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  • Alexander SPH, Mathie A, Peters JA (2011). Guide to Receptors and Channels (GRAC), 5th Edition. Br J Pharmacol 164 (Suppl. 1): S1S324.
  • Aquila S, Guido C, Santoro A, Gazzerro P, Laezza C, Baffa MF et al. (2010a). Rimonabant (SR141716) induces metabolism and acquisition of fertilizing ability in human sperm. Br J Pharmacol 159: 831841.
  • Aquila S, Guido C, Santoro A, Perrotta I, Laezza C, Bifulco M et al. (2010b). Human sperm anatomy: ultrastructural localization of the cannabinoid1 receptor and a potential role of anandamide in sperm survival and acrosome reaction. Anat Rec (Hoboken) 293: 298309.
  • Badawy ZS, Chohan KR, Whyte DA, Penefsky HS, Brown OM, Souid AK (2009). Cannabinoids inhibit the respiration of human sperm. Fertil Steril 91: 24712476.
  • Barbonetti A, Vassallo MR, Fortunato D, Francavilla S, Maccarrone M, Francavilla F (2010). Energetic metabolism and human sperm motility: impact of CB1 receptor activation. Endocrinology 151: 58825892.
  • Boatman DE, Robbins RS (1991). Bicarbonate: carbon-dioxide regulation of sperm capacitation, hyperactivated motility, and acrosome reactions. Biol Reprod 44: 806813.
  • Burton KA, Treash-Osio B, Muller CH, Dunphy EL, McKnight GS (1999). Deletion of type IIalpha regulatory subunit delocalizes protein kinase A in mouse sperm without affecting motility or fertilization. J Biol Chem 274: 2413124136.
  • Byrd W (1981). In vitro capacitation and the chemically induced acrosome reaction in bovine spermatozoa. J Exp Zool 215: 3546.
  • Chang MC, Austin CR, Brown J (1976). Mammalian fertilization. Res Reprod 8: chart.
  • Chang MC, Berkery D, Laychock SG, Schuel H (1991). Reduction of the fertilizing capacity of sea urchin sperm by cannabinoids derived from marihuana. III. Activation of phospholipase A2 in sperm homogenate by delta 9-tetrahydrocannabinol. Biochem Pharmacol 42: 899904.
  • Chang MC, Berkery D, Schuel R, Laychock SG, Zimmerman AM, Zimmerman S et al. (1993). Evidence for a cannabinoid receptor in sea urchin sperm and its role in blockade of the acrosome reaction. Mol Reprod Dev 36: 507516.
  • Cobellis G, Cacciola G, Scarpa D, Meccariello R, Chianese R, Franzoni MF et al. (2006). Endocannabinoid system in frog and rodent testis: type-1 cannabinoid receptor and fatty acid amide hydrolase activity in male germ cells. Biol Reprod 75: 8289.
  • Cobellis G, Ricci G, Cacciola G, Orlando P, Petrosino S, Cascio MG et al. (2010). A gradient of 2-arachidonoylglycerol regulates mouse epididymal sperm cell start-up. Biol Reprod 82: 451458.
  • Dalterio S, Badr F, Bartke A, Mayfield D (1982). Cannabinoids in male mice: effects on fertility and spermatogenesis. Science 216: 315316.
  • Esposito G, Jaiswal BS, Xie F, Krajnc-Franken MA, Robben TJ, Strik AM et al. (2004). Mice deficient for soluble adenylyl cyclase are infertile because of a severe sperm-motility defect. Proc Natl Acad Sci USA 101: 29932998.
  • Francavilla F, Battista N, Barbonetti A, Vassallo MR, Rapino C, Antonangelo C et al. (2009). Characterization of the endocannabinoid system in human spermatozoa and involvement of transient receptor potential vanilloid 1 receptor in their fertilizing ability. Endocrinology 150: 46924700.
  • Grimaldi P, Orlando P, Di Siena S, Lolicato F, Petrosino S, Bisogno T et al. (2009). The endocannabinoid system and pivotal role of the CB2 receptor in mouse spermatogenesis. Proc Natl Acad Sci USA 106: 1113111136.
  • Harrison RA (1996). Capacitation mechanisms, and the role of capacitation as seen in eutherian mammals. Reprod Fertil Dev 8: 581594.
  • Hess KC, Jones BH, Marquez B, Chen Y, Ord TS, Kamenetsky M et al. (2005). The ‘soluble’ adenylyl cyclase in sperm mediates multiple signaling events required for fertilization. Dev Cell 9: 249259.
  • Howlett AC, Qualy JM, Khachatrian LL (1986). Involvement of Gi in the inhibition of adenylate cyclase by cannabimimetic drugs. Mol Pharmacol 29: 307313.
  • Howlett AC, Champion TM, Wilken GH, Mechoulam R (1990). Stereochemical effects of 11-OH-delta 8-tetrahydrocannabinol-dimethylheptyl to inhibit adenylate cyclase and bind to the cannabinoid receptor. Neuropharmacology 29: 161165.
