GENERATION OF REACTIVE OXYGEN SPECIES IN RAT EPIDIDYMAL SPERMATOZOA AFTER CYCLOPHOSPHAMIDE TREATMENT

Authors

  • Kashmiri Zn Department of Zoology, Dada Ramchand Bakhru Sindhu Mahavidyalaya, Nagpur, Maharashtra, India.
  • Sastry Ms Department of Zoology, Rashtrasant Tukadoji Maharaj Nagpur University, Nagpur, Maharashtra, India.

DOI:

https://doi.org/10.22159/ajpcr.2018.v11i4.24826

Keywords:

Reactive oxygen species, Free radical, Cyclophosphamide, Spermatozoa

Abstract

 Objective: The aim of this study was to examine the effect of an anticancer drug cyclophosphamide (CPA) on generation of reactive oxygen species (ROS) in epididymal spermatozoa of Wistar rat, Rattus norvegicus.

Methods: For this purpose, the rats were injected intraperitoneally with different doses of CPA (5 mg, 15 mg, and 20 mg/Kg BW for 2 weeks).

Results: Treatment resulted into significantly increased level of ROS in CPA-treated groups when compared to the vehicle-treated control group.

Conclusion: The results revealed that CPA has deleterious effect on the sperm morphology and physiology, which is dose and duration dependent and at certain doses cause the production of a number of reactive molecules and free radicals derived from molecular oxygen consequently resulting into adverse effect on the sperm function and hence on reproduction.

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Author Biography

Kashmiri Zn, Department of Zoology, Dada Ramchand Bakhru Sindhu Mahavidyalaya, Nagpur, Maharashtra, India.

Department of Zoology

Assistant Professor

References

Turrens JF. Mitochondrial formation of reactive oxygen species. J Physiol 2003;552:335-44.

Held P. An Introduction to Reactive Oxygen Species Measurement of ROS in Cells, Bio Tek Instrument, Inc.; 2015. Available from: http:// www.biotek.com.

Dontha SA. Review on antioxidant methods. Asian J Pharm Clin Res 2016;Suppl l:14-32.

Baumber J, Sabeur K, Vo A, Ball BA. Reactive oxygen species promote tyrosine phosphorylation and capacitation in equine spermatozoa. Theriogenology 2003;60:1239-47.

Aggarwal D, Sharma M, Singla SK. The role of natural antioxidants as potential therapeutic agent in nephrolithiasis. Asian J Pharm Clin Res 2013; Suppl l:48-53.

O’Flaherty C. Redox regulation of mammalian sperm capacitation. Asian J Androl 2015;17:583-90.

de Lamirande E, O’Flaherty C. Sperm activation: Role of reactive oxygen species and kinases. Biochem Biophys Acta 2008;1784:106-15.

Agarwal A, Makker K, Sharma R. Clinical relevance of oxidative stress in male factor infertility: An update. Am J Reprod Immuno 2008;l59:2- 11.

Agarwal A, Mulgund A, Alshahrani S, Assidi M, Abuzenadah AM, Sharma R, et al. Reactive oxygen species and sperm DNA damage in infertile men presenting with low level leukocytospermia. Reprod Biol Endocrinol 2014a;12:126.

Vaisheva F, Delbes G, Hales BF, Robaire B. Effect of chemotherapeutic agents for non-hodgkin lymphoma, cyclophosphamide, doxorubicin, vincristine, and prednisone (CHOP), on the male rat reproductive system and progeny outcome. J Androl 2007;28:578-87.

Kanth A, Kaur P, Ahmed B, Sharma S. Histological effect of anticancer drug cyclophosphamide (CPA) on testis of rattusrattus. Indo American J Pharma Res 2014;4:2645-9.

Vernet P, Fulton N, Wallace C, Aitken RJ. Analysis of reactive oxygen species generating systems in rat epididymal spermatozoa. Biol Reprod 2001;65:1102-13.

Delgaard P. Introductory Statistics with R. 2nd ed. New York: Springer Verlag; 2008.

Sharma RK, Said T, Agarwal A. Sperm DNA damage and its clinical relevance in assessing reproductive outcome. Asian J Androl 2004;6:139-48.

Agarwal A, Virk G, Ong C, du Plessis S. Effect of oxidative stress on male reproduction. World J Mens Health 2014b;32:1-17.

Kashmiri ZN. Reactive oxygen species and fertility in male. World J Pharm Pharm Sci 2015;4:288-98.

Venkatesh S, Deecaraman M, Kumar R, Shamsi MB, Dada R. Rate of reactive oxygen species in the pathogenesis of mitochondrial DNA (mtDNA) mutations in male infertility. Ind J Med Res 2009;129:127- 37.

de Lamirande E, Gagnon C. Reactive oxygen species and human spermatozoa. II. Depletion of adenosine triphosphate plays an important role in the inhibition of sperm motility. J Androl 1992;13:379-86.

Maneesh M, Jayalekshmi H. Role of reactive oxygen species and antioxidants on pathophysiology of male reproduction. Ind J Clin Biochem 2006;21:80-9.

Das UB, Mallick M, Debnath JM, Ghosh D. Protective effect of ascorbic acid on cyclophosphamide-induced testicular gametogenic and androgenic disorders in male rats. Asian J Androl 2002;4:201-7.

Selvakumar E, Prahalathan C, Sudharsan T, Varalakshmi P. Protective effect of lipoic acid on cyclophosphamide-induced testicular toxicity. Clin Chim Acta 2006;367:114-9.

