Interaction between Ca2+, cyclic 3',5' adenosine monophosphate, the superoxide anion, and tyrosine phosphorylation pathways in the regulation of human sperm capacitation

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Interaction between Ca2+, cyclic 3',5' adenosine monophosphate, the superoxide anion, and tyrosine phosphorylation pathways in the regulation of human sperm capacitation

P. Leclerc, E. de Lamirande and C. Gagnon
Urology Research Laboratory, Royal Victoria Hospital and the Faculty of Medicine, McGill University, Montreal, PQ, Canada.

In order to fertilize the egg, spermatozoa must go through the capacitation process where they experience Ca2+ uptake, increases in cyclic 3',5' adenosine monophosphate (cAMP) concentrations, superoxide anion production, and protein tyrosine phosphorylation. Although the importance of these processes has been described, the interactions between them, as well as the temporal sequence of these events, remain to be demonstrated. Previous studies from our laboratory have demonstrated that tyrosine phosphorylation of p105 and p81 (p105/81), the two major human sperm phosphotyrosine-containing proteins, was under cAMP and oxygen derivatives regulation. In the present study, we investigated the importance of intra- and extracellular Ca2+, as well as the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine and the phosphatase inhibitors calyculin A and okadaic acid, in the production of superoxide anion and p105/81 tyrosine phosphorylation. An increase in p105/81 phosphotyrosine content was observed when spermatozoa were incubated in the absence of extracellular Ca2+ or with the calmodulin antagonist N-(6-aminohexyl)-1-naphthalenesulfonamide. However, the human sperm capacitation inducer FCSu (ultrafiltrate of fetal cord serum) requires the presence of the extracellular Ca2+ to induce capacitation, superoxide anion production, and tyrosine phosphorylation of p105/ 81, whereas free intracellular Ca2+ had no effect on these last two processes. The production of superoxide anion by spermatozoa was stimulated by inhibitors of phosphodiesterases and serine/threonine phosphoprotein phosphatases. The tyrosine phosphatase inhibitor vanadate decreased by 40% the FCSu-stimulated superoxide anion production, although it had no effect when used alone. These results suggest that, during sperm capacitation, Ca2+ induces an elevation in cAMP levels; this cAMP, through undefined serine/threonine protein phosphorylation, stimulates the generation of superoxide anion, which, in turn, causes the increase in p105/81 phosphotyrosine contents.

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				V. Kumar, V. Kota, and S. Shivaji Hamster Sperm Capacitation: Role of Pyruvate Dehydrogenase A and Dihydrolipoamide Dehydrogenase Biol Reprod, August 1, 2008; 79(2): 190 - 199. [Abstract] [Full Text] [PDF]

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				C. Lachance, J. L. Bailey, and P. Leclerc Expression of Hsp60 and Grp78 in the human endometrium and oviduct, and their effect on sperm functions Hum. Reprod., October 1, 2007; 22(10): 2606 - 2614. [Abstract] [Full Text] [PDF]

				Y. Bastian, A. Zepeda-Bastida, S. Uribe, and A. Mujica In spermatozoa, Stat1 is activated during capacitation and the acrosomal reaction Reproduction, September 1, 2007; 134(3): 425 - 433. [Abstract] [Full Text] [PDF]

				M. Lin, Y. H. Lee, W. Xu, M. A. Baker, and R. J. Aitken Ontogeny of Tyrosine Phosphorylation-Signaling Pathways During Spermatogenesis and Epididymal Maturation in the Mouse Biol Reprod, October 1, 2006; 75(4): 588 - 597. [Abstract] [Full Text] [PDF]

				J. C. Thundathil, M. Anzar, and M. M. Buhr Na+/K+ATPase as a Signaling Molecule During Bovine Sperm Capacitation Biol Reprod, September 1, 2006; 75(3): 308 - 317. [Abstract] [Full Text] [PDF]

				M. T. Branham, L. S. Mayorga, and C. N. Tomes Calcium-induced Acrosomal Exocytosis Requires cAMP Acting through a Protein Kinase A-independent, Epac-mediated Pathway J. Biol. Chem., March 31, 2006; 281(13): 8656 - 8666. [Abstract] [Full Text] [PDF]

				J. Laflamme, A. Akoum, and P. Leclerc Induction of human sperm capacitation and protein tyrosine phosphorylation by endometrial cells and interleukin-6 Mol. Hum. Reprod., February 1, 2005; 11(2): 141 - 150. [Abstract] [Full Text] [PDF]

				W.C.L. Ford Regulation of sperm function by reactive oxygen species Hum. Reprod. Update, September 1, 2004; 10(5): 387 - 399. [Abstract] [Full Text] [PDF]

