Blount Mitsi A, Beasley Alfreda, Zoraghi Roya, Sekhar Konjeti R, Bessay Emmanuel P, Francis Sharron H, Corbin Jackie D
Department of Molecular Physiology and Biophysics, Vanderbilt University School of Medicine, Nashville, TN 37232-0615, USA.
Mol Pharmacol. 2004 Jul;66(1):144-52. doi: 10.1124/mol.66.1.144.
Sildenafil, tadalafil, and vardenafil each competitively inhibit cGMP hydrolysis by phosphodiesterase-5 (PDE5), thereby fostering cGMP accumulation and relaxation of vascular smooth muscle. Biochemical potencies (affinities) of these compounds for PDE5 determined by IC(50), K(D) (isotherm), K(D) (dissociation rate), and K(D) ((1/2) EC(50)), respectively, were the following: sildenafil (3.7 +/- 1.4, 4.8 +/- 0.80, 3.7 +/- 0.29, and 11.7 +/- 0.70 nM), tadalafil (1.8 +/- 0.40, 2.4 +/- 0.60, 1.9 +/- 0.37, and 2.7 +/- 0.25 nM); and vardenafil (0.091 +/- 0.031, 0.38 +/- 0.07, 0.27 +/- 0.01, and 0.42 +/- 0.10 nM). Thus, absolute potency values were similar for each inhibitor, and relative potencies were vardenafil >> tadalafil > sildenafil. Binding of each (3)H inhibitor to PDE5 was specific as determined by effects of unlabeled compounds. (3)H Inhibitors did not bind to isolated PDE5 regulatory domain. Close correlation of EC(50) values using all three (3)H inhibitors competing against one another indicated that each occupies the same site on PDE5. Studies of sildenafil and vardenafil analogs demonstrated that higher potency of vardenafil is caused by differences in its double ring. Exchange-dissociation studies revealed two binding components for each inhibitor. Excess unlabeled inhibitor did not significantly affect (3)H inhibitor dissociation after infinite dilution, suggesting the absence of subunit-subunit cooperativity. cGMP addition increased binding affinity of [(3)H]tadalafil or [(3)H]vardenafil, an effect presumably mediated by cGMP binding to PDE5 allosteric sites, implying that either inhibitor potentiates its own binding to PDE5 in intact cells by elevating cGMP. Without inhibitor present, cGMP accumulation would stimulate cGMP degradation, but with inhibitor present, this negative feedback process would be blocked.
西地那非、他达拉非和伐地那非均通过竞争性抑制磷酸二酯酶5(PDE5)对环磷酸鸟苷(cGMP)的水解作用,从而促进cGMP的蓄积以及血管平滑肌的舒张。这些化合物对PDE5的生化活性(亲和力)分别通过半数抑制浓度(IC50)、解离常数(KD)(等温线)、解离速率常数(KD)以及半数效应浓度(1/2 EC50)来测定,结果如下:西地那非(3.7±1.4、4.8±0.80、3.7±0.29以及11.7±0.70 nM)、他达拉非(1.8±0.40、2.4±0.60、1.9±0.37以及2.7±0.25 nM);伐地那非(0.091±0.031、0.38±0.07、0.27±0.01以及0.42±0.10 nM)。因此,每种抑制剂的绝对活性值相似,相对活性为伐地那非>>他达拉非>西地那非。通过未标记化合物的作用确定,每种3H标记抑制剂与PDE5的结合具有特异性。3H标记抑制剂不与分离的PDE5调节结构域结合。使用三种相互竞争的3H标记抑制剂得到的半数效应浓度(EC50)值密切相关,表明每种抑制剂在PDE5上占据相同位点。对西地那非和伐地那非类似物的研究表明,伐地那非更高的活性是由其双环结构的差异所致。交换解离研究揭示了每种抑制剂存在两种结合成分。过量的未标记抑制剂在无限稀释后对3H标记抑制剂的解离没有显著影响,这表明不存在亚基-亚基协同作用。添加cGMP可增加[3H]他达拉非或[3H]伐地那非的结合亲和力,这一效应可能是由cGMP与PDE5变构位点结合介导的,这意味着在完整细胞中,两种抑制剂均可通过提高cGMP来增强其自身与PDE5的结合。在不存在抑制剂的情况下,cGMP的蓄积会刺激cGMP的降解,但在存在抑制剂的情况下,这种负反馈过程会被阻断。