Tripathi DN, Jena GB. Astaxanthin inhibits cytotoxic and genotoxic effects of cyclophosphamide in mice germ cells. Toxicology 2008;248:96-103.

Rezvanfar M, Sadrkhanlou R, Ahmadi A, Shojaei-Sadee H, Rezvanfar M, Mohammadirad A, et al. Protection of cyclophosphamide-induced toxicity in reproductive tract histology, sperm characteristics, and DNA damage by an herbal source; evidence for role of free-radical toxic stress. Hum Exp Toxicol 2008;27:901-10.

Çaribaşi AO, Türk G, Sönmez M, Sakin F, Ateşşahin A. Toxic effect of Cyclophosphamide on sperm morphology, testicular histology and blood oxidant-antioxidant balance and protective roles of lycopene and ellagic acid. Basic Clin Pharmacol Toxicol 2010;107:730-6.

Baker MA, Aitken RJ. Reactive oxygen species in spermatozoa: Methods for monitoring and significance for the origins of genetic disease and infertility. Reprod Biol Endocrinol 2005;3:67.

Anderson D, Schmid TE, Baumgartner A, Cemeli-Carratala E, Brinkworth MH, Wood JM. Oestrogenic compounds and oxidativestress (in human sperm and lymphocytes in the cometassay. Mutat Res 2003;544:173-8.

Doreswamy K, Shrilatha B, Rajeshkumar T, Muralidhara. Nickel-induced oxidative stress in testis of mice: Evidence of DNA damage and genotoxic effects. J Androl 2004;25:996-1003.

Wu TP, Huang BM, Tsai HC, Lui MC, Liu MY. Effects of nitric oxide on human spermatozoa activity, fertilization and mouse embryonic development. Arch Androl 2004;50:173-9.

Desai N, Sharma R, Makker K, Sabanegh E, Agarwal A. Physiologic and pathologic levels of reactive oxygen species in neat semen of infertile men. Fertil Steril 2009;92:1626-31.

Pasqualotto FF, Sharma RK, Nelson DR, Thomas AJ, Agarwal A. Relationship between oxidative stress, semen characteristics, and clinical diagnosis in men undergoing infertility investigation. Fertil Steril 2000;73:459-64.

Athayde KS, Cocuzza M, Agarwal A, Krajcir N, Lucon AM, Srougi M, et al. Development of normal reference values for seminal reactive oxygen species and their correlation with leukocytes and semen parameters in a fertile population. J Androl 2007;28:613-20.

Dada R, Kumar R, Shamsi MB, Sidhu T, Mitra A, Singh S, et al. Azoospermia factor deletions in varicocele cases with severe oligozoospermia. Ind J Med Sci 2007;61:505-10.

Padron OF, Brackett NL, Sharma RK, Lynne CM, Thomas AJ Jr., Agarwal A, et al. Seminal reactive oxygen species and sperm motility and morphology in men with spinal cord injury. Fertil Steril 1997;67:1115-20.

Henkel R, Ludwig M, Schuppe HC, Diemer T, Schill WB, Weldner W. Chronic pelvic pain syndrome/chronic prostatitis after the acrosome reaction in human spermatozoa. World J Urol 2006;24:39-44.

Henkel R, Maass G, Hajimohammad M, Menkveld R, Stalf T, Villegas J, et al. Urogenital inflammation: Changes of leucocytes and ROS. Andrologia 2003;35:309-13.

Kumar TR, Muralidhara. Induction of oxidative stress by organic hydroperoxides in testis and epididymal sperm of rats in vivo. J Androl 2007;28:77-85.

Esteves SC. Effect of cigarette smoking on levels of seminal oxidative stress in infertile men: A prospective study. Int Braz J Urol 2002;28:484-5.

Kaur F, Sangha GK, Bilaspuri GS. Cyclophosphamide-induced structural and biochemical changes in testis and epididymids of rats. Ind J Exp Biol 1997;35:771-5.

Dada R, Gupta NP, Kucheria K. AZF microdeletions associated with idiopathic and non-idiopathic cases with cryptorchidism and varicocele. Asian J Androl 2002;4:259-63.

Isidori AM, Giannetta E, Lenzi A. Male hypogonadism. Pituitary 2008;11:171-80.

Aitken RJ, Curry BJ. Redox regulation of human sperm function: From the physiological control of sperm capacitation to the etiology of infertility and DNA damage in the germ line. Antioxid Redox Signal 2011;14:367-8

Kashmiri ZN. Toxic Study of an Alkylating agent Cyclophosphamide on the Reproductive System of Male Wistar rat Rattus norvegicus, Ph. D. Thesis Awarded by R.T.M. Nagpur University, Nagpur; 2014. p. 146-50.

Published

01-04-2018

How to Cite

Zn, K., and S. Ms. “GENERATION OF REACTIVE OXYGEN SPECIES IN RAT EPIDIDYMAL SPERMATOZOA AFTER CYCLOPHOSPHAMIDE TREATMENT”. Asian Journal of Pharmaceutical and Clinical Research, vol. 11, no. 4, Apr. 2018, pp. 437-9, doi:10.22159/ajpcr.2018.v11i4.24826.

Issue

Vol 11 Issue 4 April 2018

Section

Original Article(s)

The publication is licensed under CC By and is open access. Copyright is with author and allowed to retain publishing rights without restrictions.

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