				V. Nauc, E. De Lamirande, P. Leclerc, and C. Gagnon Inhibitors of Phosphoinositide 3-Kinase, LY294002 and Wortmannin, Affect Sperm Capacitation and Associated Phosphorylation of Proteins Differently: Ca2+-Dependent Divergences J Androl, July 1, 2004; 25(4): 573 - 585. [Abstract] [Full Text] [PDF]

				C. O'Flaherty, E. de Lamirande, and C. Gagnon Phosphorylation of the Arginine-X-X-(Serine/Threonine) motif in human sperm proteins during capacitation: modulation and protein kinase A dependency Mol. Hum. Reprod., May 1, 2004; 10(5): 355 - 363. [Abstract] [Full Text] [PDF]

				J. Rivlin, J. Mendel, S. Rubinstein, N. Etkovitz, and H. Breitbart Role of Hydrogen Peroxide in Sperm Capacitation and Acrosome Reaction Biol Reprod, February 1, 2004; 70(2): 518 - 522. [Abstract] [Full Text] [PDF]

				M. A. Baker, L. Hetherington, H. Ecroyd, S. D. Roman, and R. J. Aitken Analysis of the mechanism by which calcium negatively regulates the tyrosine phosphorylation cascade associated with sperm capacitation J. Cell Sci., January 15, 2004; 117(2): 211 - 222. [Abstract] [Full Text] [PDF]

				H. W. Ecroyd, R. C. Jones, and R. J. Aitken Endogenous Redox Activity in Mouse Spermatozoa and Its Role in Regulating the Tyrosine Phosphorylation Events Associated with Sperm Capacitation Biol Reprod, July 1, 2003; 69(1): 347 - 354. [Abstract] [Full Text] [PDF]

				A. M. Petrunkina, K. Simon, A.-R. Gunzel-Apel, and E. Topfer-Petersen Specific Order in the Appearance of Protein Tyrosine Phosphorylation Patterns Is Functionally Coordinated With Dog Sperm Hyperactivation and Capacitation J Androl, May 1, 2003; 24(3): 423 - 437. [Abstract] [Full Text] [PDF]

				J. Thundathil, E. de Lamirande, and C. Gagnon Nitric Oxide Regulates the Phosphorylation of the Threonine-Glutamine-Tyrosine Motif in Proteins of Human Spermatozoa During Capacitation Biol Reprod, April 1, 2003; 68(4): 1291 - 1298. [Abstract] [Full Text] [PDF]

				A. C. Pommer, J. Rutllant, and S. A. Meyers Phosphorylation of Protein Tyrosine Residues in Fresh and Cryopreserved Stallion Spermatozoa under Capacitating Conditions Biol Reprod, April 1, 2003; 68(4): 1208 - 1214. [Abstract] [Full Text] [PDF]

				V. Dorval, M. Dufour, and P. Leclerc Role of protein tyrosine phosphorylation in the thapsigargin-induced intracellular Ca2+ store depletion during human sperm acrosome reaction Mol. Hum. Reprod., March 1, 2003; 9(3): 125 - 131. [Abstract] [Full Text] [PDF]

JOURNAL ARTICLE

Interaction between Ca2+, cyclic 3',5' adenosine monophosphate, the superoxide anion, and tyrosine phosphorylation pathways in the regulation of human sperm capacitation

				P. Leclerc and S. Goupil Regulation of the Human Sperm Tyrosine Kinase c-yes. Activation by Cyclic Adenosine 3',5'-Monophosphate and Inhibition by Ca2+ Biol Reprod, July 1, 2002; 67(1): 301 - 307. [Abstract] [Full Text] [PDF]

				E. de Lamirande and C. Gagnon The extracellular signal-regulated kinase (ERK) pathway is involved in human sperm function and modulated by the superoxide anion Mol. Hum. Reprod., February 1, 2002; 8(2): 124 - 135. [Abstract] [Full Text] [PDF]

				Y. Si and P. Olds-Clarke Evidence for the Involvement of Calmodulin in Mouse Sperm Capacitation Biol Reprod, May 1, 2000; 62(5): 1231 - 1239. [Abstract] [Full Text]

				E. Rollet-Labelle, C. Gilbert, and P. H. Naccache Modulation of Human Neutrophil Responses to CD32 Cross-Linking by Serine/Threonine Phosphatase Inhibitors: Cross-Talk Between Serine/Threonine and Tyrosine Phosphorylation J. Immunol., January 15, 2000; 164(2): 1020 - 1028. [Abstract] [Full Text] [PDF]

				A. Mandal, S. Naaby-Hansen, M. J. Wolkowicz, K. Klotz, J. Shetty, J. D. Retief, S. A. Coonrod, M. Kinter, N. Sherman, F. Cesar, et al. FSP95, A Testis-Specific 95-Kilodalton Fibrous Sheath Antigen That Undergoes Tyrosine Phosphorylation in Capacitated Human Spermatozoa Biol Reprod, November 1, 1999; 61(5): 1184 - 1197. [Abstract] [Full Text]