  • Howlett AC, Breivogel CS, Childers SR, Deadwyler SA, Hampson RE, Porrino LJ (2004). Cannabinoid physiology and pharmacology: 30 years of progress. Neuropharmacology 47 (Suppl. 1): 345358.
  • Ledent C, Valverde O, Cossu G, Petitet F, Aubert JF, Beslot F et al. (1999). Unresponsiveness to cannabinoids and reduced addictive effects of opiates in CB1 receptor knockout mice. Science 283: 401404.
  • Lee MA, Storey BT (1986). Bicarbonate is essential for fertilization of mouse eggs: mouse sperm require it to undergo the acrosome reaction. Biol Reprod 34: 349356.
  • Maccarrone M, Barboni B, Paradisi A, Bernabo N, Gasperi V, Pistilli MG et al. (2005). Characterization of the endocannabinoid system in boar spermatozoa and implications for sperm capacitation and acrosome reaction. J Cell Sci 118 (Pt 19): 43934404.
  • Miki K, Qu W, Goulding EH, Willis WD, Bunch DO, Strader LF et al. (2004). Glyceraldehyde 3-phosphate dehydrogenase-S, a sperm-specific glycolytic enzyme, is required for sperm motility and male fertility. Proc Natl Acad Sci USA 101: 1650116506.
  • Morgan DJ, Weisenhaus M, Shum S, Su T, Zheng R, Zhang C et al. (2008). Tissue-specific PKA inhibition using a chemical genetic approach and its application to studies on sperm capacitation. Proc Natl Acad Sci USA 105: 2074020745.
  • Mukai C, Okuno M (2004). Glycolysis plays a major role for adenosine triphosphate supplementation in mouse sperm flagellar movement. Biol Reprod 71: 540547.
  • Nolan MA, Babcock DF, Wennemuth G, Brown W, Burton KA, McKnight GS (2004). Sperm-specific protein kinase A catalytic subunit Calpha2 orchestrates cAMP signaling for male fertility. Proc Natl Acad Sci USA 101: 1348313488.
  • Rossato M, Ion Popa F, Ferigo M, Clari G, Foresta C (2005). Human sperm express cannabinoid receptor Cb1, the activation of which inhibits motility, acrosome reaction, and mitochondrial function. J Clin Endocrinol Metab 90: 984991.
  • Schuel H (2006). Tuning the oviduct to the anandamide tone. J Clin Invest 116: 20872090.
  • Schuel H, Chang MC, Berkery D, Schuel R, Zimmerman AM, Zimmerman S (1991). Cannabinoids inhibit fertilization in sea urchins by reducing the fertilizing capacity of sperm. Pharmacol Biochem Behav 40: 609615.
  • Schuel H, Goldstein E, Mechoulam R, Zimmerman AM, Zimmerman S (1994). Anandamide (arachidonylethanolamide), a brain cannabinoid receptor agonist, reduces sperm fertilizing capacity in sea urchins by inhibiting the acrosome reaction. Proc Natl Acad Sci USA 91: 76787682.
  • Schuel H, Burkman LJ, Lippes J, Crickard K, Forester E, Piomelli D et al. (2002a). N-Acylethanolamines in human reproductive fluids. Chem Phys Lipids 121: 211227.
  • Schuel H, Burkman LJ, Lippes J, Crickard K, Mahony MC, Giuffrida A et al. (2002b). Evidence that anandamide-signaling regulates human sperm functions required for fertilization. Mol Reprod Dev 63: 376387.
  • Sun X, Wang H, Okabe M, Mackie K, Kingsley PJ, Marnett LJ et al. (2009). Genetic loss of Faah compromises male fertility in mice. Biol Reprod 80: 235242.
  • Visconti PE, Bailey JL, Moore GD, Pan D, Olds-Clarke P, Kopf GS (1995a). Capacitation of mouse spermatozoa. I. Correlation between the capacitation state and protein tyrosine phosphorylation. Development 121: 11291137.
  • Visconti PE, Moore GD, Bailey JL, Leclerc P, Connors SA, Pan D et al. (1995b). Capacitation of mouse spermatozoa. II. Protein tyrosine phosphorylation and capacitation are regulated by a cAMP-dependent pathway. Development 121: 11391150.
  • Wennemuth G, Carlson AE, Harper AJ, Babcock DF (2003). Bicarbonate actions on flagellar and Ca2+ -channel responses: initial events in sperm activation. Development 130: 13171326.
  • Whan LB, West MC, McClure N, Lewis SE (2006). Effects of delta-9-tetrahydrocannabinol, the primary psychoactive cannabinoid in marijuana, on human sperm function in vitro. Fertil Steril 85: 653660.
  • Xie F, Garcia MA, Carlson AE, Schuh SM, Babcock DF, Jaiswal BS et al. (2006). Soluble adenylyl cyclase (sAC) is indispensable for sperm function and fertilization. Dev Biol 296: 353362.