• Home
  • Protective and Therapeutic Effect of Leech Saliva on Spermatogenesis Parameters and Secretion of LH, FSH and Testosterone Following Busulfan Administration in Male Wistar Rats

Share To

Article Url


Manuscript ID : ASCIJ-2003-1147 (R1) Visit : 358 Page: 61 - 73

Article Type: Original Research

Protective and Therapeutic Effect of Leech Saliva on Spermatogenesis Parameters and Secretion of LH, FSH and Testosterone Following Busulfan Administration in Male Wistar Rats

Subject Areas : Journal of Animal Biology

Tayebeh Sadeghi 1 , Seyed Ebrahim Hosseini 2 , Mohammad Amin Edalatmanesh 3 , Mohamad Khaksari 4

1 - Department of Biology, Shiraz Branch, Islamic Azad University, Shiraz, Iran
2 - Department of Biology, Shiraz Branch, Islamic Azad University, Shiraz, Iran
3 - Department of Biology, Shiraz Branch, Islamic Azad University, Shiraz, Iran
4 - Department of Physiology and Pharmacology, Kerman University of Medical Sciences, Kerman, Iran

Received: 2019-08-11 Accepted : 2020-05-18 Published : 2021-02-19

Keywords: Testosterone, Spermatogenesis, FSH, LH, Busulfan, Leech saliva,

Abstract :

Busulfan disrupts testicular function. Given the importance of the effects of leech saliva in the treatment of various diseases, this study aimed to investigate the effect of leech saliva on spermatogenesis and secretion of LH, FSH and testosterone following administration of busulfan in rats. Experimental 60 male Wistar rats aged 2.5 to 3 months with a weight of 200-220 g were randomly divided into 4 groups of 15 (control, leech saliva, busulfan, and busulfan + leech saliva). The busulfan group received intraperitoneal injection of busulfan at a dose of 10 mg / kg twice daily for 21 days. The leech saliva group received 1000 µg / kg leech saliva after 56 days from the first day of the experiment for 56 days. Subcutaneously injected, and the busulfan + saliva group received 10 mg / kg of busulfan saline at 1000 µg / kg saline, subcutaneously after 35 days of the second day of busulfan administration for 56 days. Five rats in each group were anesthetized on day 14, 28, 56 after injection and blood samples were taken from the heart to measure testosterone, LH, and FSH hormones. Statistical analysis of variance (ANOVA) and t-test were considered significant at P

References:


  1. Abdualkader AM, Ghawi A M, Alaama M, Awang M, Merzouk A. 2013.  Leech therapeutic application. Indian Journal of Pharmaceutical Sciences, 75(2): 127-137.
    2.
  2. Abdualkader A.M., Ghawi A.M., Alaama M., Awang M., Merzouk A. 2013. In vivoanti-hyperglycemic activity of saliva extract from thetropical leech Hirudinaria manillensis. Chinese Journal of Natural Medicines, 11(5): 0488−0493
    3.
  3. Ballester J., Dominguez J., Munoz M.C., Sensat M., Rigau T. 2005. Tungstate treatment improves Leydig cell function in streptozotocin- diabetic rats. Journal of Andrology, 26(6):706-15.
    4.
  4. Baazm M., Darabi M.R., Babaie S., Talebi R. 2014. Improvement in Sperm Parameters with Gonadotropin-Releasing Hormone Analogue in Busulfan Treated Prepubertal Mice. Journal of Arak University Medical Sciences, 16(10) :11-18
    5.
  5. Benton L., Shan L.X., Hardy M.P. 1995. Differentiation of adult Leydig cells. The Journal of Steroid Biochemistry and Molecular Biology, 53(1-6):61-8.
    6.
  6. Chatterjee R, Mills W, Katz M, McGarrigle HH, Goldstone AH. 2001. Germ cell failure and Leydig cell insufficiency in post-pubertal males after autologous bone marrow transplantation with BEAM for lymphoma. bone marrow transplantation, 13: 519-22.
    7.
  7. Choi YJ, Ok DW, Kwon DN, Chung JI, Kim HC, Yeo SM, et al. 2004. Murine male germ cell apoptosis induced by busulfan treatment correlates with loss of c-kit-expression in a Fas/FasL-and p53-independent manner. Federation of European Biochemical Societies, 575(1-3): 41–51.
    8.
  8. Farzaneh Dehghani,Narges Sotoude ,Hossein Bordbar   ,    M R Panjeshahin   ,The use of platelet-rich plasma (PRP) to improve structural impairment of rat testis induced by busulfan,. Journal Platelets, 2019;30(4):513-520.
    9.
  9. Ghaedi F., Dehghan M., Salari M., Sheikhrabori A. 2017.  Complementary and Alternative Medicines: Usage and Its Determinant Factors Among Outpatients in Southeast of Iran. Journal of evidence-based complementary & alternative medicine ,       22(2): 210-215
    10.
  10. Grigg A.P., McLachlan R., Zaja J., Szer J. 2000. Reproductive status in long-term bone marrow transplant survivors receiving busulfan-cyclophosphamide (120mg/kg), Bone Marrow Transplant, 26(10): 1089-95
    11.
  11. Gudeloglu A., Parekattil S.J. 2013. Update in the evaluation of the azoospermic male. Clinics, 68(Suppl 1): 27-34.
    12.
  12. Haidari Mahmoud Reza, Somayeh Valipour Dehkordi. 2016. Hirudo Medicinalis in coagulopathies and cardiovascular diseases. Journal of Cardiovascular Nursing, 5(2): 54-65.
    13.
  13. He D., Zhang D., Wei G., Lin T., Li X. 2007. Cytoskeleton vimentin disruption of mouse sertoli cells injured by nitrogen mustard in vitro. Journal of Andrology, 28(3):389-96.
    14.
  14. Homafar M.A., Soleimanirad J., Ghanbari A.A. 2006. A morphologic and morphometric study of adult mouse testis following different doses of busulfan administration. Journal of Reproduction and Infertility, 7(1): 25-36.
    15.
  15. Hosseini S., Bastampoor F., Sadeghi H. 2014. Effect of hydro-alcoholic extract of parsley (Petroselinum crispum) leaf on the testicle tissue and sexual dynastic cells of adult male rats. Journal of Babol University of Medical Sciences, 16(9): 36-42.
    16.
  16. Jansz G.F., Pomerantz D.K. 1985.  The effect of prenatal treatment with busulfan on in vitro androgenproduction by testes from rats of various ages. Canadian Journal of Physiology and Pharmacology, 63(9): 1155-8.
    17.
  17. Kalender M.E., Comez G., Sevinc A., Dirier A., Camci C. 2010. Leech therapy for symptomatic relief of cancer pain. Pain Medicine, 11(3): 443-445.
    18.
  18. Kopcky M., Semecky V., Nachtigal P. 2005. Vimentin expression during altered spermatogenesis in rats. Acta Histochem, 107(4): 279-289.
    19.
  19. Kumura T., Hino M., Yamane T., Tatsumi N. 2000.  Hirudin as an anticoagulant for both haematology and chemistry tests. Journal of Automated Methods and Management in Chemistry, 22 (4): 109–112.
    20.
  20. León J., Acuña-Castroviejo D., Escames G., Tan D.X., Reiter R.J. 2005. Melatonin mitigates mitochondrial malfunctions. Journal of Pineal Research, 38: 1-9.
    21.
  21. Meistrich M.L. 2013. Effects of chemotherapy and radiotherapy on spermatogenesis in humans. Fertility and Sterility, 100(5): 1180-1186
    22.
  22. O' Donell L., Robertson K.M., Jones M.E., Simpson E.R. 2001. Estrogen and spermatogenesis, Endocrine Reviews, 22(3): 289- 318
    23.
  23.  O'Shaughnessy P.J., Monteiro A., Verhoeven G.,  De Gendt K.,  Abel M.H. 2010. Effect of FSH on testicular morphology and spermatogenesis in gonadotrophin-deficient hypogonadal mice lacking androgen receptors, Journals of Reproduction and Fertility, 139(1): 177-184.
    24.
  24. Panahi M., Keshavarz S., Rahmanifar F., Tamadon A., Mehrabani D., Karimaghai N.,  Sepehrimanesh  M, and Aqababa   H     . 2015. Busulfan induced azoospermia: Stereological evaluation of testes in rat. Veterinary Research Forum, 6(4): 273-278.
    25.
  25. Payehdar A, Hosseini E, Mehrabani D, Forouzanfar M. 2017. Healing Effect of Conditioned Medium of Adipose Tissue-Derived Mesenchymal Stem Cells on Histomorphometric Changes of Mice Testis in Busulfan Induced-Azoospermia Model. Horizons Medical Marijuana Life Sciences, 23(3): 235-240
    26.
  26. Ramanathan B., Archunan G. 2001.   Analysis of epididymal proteins during sexual maturation in male albino mice. Acta Physiologica Hungarica,88:73-80
    27.

27- Rezaei K., Aghababa H., Sadeghi L. 2015.The effect of walnut oil on sperm parameters in busulfan-treated rats. Pars Journal of Medical Sciences. 13(1): 1-6

 

28- Sophie Fouchécourt, Jean-Jacques Lareyre, Pierre Chaurand, Beverly B. DaGue, Kichiya Suzuki, David E. Ong, Gary E. Olson, Robert J. Matusik, Richard M. Caprioli,. 2003. Identification, immunolocalization, regulation, and postnatal development of the lipocalin EP17 ]epididymal protein of 17kilodaltons in the mouse and rat epididymis. Endocrinology, 144: 887-900

29-Shetty G., Meistrich M.L. 2005. Hormonal approaches to preservation and restoration of male fertility after cancer treatment. Journal of the National Cancer Institute, 34: 36-39.

30- Siril Ariyaratne H.B., Ian Mason J., ،MendisHandagama S.M. 2000. Effects of thyroid and luteinizing hormones on the onset of precursor cell differentiation into leydig progenitor cells in the prepubertal rat testis. Reproductive Biology, 63(3): 898-904.

31. Sobczak N, Kantyka M. 2014.  Hirudotherapy in veterinary medicine. Annals of Parasitology, 60(2):89-92.

32. Vassilakopoulou M, Boostandoost E, Papaxoinis G, de La Motte Rouge T, Khayat D, Psyrri A. 2016.  Anticancer treatment and fertility: Effect of therapeutic modalities on reproductive system and functions. Critical Reviews in Oncology/Hematology, 97(1): 328-34.

  1. World Health Organization (WHO). 1999. laboratory manual for the examination of human semen and sperm-cervical mucus interaction. Cambridge University Press.
    2.

34. Zahkook SAM, Atwa A, Shahat MM, Mansour AM,Bakry S. 2014. Mesenchymal stem cells restore fertility in induced azoospermic rats following chemotherapy administration. Journal of Reproduction & Infertility, 5(2):50-7

_||_

Sanad

Sanad is a platform for managing Azad University publications

Links

Related Centers

Technical Support

Official pages

The rights to this website are owned by the Raimag Press Management System.
Copyright © 2021-2024

Home| Login| About Us| Contact Us|
[فارسی] [العربية] [fa] [ar]