Authors: S. Shalaweh, P. Bouic, F. Weitz, R. Henkel

Abstract:

More than 3000 plants of notable phyto-therapeutic value grow in South Africa; these include Cissampelos capensis, commonly known in Afrikaans as dawidjie or dawidjiewortel. C. capensis is the most significant and popular medicinal plant used by the Khoisan as well as other rural groups in the Western region of South Africa. Its rhizomes are traditionally used to treat male fertility problems. Yet, no studies have investigated the effects of this plant or its extracts on human spermatozoa. Therefore, this study aimed at investigating the effects of C. capensis rhizome extract (CRE) fractions on ejaculated human spermatozoa in vitro. Spermatozoa from a total of 77 semen samples were washed with human tubular fluid medium supplemented with bovine serum albumin (HTF-BSA) and incubated for 2 hours with 20 μg/ml progesterone (P4) followed by incubation with different concentrations (0, 0.05, 0.5, 5, 50, 200 μg/ml) of fractionated CRE (F1=0% MeOH, F2=30% MeOH, F3=60% MeOH and F4=100% MeOH) for 1.5 hours at 37°C. A sample without addition of CRE fractions served as control. Samples were analyzed for sperm motility, reactive oxygen species (ROS), DNA-fragmentation, acrosome reaction and capacitation. Results showed that F1 resulted in significantly higher values for ROS, capacitation and hyper-activation compared to F2, F3, and F4 with P4-stimulated samples generally having higher values. No significant effect was found for the other parameters. In conclusion, alkaloids present in F1 of CRE appear to have triggered sperm intrinsic ROS production leading to sperm capacitation and acrosome reaction induced by P4.

Keywords: Capacitation, acrosome reaction, Cissampelos capensis, DNA fragmentation, ROS.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1107205

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1873

References:

