G., Anderson, P.H. and McMurray, C.H. (1983). Variation in the activities of glutathione peroxidase and superoxide dismutase and in the concentration of copper in the blood in various breed crosses of sheep. Research in Veterinary Science, 34(3): 253-256.
Zaparte, A., Viola, T.W., Grassi-Oliveira, R., da Silva Morrone, M., Moreira, J.C. and Bauer, M.E. (2015). Early abstinence of Crack-Cocaine is effective to attenuate oxidative stress and to improve antioxidant defenses. Psychopharmacology, 232(8): 1405-1413.
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Aebi, H. (1984). Catalase in vitro. Methods in Enzymology, Academic Press, pp: 121-126.
Amiri, M., Khosravi, A. and Chaman, R. (2010). Drug abuse pattern and high risk behaviors among addicts in Shahroud county of Semnan province, Northeast Iran in 2009. Journal of Research in Health Sciences, 10(2): 104-109.
Almasi ghidari, A. (2014). Effects of Crack-Cocaine and vitamin C on spatial memory and oxidative stress in male rats for receiving master of animal physiology and biology. A dissertation for obtaining a master's degree in animal biology. Faculty of Natural Sciences, Department of Animal Sciences. [In Persian]
Amouoghli-Tabrizi, B., Khayat-Nori, H., Asadzade, K., Zargarzade, A., Mousavi, Gh., Rezapour kargari, A., et al. (2008). 'Study of the effect of 3, 4 methylenedioxymeth amphetamine (MDMA, Ecstasy) on the serumic levels of urea, creatinine, total protein and albumin in the dog'. Journal of Veterinary Clinical Pathology, 2(5): 43-48. [In Persian]
Amouoghli Tabrizi, B. and Mohajeri, D. (2015). Protective effects of Crocin on experimental hepatic ischemia-reperfusion injury in the Rat. Journal of Veterinary Clinical Pathology, 9(34): 103-116. [In Persian]
Dowling, G.P., McDonough, E.T. and Bost, R.O. (1987). Eve and ecstasy: A report of five deaths associated with the use of MDEA and MDMA. JAMA Clinical Challenge, 257(12): 1615-1617.
Eskandarieh, S., Nikfarjam, A., Tarjoman, T., Nasehi, A., Jafari, F. and Saberi-Zafarghandi, M.B. (2013). Descriptive aspects of injection drug users in Iran’s national harm reduction program by methadone maintenance treatment. Iranian Journal of Public Health, 42(6): 588-593.
Farhoudian, A., Sadeghi, M., Vishteh, H.R.K., Moazen, B., Fekri, M. and Movaghar, A.R. (2014). Component analysis of Iranian crack; a newly abused narcotic substance in Iran. Iranian Journal of Pharmaceutical Research, 13(1): 337-344.
Fatollahzadeh, M. and Amouoghli Tabrizi, B. (2018). The effect of a single dose of crack used by Iranian drug addicts on phagocytosis response of neutrophils in Rats. Journal of Veterinary Clinical Pathology, 12(48): 369-377. [In Persian]
Harvey-Lewis, C., Brisebois, A.D., Yong, H. and Franklin, K.B. (2015). Naloxone-precipitated withdrawal causes an increase in impulsivity in morphine-dependent Rats. Behavioral Pharmacology, 26(3): 326-329.
Huang, D., Ou, B. and Prior, R.L. (2005). The chemistry behind antioxidant capacity assays. Journal of Agricultural and Food Chemistry, 53(6): 1841-1856.
Jansen, K.L. (1999). Ecstasy (MDMA) dependence. Drug and Alcohol Dependence, 53(2): 121-124.
Kraus, R.J. and Ganther, H.E. (1980). Reaction of cyanide with glutathione peroxidase. Biochemical and Biophysical Research Communications, 96(3): 1116-1122.
Karampour Gebchag, Z., Meysam Abtahi Froushani, M. and Farokhi F. (2019). The effect of mucilage extracted from the fruit of Abelmoschus Esculentus on serum glucose and lipid levels and reorganization of beta cells in diabetic rats. Iranian Journal of Diabetes and Metabolism, 18(1): 9-18.
Lipaus, I.F.S., Gomes, E.F., Martins, C.W., e Silva, C.M., Pires, R.G.W., et al. (2019). Impairment of spatial working memory and oxidative stress induced by repeated crack cocaine inhalation in rats. Behavioral Brain Research, 359: 910-917.
Nazeri S., Hedayati, M. and Ahmadvand, H. (2013). The comparison of serum antioxidant capacity and superoxide dismutase and catalase activity of cigarette smokers to nonsmokers. Yafte, 15(3): 70-75. [In Persian]
Pleban, P.A., Munyani, A. and Beachum, J. (1982). Determination of selenium concentration and glutathione peroxidase activity in plasma and erythrocytes. Clinical Chemistry, 28(2): 311-316.
Prohaska, J.R. and Ganther, H.E. (1977). Glutathione peroxidase activity of glutathione-S-transferases purified from rat liver. Biochemical and Biophysical Research Communications, 76(2): 437-445.
Saugstad, O.D. (2000). Therapy in free radical disease in the newborn. Current Obstetrics & Gynaecology, 10(2): 103-108.
Scheibmeir, H.D., Christensen, K., Whitaker, S.H., Jegaethesan, J., Clancy, R. and Pierce, J.D. (2005). A review of free radicals and antioxidants for critical care nurses. Intensive and Critical Care Nursing, 21(1): 24-28.
Vahabzadeh Baroque, F. (2013). Investigation of oxidative stress indices in opium addicts. Ph.D. Thesis, Islamic Azad University, Pharmaceutical Sciences Branch, Faculty of Pharmacy. [In Persian]
Valko, M., Leibfritz, D., Moncol, J., Cronin, M.T., Mazur, M. and Telser, J. (2007). Free radicals and antioxidants in normal physiological functions and human diseases. The International Journal of Biochemistry & Cell Biology, 39(1): 44-84.
Woolliams, J.A., Wiener G., Anderson, P.H. and McMurray, C.H. (1983). Variation in the activities of glutathione peroxidase and superoxide dismutase and in the concentration of copper in the blood in various breed crosses of sheep. Research in Veterinary Science, 34(3): 253-256.
Zaparte, A., Viola, T.W., Grassi-Oliveira, R., da Silva Morrone, M., Moreira, J.C. and Bauer, M.E. (2015). Early abstinence of Crack-Cocaine is effective to attenuate oxidative stress and to improve antioxidant defenses. Psychopharmacology, 232(8): 1405-1413.
