FEATURES OF THE INFLUENCE OF S-ETHYL-4-AMINOBENZENE THIOSULFONATE ON SOME BIOCHEMICAL PARAMETERS OF RAT BLOOD UNDER THE CONDITION OF Cr(VI) INTOXICATION
DOI: http://dx.doi.org/10.30970/sbi.1701.701
Abstract
Background. The main pathway of Cr(VI) cytotoxicity is activation of oxidative stress in cells of living organisms, resulting in an imbalance of blood biochemical parameters. Our recent studies indicate that S-ethyl-4-aminobenzenethiosulfonate (ETS), which belongs to thiosulfonate compounds, is able to reduce intensity of Cr(VI)-induced oxidative stress in liver tissue of rats. It is known that oxidative stress induced by Cr(VI) causes liver and kidney tissue damage with a subsequent imbalance of blood biochemical parameters. Therefore, the aim of this study was to evaluate the potential ability of ETS to prevent Cr(VI)-induced disorders of some biochemical blood parameters, which are important biomarkers of Cr(VI) intoxication.
Materials and Methods. The object of the research was the separate biochemical parameters of the blood of rats with Cr(VI)-induced oxidative stress after prior exposure to ETS. Two experimental groups of male Wistar rats were intoxicated once per day intraperitoneally with K2Cr2O7 dissolved in physiological saline solution for 7 or 14 days. Two other experimental groups were pretreated once per day intragastrically with ETS dissolved in oil before the period of 7 or 14-day K2Cr2O7 intoxication. We measured total protein, creatinine and urea level, as well as determined the activity of aminotransferases in the blood plasma of rats.
Results. Intraperitoneal injection of K2Cr2O7 (dissolved in physiological saline solution at a dose of 2.5 mg Cr(VI)/kg body weight) for 7 and 14 days causes a decrease in total protein level and leads to elevation of plasma creatinine level and urea concentration. The activity of blood aminotransferases increases due to Cr(VI) toxicity. The 14-day exposure to ETS (dissolved in oil at a dose 100 mg/kg body weight) prior to the period of Cr(VI) intoxication is characterized by a smaller percentage increase in the level of creatinine, urea and activity of alanine aminotransferase (ALT) in the blood plasma of rats.
Conclusion. Cr(VI)-induced toxicity causes an imbalance in biochemical blood parameters. Cr(VI) induces a total protein decrease and leads to an increase in the level of the studied biochemical parameters of blood plasma, which are markers of damage to the liver (aminotransferases) and kidneys (creatinine, urea). In contrast, exposure to ETS for 14 days prior to the period of Cr(VI) intoxication causes percentage decrease in creatinine, urea accumulation and percentage reduction of ALT hyper-activation in the blood of rats. However, the levels of creatinine, urea and ALT activity in this case remained significantly higher than those in the control group. In conclusion, pretreatment with ETS (100 mg/kg) for 2 weeks helps to reduce the level of Cr(VI)-induced disturbances of some blood biochemical parameters, but does not normalize them.
Keywords
Full Text:
PDFReferences
| Abdel-Daim, M. M., Abushouk, A. I., Donia, T., Alarifi, S., Alkahtani, S., Aleya, L., & Bungau, S. G. (2019). The nephroprotective effects of allicin and ascorbic acid against cisplatin-induced toxicity in rats. Environmental Science and Pollution Research, 26(13), 13502-13509. doi:10.1007/s11356-019-04780-4 Crossref ● PubMed ● Google Scholar | ||||
| ||||
| Boşgelmez, İ. İ. (2021). An overview on the potential mechanisms of action of N-acetyl-L-cysteine in hexavalent chromium-induced toxicity. Toxicology, 397-408. doi:10.1016/b978-0-12-819092-0.00039-x Crossref ● Google Scholar | ||||
| ||||
| Buchko, O., Havryliak, V., Pylypets, A., & Buchko, T. (2021). Effect of food supplement of humic origin on the hematological and biochemical parameters in the Cr(VI) exposed rats. Journal of Research in Pharmacy, 25(3), 271-276. doi:10.29228/jrp.17 Crossref ● Google Scholar | ||||
| ||||
| DesMarias, T. L., & Costa, M. (2019). Mechanisms of chromium-induced toxicity. Current Opinion in Toxicology, 14, 1-7. doi:10.1016/j.cotox.2019.05.003 Crossref ● PubMed ● PMC ● Google Scholar | ||||
| ||||
| Estévez-Carmona, M. M., Salazar-Gómez, A., Pablo-Pérez, S. S., Enríquez, R. G., & Meléndez-Camargo, M. E. (2020). Time course of the protective effect of decoction of Selaginella lepidophylla in chromium VI-induced nephrotoxicity in rats. Revista Brasileira de Farmacognosia, 30(6), 854-858. doi:10.1007/s43450-020-00113-6 Crossref ● Google Scholar | ||||