[1] N. E. Skakkebaek, N. Jorgensen, K. M. Main, E. Rajpert-De Meyts, H. Leffers, A. Andersson, A. Juul, E. Carlsen, G. K. Mortensen, T. K. Jensen, J. Toppari, “Human fecundity declining,”Int J Androl, vol. 29, 2006, pp.2-11.
[2] J. R. Sherins, “How is male fertility identified? In: Robaire B., Pryor J. L., Trailer J.M. (eds.), Handbook of Andrology. American Society of Andrology. Allen Press 1995, PP. 48-51.
[3] E. O. Laumann, A. Park and R. C. Rosen, “Sexual Dysfunction in United States, Prevalence & Predictors,” JAMA, no. 6, 1999, pp. 281.
[4] H. G. Tempest, S. T. Homa, E. J. Routledge, A. Garner, X. P. and D. K. Zhai, “Plants used in Chinese medicine for the treatment of male infertility possess antioxidant and antioestrogenic activity,” SystBiolReprod Med,VOL. 54, 2008, PP. 185-195.
[5] J. B. Calixto, “Efficacy, safety, quality control, marketing and regulatory guidelines for herbal medicines (phytotherapeutic agents),”. Braz J Med Biol Res, vol. 33, 2000, pp. 179-189.
[6] R. Yuan, and Y. Lin, “Traditional Chinese medicine: an approach to scientific proof and clinical validation,” Pharmcol Therapeut, vol. 86, 2000, pp. 191-198.
[7] C. K. Christopher and M. T. Ho·Hui, “Rise of Herbal and Traditional Medicine in Erectile Dysfunction management,” CurrUrol Rep, vol. 12, 2011, pp. 470-478.
[8] A. Adimoelja, “Phytochemicals and the breakthrough of traditional herbs in the management of sexual dysfunctions,” Int J Androl, vol. 2, 2000, PP. 82-84.
[9] E. Nocerino, M. Amato and A. A. Izzo, “The aphrodisiac and adaptogenic properties of ginseng,”Fitoterapia, vol. 71, pp. S1–S5.
[10] N. Erasmus, M. C. Solomom, K. A. Fortuin, and R. R. Henkel, “Effect of Eurycomalongifolia Jack (Tongkatali) extract on human spermatozoa in vitro,” Andrologia, vol. 44, 2012, pp. 308-314.
[11] C. Gonzales, J. Leiva-Revilla, J. Rubio, M. Gasco and G. F. Gonzales, “Effect of red maca (Lepidium meyenii) on prostate zinc levels in rats with testosterone-induced prostatic hyperplasia,” Andrologia, vol. 44, 2012, pp. 362-369.
[12] P. F. Moundipa, S. Ngouela, P. Kamtchouing, E. Tsamo, F. M. Tchouanguep and S. Carreau,“Effects of extracts from Hibiscus macranthus and Basella alba mixture on testosterone production in vitro in adult rat testes slices,” Asian J Androl, vol. 8, 2006, pp. 111-114.
[13] F. Lampiao, D. Krom and S. S. du Plessis, “The in vitro effects of Mondia whitei on human sperm motility parameters,” Phytother Res vol. 22, 2008, pp.1272-1273.
[14] J. J. Meyer Marian, C. N. Rakuambo and A. A. Hussen, “Novel xanthones from Securidacalongependunculata with activity against erectile dysfunction,” JEthnopharmacol, vol. 119, 2008, pp. 559-603.
[15] E. E. van Wyk, B. van Oudtshoorn and N. Gericke,“Medicinal Plants of South Africa,” 2nd edition; Briza Publications 2009, Pretoria, South Africa.
[16] B. E. van Wyk and N. Gericke, “People’s Plants. A Guide to the Useful Plants of Southern Africa,” Briza 2000, Pretoria, South Africa.
[17] B. E. Van Wyk, F. R. van Heerden and B. van Oudtshoorn, “Poisonous Plants of South Africa,” Briza Publications 2002, Pretoria, South Africa.
[18] H. De Wet and B. E. van Wyk, “An ethno-botanical survey of southern African Menispermaceae,”S Afr J Bot, vol. 74, 2008, pp. 2-9.
[19] M. J. Watt and M. G. Breyer-Brandwijk, “The medicinal and poisonous plants of southern and eastern Africa,” 2nd edition. Livingston, London.
[20] C. A. Smith “Common names of South African plants,” Memoirs of the botanical survey of South Africa, no. 35, 1966, department of agriculture and technical services.
[21] E. Von Koenen, “Medicinal, Poisonous, and Edible Plants of Namibia,” Klaus Hess Publishers/Verlag, Windhoek 2001, Namibia.
[22] S. M. Shalaweh, N. Erasmus, F. Weitz and R. R. Henkel, “Effect of Cissampelos capensis rhizome extract on human spermatozoa in vitro,” Andrologia, doi: 10.1111/and.12264,2014, pp. 1-10.
[23] R. Henkel, E. Kierspel, M. Hajimohammad, T. Stalf, C. Hoogendijk, C. Mehnert, R. Menkveld, W. Schill and T. F. Kruger, “DNA fragmentation of spermatozoa and assisted reproduction technology,” Reprod Biomed Online, vol. 7,2013, pp. 477-484.
[24] R. Henkel, M. Hajimohammad, T. Stalf, C. Hoogendijk, C. Mehnert, R. Menkveld, H. Gips, W. B. Schill and T. F. Kruger, “Influence of deoxyribonucleic acid damage on fertilization and pregnancy,” FertilSteril, vol. 81, 2004,pp. 965-672.
[25] W. Gorczyca, F. Traganos, H. Jesionowska and Z. Daryznkiewcz, “Presence of strand breaks and increased sensitivity of DNA in situ to denaturation in abnormal human sperm cells: analogy to apoptosis in somatic cells,”Exp Cell Res, vol. 207, 2003, pp. 202-205.
[26] C. M. Green, S. M. Cockle, P. F. Watson and L. R. Fraser, “Fertilization promoting peptide, a tripeptide similar to thyrotrophin-releasing hormone, stimulates the capacitation and fertilizing ability of human spermatozoa in vitro,” Hum Reprod, vol. 11, 1996, pp. 830-836.
[27] WHO, “Global Atlas of Traditional, Complementary and Alternative Medicine,” vol. 1 and 2, World Health Organization 2005, Geneva.
[28] D. S. Fabricant and N. R. Farnsworth, “The value of plants used in traditional medicine for drug discovery,” Environmental health perspectives, vol. 109, 2001, pp. 69.
[29] H. Azaizeh, S. Fulder, K. Khalil and O. Said, “Ethnobotanical knowledge of local Arab practitioners in the Middle Eastern region,” Fitoterapia,vol. 74, 2003, pp. 98-108.
