Metformin - An agent stimulating motility and acrosome reaction in chicken sperm

Nguyen Thi Mong Diep *

* Corresponding author (diepdhqn_bak@ymail.com)

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Received: 27 Aug 2016
Revised: 10 Dec 2016
Accepted: 29 Jul 2017
Published: 31 Jul 2017
DOI: 10.22144/ctu.jen.2017.026
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Nguyen, T. M. D. (2017). Metformin - An agent stimulating motility and acrosome reaction in chicken sperm. CTU Journal of Innovation and Sustainable Development , (06), 47-55. https://doi.org/10.22144/ctu.jen.2017.026
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No. 06 (2017)

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Abstract

Sperm are germinal cells whose main functions, motility and acrosome reaction, promote its essential role: the oocyte fertilization. Currently, many chemicals are added to the media to enhance sperm quality during artificial insemination. Metformin, which is commonly used for the treatment of type II diabetes, possesses properties impacting cell metabolism control that have not been assessed yet in sperm. The aims of this experiment were to: (a) determine the effects of Metformin on fresh chicken sperm motility and ability to perform acrosome reaction: (b) evaluate its effects on the functions of cryopreserved sperm. These experiments have shown that the presence of Metformin in fresh semen has a positive impact on the quality of sperm and help reducing the gradual decline in sperm motility caused by cryopreservation. 
Keywords: Acrosome reaction, AMPK, chicken sperm, Metformin, sperm motility

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References

Abbasi, F., Kamath, V., Rizvi, A.A., Carantoni, M., Chen, Y.D., Reaven, G.M., 1997. Results of a placebo-controlled study of the metabolic effects of the addition of metformin to sulfonylurea-treated patients. Evidence for a central role of adipose tissue. Diabetes care. 20: 1863-1869.

Bailey, C.J., 1993. Metformin--an update. General pharmacology. 24: 1299-1309.

Baldi, E., Luconi, M., Bonaccorsi, L., Muratori, M., Forti, G., 2000. Intracellular events and signaling pathways involved in sperm acquisition of fertilizing capacity and acrosome reaction. Front Biosci. 5: E110-123.

Bertoldo, M.J., Guibert, E., Tartarin, P., Guillory, V., Froment, P., 2014. Effect of metformin on the fertilizing ability of mouse spermatozoa. Cryobiology. 68: 262-268.

Blesbois, E., Grasseau, I., Seigneurin, F., Mignon-Grasteau, S., Saint Jalme, M., Mialon-Richard, M.M., 2008. Predictors of success of semen cryopreservation in chickens. Theriogenology. 69: 252-261.

Blesbois, E., Hermier, D., 2003. Specificity of fatty acids in domestic birds spermatozoa. In:Vriese,D. (Eds).Male Fertility and Lipid Metabolism.Champaign IL. American Oil Chemist’s Society Press,pp: 73-85.

Branco, C.S., Garcez, M.E., Pasqualotto, F.F., Erdtman, B., Salvador, M., 2010. Resveratrol and ascorbic acid prevent DNA damage induced by cryopreservation in human semen. Cryobiology. 60: 235-237.

Bucak, M.N., Keskin, N., Taspinar, M., Coyan, K., Baspinar, N., Cenariu, M.C., Bilgili, A., Ozturk, C., Kursunlu, A.N., 2013. Raffinose and hypotaurine improve the post-thawed Merino ram sperm parameters. Cryobiology. 67: 34-39.

Buldak, L., Labuzek, K., Buldak, R.J., Kozlowski, M., Machnik, G., Liber, S., Suchy, D., Dulawa-Buldak, A., Okopien, B., 2014. Metformin affects macrophages' phenotype and improves the activity of glutathione peroxidase, superoxide dismutase, catalase and decreases malondialdehyde concentration in a partially AMPK-independent manner in LPS-stimulated human monocytes/macrophages. Pharmacological reports. 66: 418-429.

Burrows, W.H., Quinn, J.P., 1937. The collection of spermatozoa from the domestic fowl and turkey. Poultry Science. 16: 19-24.

