The molecular bases for phosphodiesterase 5 (PDE5) catalytic-site affinity for cyclic guanosine monophosphate (cGMP) and potency of inhibitors are poorly understood. Cocrystal structures of PDE5 catalytic (C) domain with inhibitors reveal a hydrogen bond and hydrophobic interactions with Tyr-612, hydrogen bonds with Gln-817, a hydrophobic clamp formed by Phe-820 and Val-782, and contacts with His-613, Leu-765, and Phe-786 [Sung et al. (2003) Nature 425, 98-102; Huai et al. (2004) J. Biol. Chem. 279, 13095-13101]. Present results of point mutations of full-length PDE5 showed that maximum catalysis was decreased 2650-fold in H613A and 55-fold in F820A. Catalytic-site affinities for cGMP, vardenafil, sildenafil, tadalafil, or 3-isobutyl-1-methylxanthine (IBMX) were respectively weakened 14-, 123-, 30-, 51-, and 43-fold for Y612A; 63-, 511-, 43-, 95- and 61-fold for Q817A; and 59-, 448-, 71-, 137-, and 93-fold for F820A. The data indicate that these three amino acids are major determinants of affinity for cGMP and potency of selective and nonselective inhibitors, and that higher vardenafil potency over sildenafil and tadalafil results from stronger contacts with Tyr-612, Gln-817, and Phe-820. Affinity of V782A for cGMP, vardenafil, sildenafil, tadalafil, or IBMX was reduced 5.5-, 23-, 10-, 3-, and 12-fold, respectively. Change in affinity for cGMP, vardenafil, sildenafil, or IBMX in Y612F, H613A, L765A, or F786A was less, but affinity of H613A or F786A for tadalafil was weakened 37- and 17-fold, respectively. The results quantify the role of PDE5 catalytic-site residues for cGMP and inhibitors, indicate that Tyr-612, Gln-817, and Phe-820 are the most important cGMP or inhibitor contacts studied, and identify residues that contribute to selectivity among different classes of inhibitors.
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