| ||||
| Hassan, M., Abd-Elwahab, W., Megahed, R., & Mohammed, A. (2019). An evaluation of hepatotoxicity, nephrotoxicity, and genotoxicity induced by acute toxicity of hexavalent chromium and comparison of the possible protective role of selenium and vitamin E on these effects. Ain Shams Journal of Forensic Medicine and Clinical Toxicology, 33(2), 48-58. doi:10.21608/ajfm.2019.36574 Crossref ● Google Scholar | ||||
| ||||
| Kandpal, V., Kumar, D., & Bisht, R. (2019). Protective effect of vitamin E on haematological parameters in chronic toxicity of hexavalent chromium in laboratory chicks. Journal of Drug Delivery and Therapeutics, 9(3), 388-392. Google Scholar | ||||
| ||||
| Kayode, A. A., Kayode, O. T., Obaseki, A. I., Alabi, G. O., Hlangothi, B., & Ogunlaja, S. A. (2022). Therapeutic role of leaf pulp of Carpobrotus edulis on chromium VI induced toxicity in Wistar rats. Letters in Applied NanoBioScience, 11(3), 3887-3896. doi:10.33263/lianbs113.38873896 Crossref ● Google Scholar | ||||
| ||||
| Kotyk, B. І., Iskra, R. Ya., Slivinska, O. M., Liubas, N. M., Pylypets, A. Z., Lubenets, V. I., & Pryimych, V. I. (2020). Effects of ethylthiosulfanylate and chromium (VI) on the state of pro/antioxidant system in rat liver. The Ukrainian Biochemical Journal, 92(5), 78-89. doi:10.15407/ubj92.05.078 Crossref ● Google Scholar | ||||
| ||||
| Liubas, N., Iskra, R., Stadnytska, N., Monka, N., Havryliak, V., & Lubenets, V. (2022). Antioxidant activity of thiosulfonate compounds in experiments in vitro and in vivo. Biointerface Research in Applied Chemistry, 12(3), 3106-3116. doi:10.33263/briac123.31063116 Crossref ● Google Scholar | ||||
| ||||
| Lowry, O. H., Rosebrough, N. J., Farr, A. L., & Randall, R. J. (1951). Protein measurement with the Folin phenol reagent. Journal of Biological Chemistry, 193(1), 265-275. doi:10.1016/s0021-9258(19)52451-6 Crossref ● PubMed ● Google Scholar | ||||
| ||||
| Lubenets, V. I., Havryliak, V. V., Pylypets, A. Z., & Nakonechna, A. V. (2018). Changes in the spectrum of proteins and phospholipids in tissues of rats exposed to thiosulfonates. Regulatory Mechanisms in Biosystems, 9(4), 495-500. doi:10.15421/021874 Crossref ● Google Scholar | ||||
| ||||
| Ma, Y., Li, S., Tang, S., Ye, S., Liang, N., Liang, Y., & Xiao, F. (2022). Clusterin protects against Cr(VI)-induced oxidative stress-associated hepatotoxicity by mediating the Akt-Keap1-Nrf2 signaling pathway. Environmental Science and Pollution Research, 29(34), 52289-52301. doi:10.1007/s11356-022-19118-w Crossref ● PubMed ● Google Scholar | ||||
| ||||
| Orabi, S. H., & Shawky, S. M. (2020). Ameliorative effects of grape seed oil on chromium-induced nephrotoxicity and oxidative stress in rats. Slovenian Veterinary Research, 57(3), 123-131. doi:10.26873/svr-967-2020 Crossref ● Google Scholar | ||||
| ||||
| Saidi, M., Aouacheri, O., Saka, S., Tebboub, I., & Ailane, L. (2019). Nephron-protective effects of curcuma on oxidative damage and oxidative stress in rat under sub-chronic poisoning of chromium. International Network for Natural Sciences, 15(1), 241-250. Google Scholar | ||||
| ||||
| Samra, Y. A., Hamed, M. F., & El-Sheakh, A. R. (2020). Hepatoprotective effect of allicin against acetaminophen-induced liver injury: role of inflammasome pathway, apoptosis, and liver regeneration. Journal of Biochemical and Molecular Toxicology, 34(5), e22470. doi:10.1002/jbt.22470 Crossref ● Google Scholar | ||||
| ||||
| Wise, J. P., Young, J. L., Cai, J., & Cai, L. (2022). Current understanding of hexavalent chromium [Cr(VI)] neurotoxicity and new perspectives. Environment International, 158, e106877. doi:10.1016/j.envint.2021.106877 Crossref ● PubMed ● PMC ● Google Scholar | ||||
| ||||
| Zheng, X., Li, S., Li, J., Lv, Y., Wang, X., Wu, P., Yang, Q., Tang, Y., Liu, Y., & Zhang, Z. (2020). Hexavalent chromium induces renal apoptosis and autophagy via disordering the balance of mitochondrial dynamics in rats. Ecotoxicology and Environmental Safety, 204, 111061. doi:10.1016/j.ecoenv.2020.111061 Crossref ● PubMed ● Google Scholar | ||||
Refbacks
- There are currently no refbacks.
Copyright (c) 2023 B. I. Kotyk, R. Ya. Iskra, V. M. Merlavsky
This work is licensed under a Creative Commons Attribution 4.0 International License.