Creanga, A.A., Bradley, H.M., McCormick, C., Witkop, C.T., 2008. Use of metformin in polycystic ovary syndrome: a meta-analysis. Obstet. Gynecol. 111, 959-968.

Chhillar, S., Singh, V.K., Kumar, R., Atreja, S.K., 2012. Effects of Taurine or Trehalose supplementation on functional competence of cryopreserved Karan Fries semen. Animal reproduction science. 135: 1-7.

Cordova, A., Strobel, P., Vallejo, A., Valenzuela, P., Ulloa, O., Burgos, R.A., Menarim, B., Rodriguez-Gil, J.E., Ratto, M., Ramirez-Reveco, A., 2014. Use of hypometabolic TRIS extenders and high cooling rate refrigeration for cryopreservation of stallion sperm: presence and sensitivity of 5' AMP-activated protein kinase (AMPK). Cryobiology. 69: 473-481.

Curry, M.R., 2000. Cryopreservation of semen from domestic livestock. Reviews of reproduction. 5: 46-52.

Cusi, K., Consoli, A., DeFronzo, R.A., 1996. Metabolic effects of metformin on glucose and lactate metabolism in noninsulin-dependent diabetes mellitus. The Journal of clinical endocrinology and metabolism. 81: 4059-4067.

Dandekar, S.P., Nadkarni, G.D., Kulkarni, V.S., Punekar, S., 2002. Lipid peroxidation and antioxidant enzymes in male infertility. Journal of postgraduate medicine. 48 : 186-189.

Esteghamati, A., Eskandari, D., Mirmiranpour, H., Noshad, S., Mousavizadeh, M., Hedayati, M., Nakhjavani, M., 2013. Effects of metformin on markers of oxidative stress and antioxidant reserve in patients with newly diagnosed type 2 diabetes: a randomized clinical trial. Clinical nutrition. 32: 179-185.

Flechtner-Mors, M., Ditschuneit, H.H., Jenkinson, C.P., Alt, A., Adler, G., 1999. Metformin inhibits catecholamine-stimulated lipolysis in obese, hyperinsulinemic, hypertensive subjects in subcutaneous adipose tissue: an in situ microdialysis study. Diabet Med. 16(12): 1000-1006.

Garcez, M.E., dos Santos Branco, C., Lara, L.V., Pasqualotto, F.F., Salvador, M., 2010. Effects of resveratrol supplementation on cryopreservation medium of human semen. Fertility and sterility. 94: 2118-2121.

Griveau, J.F., Dumont, E., Renard, P., Callegari, J.P., Le Lannou, D., 1995. Reactive oxygen species, lipid peroxidation and enzymatic defence systems in human spermatozoa. Journal of reproduction and fertility. 103: 17-26.

Hardie, D.G., Hawley, S.A., 2001. AMP-activated protein kinase: the energy charge hypothesis revisited. BioEssays. 23(12): 1112-1119.

Hardie, D.G., Hawley, S.A., Scott, J.W., 2006. AMP-activated protein kinase--development of the energy sensor concept. The Journal of physiology. 574: 7-15.

Hardie, D.G., Scott, J.W., Pan, D.A., Hudson, E.R., 2003. Management of cellular energy by the AMP-activated protein kinase system. FEBS letters. 546: 113-120.

Hirsch, H.A., Iliopoulos, D., Tsichlis, P.N., Struhl, K., 2009. Metformin selectively targets cancer stem cells, and acts together with chemotherapy to block tumor growth and prolong remission. Cancer research. 69: 7507-7511.

Horrocks, A.J., Stewart, S., Jackson, L., Wishart, G.J., 2000. Induction of acrosomal exocytosis in chicken spermatozoa by inner perivitelline-derived N-linked glycans. Biochemical and biophysical research communications. 278: 84-89.

Hundal, H.S., Ramlal, T., Reyes, R., Leiter, L.A., Klip, A., 1992. Cellular mechanism of metformin action involves glucose transporter translocation from an intracellular pool to the plasma membrane in L6 muscle cells. Endocrinology. 131: 1165-1173.

Hurtado de Llera, A., Martin-Hidalgo, D., Gil, M.C., Garcia-Marin, L.J., Bragado, M.J., 2012. AMP-activated kinase AMPK is expressed in boar spermatozoa and regulates motility. PloS one. 7: e38840.