[30] R. A. Halberstein, “Medicinal plants: historical and cross-cultural usage patterns,” Annals of epidemiology, vol. 15, 2005, pp. 686-699.
[31] P. J. Houghton, “The role of plants in traditional medicine and current therapy,” J & C M, vol. 1, 1995, pp. 131-143.
[32] R. Yuan and Y. Lin, “Traditional Chinese medicine: an approach to scientific proof and clinical validation,” Pharmacology & therapeutics, vol. 86, 2000,pp. 191-198.
[33] M. Solomon and R. R. Henkel, “In vivo effects of Eurycomalongifolia Jack (Tongkat Ali) extract on reproductive functions in the rat,”Andrologia, vol. 46 ,2014, pp. 339-348.
[34] H. De Wet, F. R. van Heerden and B. E. van Wyk, “Alkaloidal variation in Cissampeloscapensis (Menispermaceae),” Molecules, vol. 16, 2011, pp. 3001-3009.
[35] E. DeLamirande, P. Leclerc and C. Gagnon, “Capacitation as a regulatory event that primes spermatozoa for the acrosome reaction and fertilization,” Mol. Hum. Reprod, vol. 3, 1997,pp. 175–194.
[36] P. Olds-Clarke, “Unresolved issues in mammalian fertilization,”Int. Rev. Cyt, vol, 232, 2003, pp. 129–184.
[37] C. De Jonge, “Biological basis for human capacitation,” Hum. Reprod, vol. 11, 2005, pp. 205–214.
[38] C. O’Flaherty, E. de Lamirande and C. Gagnon, “Positive role of reactive oxygen species in mammalian sperm capacitation triggering and modulation of phosphorylation events, Free Radic,”Biol. Med, vol. 41, 2006, pp. 528–540.
[39] E. DeLamirande and C. O'Flaherty, “Sperm activation: role of reactive oxygen species and kinases,” Biochim Biophys Acta, vol. 1, 2008, pp. 106-115.
[40] B. Zhao, Y. Chen, X. Sun, M. Zhou, J. Ding, J. J. Zhan andL. J. Guo, “Phenolic alkaloids from Menispermum dauricum rhizome protect against brain ischemia injury via regulation of GLT-1, EAAC1 and ROS generation,” Molecules, vol. 17, 2012, pp. 2725-2737.
[41] W. H. Chiu, S. J. Luo, C.L Chen, J. H. Cheng, C. Y. Hsieh, C. Y. Wang, Huang, W. C. Su and C. F. Lin, “Vinca alkaloids cause aberrant ROSmediated JNK activation, Mcl-1 downregulation, DNA damage, mitochondrial dysfunction, and apoptosis in lung adenocarcinoma cells,” Biochem Pharmacol, vol. 83, 2012,pp. 1159-1171.
[42] H. A. Jung, B. S. Min, T. Yokozawa, J. H. Lee, Y. S. Kim and J. S. Choi, “Anti-Alzheimer and antioxidant activities of Coptidis Rhizoma alkaloids,”Biol Pharm Bull, vol. 32 ,2009,pp. 1433-1438.
[43] Z. Slunska, E. Gelnarova, J. Hammerova, E. Tabrorska and I. Slainova, “Effect of quaternary benzo(c)phenanthridine alkaloids sanguilutine and chelilutine on normal and cancer cells,” Toxicol in vitro, vol. 24, 2010, pp. 697-706.
[44] R. Fayrer-Hosken, A. Stanley, N. Hill, G. Heusner, M. Christian, R. De La Fuente, C. Baumann and L. Jones, “Effect of feeding fescue seed containing ergot alkaloid toxins on stallion spermatogenesis and sperm cells,” ReprodDomestAnim, vol. 47, 2012,pp. 1017-1026.
[45] R. Henkel, E. Kierspel, T. Stalf, C. Mehnert and R. Menkveld, “Effect of reactive oxygen species produced by spermatozoa and leukocytes on sperm functions in non-leukocytospermic patients,”FertilSteril, vol. 83, 2005, pp. 635-642.
[46] J. A. Martinez, A. Bello, L. L. Rubio, C. Rodriguez, L. Galan, E. Caudales and J. L. Alvarez, “Calcium antagonist properties of the bisbenzylisoquinoline alkaloid cycleanine,” FundamClinPharmacol, vol. 12, 1998, pp. 182-187.
[47] D. N. Guedes, J. M. Barbosa-Filho, V. S. Lemos and S. E. Cortes, “Mechanism of the vasodilator effect of 12-O-methylcurine in rat aortic rings,” J Pharm Pharmacol, vol. 54, 2002, pp. 853-858.
[48] B. T. Storey, C. L. Hourani and J. B. Kim, “A transient rise in intracellular Ca2+ is a precursor reaction to the zonapellucida-induced acrosome reaction in mouse sperm and is blocked by the induced acrosome reaction inhibitor 3-quinuclidinyl benzilate,” MolReprodDev, vol. 32, 1992, pp. 41-50.
[49] C. Gagnon and E. de Lamirande, “Controls of sperm motility. In: De Jonge, C, Barratt C (Eds.), The Sperm Cell: Production, Maturation, Fertilization and Regeneration,” Cambridge University Press, 2006, Cambridge, UK, pp. 108–133.
[50] M. C. Chang, “Fertilizing capacity of spermatozoa deposited into the fallopian tubes,” Nature J, vol. 168, 1951, pp. 697-698.
[51] C. R. Austin, “The capacitation of the mammalian sperm,” Nature J, vol. 170, 1952, pp. 326.
[52] H. D. M. Moore and M. A. Akhondi,“Fertilizing capacity of rat spermatozoa Is correlated With Decline in Straight-Line Velocity Measured by Continuous computer-aided sperm analysis: epididymal rat spermatozoa from the proximal cauda have a greater fertilizing capacity in vitro than those from the distal cauda or vas deferens,” J Androl, vol. 17, 1969, pp. 50-60.
[53] R. J. Aitken and K.M. West, “Analysis of the relationship between reactive oxygen species production and leukocyte infiltration in fractions of human semen separated on Percoll gradients,” Int J Androl, vol. 13, 1990, pp. 433-51.
[54] R. J. Aitken, E. Gordon and D. Harkiss, “Negative impact of oxidative stress on the functional competence and genomic integrity of human spermatozoa,” BiolReprod, vol. 59. 1998, pp. 1037-1046.
[55] R. J. Aitken and G. N. De Iuliis, “On the possible origins of DNA damage in human spermatozoa,”Mol Hum Reprod, vol, 16, 2010, pp. 3–13.