Kato, K., Gong, J., Iwama, H., Kitanaka, A., Tani, J., Miyoshi, H., Nomura, K., Mimura, S., Kobayashi, M., Aritomo, Y., Kobara, H., Mori, H., Himoto, T., Okano, K., Suzuki, Y., Murao, K., Masaki, T., 2012. The antidiabetic drug metformin inhibits gastric cancer cell proliferation in vitro and in vivo. Molecular cancer therapeutics. 11: 549-560.

Kita, Y., Takamura, T., Misu, H., Ota, T., Kurita, S., Takeshita, Y., Uno, M., Matsuzawa-Nagata, N., Kato, K., Ando, H., Fujimura, A., Hayashi, K., Kimura, T., Ni, Y., Otoda, T., Miyamoto, K., Zen, Y., Nakanuma, Y., Kaneko, S., 2012. Metformin prevents and reverses inflammation in a non-diabetic mouse model of nonalcoholic steatohepatitis. PloS one. 7: e43056.

Lake, P.E., Stewart, J.M., 1978. Preservation of fowl semen in liquid nitrogen-an improved method. British poultry science. 19: 187-194.

Lemoine, M., Grasseau, I., Brillard, J.P., Blesbois, E., 2008. A reappraisal of the factors involved in in vitro initiation of the acrosome reaction in chicken spermatozoa. Reproduction. 136: 391-399.

Lord, J.M., Flight, I.H., Norman, R.J., 2003. Metformin in polycystic ovary syndrome: systematic review and meta-analysis. Bmj. 327: 951-953.

Momcilovic, M., Hong, S.P., Carlson, M., 2006. Mammalian TAK1 activates Snf1 protein kinase in yeast and phosphorylates AMP-activated protein kinase in vitro. The Journal of biological chemistry. 281: 25336-25343.

Morris, G.J., Acton, E., Murray, B.J., Fonseca, F., 2012. Freezing injury: the special case of the sperm cell. Cryobiology. 64: 71-80.

Neild, D.M., Brouwers, J.F., Colenbrander, B., Aguero, A., Gadella, B.M., 2005. Lipid peroxide formation in relation to membrane stability of fresh and frozen thawed stallion spermatozoa. Molecular reproduction and development. 72: 230-238.

Nguyen, T.M., Alves, S., Grasseau, I., Metayer-Coustard, S., Praud, C., Froment, P., Blesbois, E., 2014. Central role of 5'-AMP-activated protein kinase in chicken sperm functions. Biology of reproduction. 91: 121.Okamura, F., Nishiyama, H., 1978. The passage of spermatozoa through the vitelline membrane in the domestic fowl, Gallus gallus. Cell Tissue Res. 188: 497-508.

Onken, B., Driscoll, M., 2010. Metformin induces a dietary restriction-like state and the oxidative stress response to extend C. elegans Healthspan via AMPK, LKB1, and SKN-1. PloS one. 5: e8758.

Ouslimani, N., Peynet, J., Bonnefont-Rousselot, D., Therond, P., Legrand, A., Beaudeux, J.L., 2005. Metformin decreases intracellular production of reactive oxygen species in aortic endothelial cells. Metabolism: clinical and experimental. 54: 829-834.

Owen, M.R., Doran, E., Halestrap, A.P., 2000. Evidence that metformin exerts its anti-diabetic effects through inhibition of complex 1 of the mitochondrial respiratory chain. Biochem J. 348: 607-614.

Palomba, S., Orio, F., Jr., Falbo, A., Russo, T., Tolino, A., Zullo, F., 2006. Effects of metformin and clomiphene citrate on ovarian vascularity in patients with polycystic ovary syndrome. Fertility and sterility. 86: 1694-1701.

Partyka, A., Lukaszewicz, E., Nizanski, W., 2012. Effect of cryopreservation on sperm parameters, lipid peroxidation and antioxidant enzymes activity in fowl semen. Theriogenology. 77: 1497-1504.

Piwkowska, A., Rogacka, D., Jankowski, M., Dominiczak, M.H., Stepinski, J.K., Angielski, S., 2010. Metformin induces suppression of NAD(P)H oxidase activity in podocytes. Biochem Biophys Res Commun. 393 : 268-273.

Rattan, R., Giri, S., Hartmann, L.C., Shridhar, V., 2011. Metformin attenuates ovarian cancer cell growth in an AMP-kinase dispensable manner. J Cell Mol Med. 15: 166-178.

Sexton, T.J., 1977. A new poultry semen extender. 1. Effects of extension on the fertility of chicken semen. Poultry science. 56: 1443-1446.

Shank, J.J., Yang, K., Ghannam, J., Cabrera, L., Johnston, C.J., Reynolds, R.K., Buckanovich, R.J., 2012. Metformin targets ovarian cancer stem cells in vitro and in vivo. Gynecologic oncology. 127: 390-397.

Surai, P.F., Blesbois, E., Grasseau, I., Chalah, T., Brillard, J.P., Wishart, G.J., Cerolini, S., Sparks, N.H., 1998. Fatty acid composition, glutathione peroxidase and superoxide dismutase activity and total antioxidant activity of avian semen. Comp Biochem Physiol B Biochem Mol Biol. 120: 527-533.

Watson, P.F., 2000. The causes of reduced fertility with cryopreserved semen. Animal reproduction science. 60-61: 481-492.

Woods, A., Johnstone, S.R., Dickerson, K., Leiper, F.C., Fryer, L.G., Neumann, D., Schlattner, U., Wallimann, T., Carlson, M., Carling, D., 2003. LKB1 is the upstream kinase in the AMP-activated protein kinase cascade. Current biology : CB. 13: 2004-2008.

Woods, A., Dickerson, K., Heath, R., Hong, S.P., Momcilovic, M., Johnstone, S.R., Carlson, M., Carling, D., 2005. Ca2+/calmodulin-dependent protein kinase kinase-beta acts upstream of AMP-activated protein kinase in mammalian cells. Cell metabolism. 2: 21-33.

Wu, N., Gu, H.J., Li, Q., 2010. Effects of antidiabetic drug metformin on the migration and invasion abilities of human pulmonary adenocarcinoma A549 cell line in vitro. Journal of thoracic disease. 2: 76-80.

Yanagimachi, R., 1994. Fertility of mammalian spermatozoa: its development and relativity. Zygote. 2: 371-372.

Yasmeen, A., Beauchamp, M.C., Piura, E., Segal, E., Pollak, M., Gotlieb, W.H., 2011. Induction of apoptosis by metformin in epithelial ovarian cancer: involvement of the Bcl-2 family proteins. Gynecologic oncology. 121: 492-498.

Zakikhani, M., Blouin, M.J., Piura, E., Pollak, M.N., 2010. Metformin and rapamycin have distinct effects on the AKT pathway and proliferation in breast cancer cells. Breast cancer research and treatment. 123: 271-279.

Zakikhani, M., Dowling, R., Fantus, I.G., Sonenberg, N., Pollak, M., 2006. Metformin is an AMP kinase-dependent growth inhibitor for breast cancer cells. Cancer research. 66: 10269-10273.

Zakikhani, M., Dowling, R.J., Sonenberg, N., Pollak, M.N., 2008. The effects of adiponectin and metformin on prostate and colon neoplasia involve activation of AMP-activated protein kinase. Cancer prevention research. 1: 369-375.

Zhang, T., Guo, P., Zhang, Y., Xiong, H., Yu, X., Xu, S., Wang, X., He, D., Jin, X., 2013. The antidiabetic drug metformin inhibits the proliferation of bladder cancer cells in vitro and in vivo. International journal of molecular sciences. 14: 24603-24618.

Zhou, G., Myers, R., Li, Y., Chen, Y., Shen, X., Fenyk-Melody, J., Wu, M., Ventre, J., Doebber, T., Fujii, N., Musi, N., Hirshman, M.F., Goodyear, L.J., Moller, D.E., 2001. Role of AMP-activated protein kinase in mechanism of metformin action. The Journal of clinical investigation. 108: 1167-1174.