Calf spleen purine nucleoside phosphorylase: complex kinetic mechanism, hydrolysis of 7-methylguanosine, and oligomeric state in solution

Agnieszka Bzowska
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引用次数: 44

Abstract

The active enzyme form was found to be a homotrimer, no active monomers were observed. Only in the presence of an extremely high orthophosphate concentration (0.5 M) or at a low enzyme concentration (0.2 μg/ml) with no ligands present a small fraction of the enzyme is probably in a dissociated and/or non-active form. The specific activity is invariant over a broad enzyme concentration range (0.017 μg/ml–0.29 mg/ml). At concentrations below 0.9 μg/ml and in the absence of ligands the enzyme tends to loose its catalytic activity, while in the presence of any substrate or at higher concentrations it was found to be active as a trimer. In the absence of phosphate the enzyme catalyses the hydrolysis of 7-methylguanosine (m7Guo) with a catalytic rate constant 1.3×10−3 s−1 as compared with the rate of 38 s−1 for the phosphorolysis of this nucleoside. The initial pre-steady-state phase of the phosphorolysis of m7Guo, 70 s−1, is almost twice faster than the steady-state rate and indicates that the rate-limiting step is subsequent to the glycosidic bond cleavage. Complex kinetic behaviour with substrates of phosphorolytic direction (various nucleosides and orthophosphate) was observed; data for phosphate as the variable substrate with inosine and guanosine, but not with their 7-methyl counterparts, might be interpreted as two binding sites with different affinities, or as a negative cooperativity. However, the titration of the enzyme intrinsic fluorescence with 0.2 μM–30 mM phosphate is consistent with only one dissociation constant for phosphate, Kd=220±120 μM. Protective effects of ligands on the thermal inactivation of the enzyme indicate that all substrates of the phosphorolytic and the synthetic reactions are able to form binary complexes with the calf spleen purine nucleoside phosphorylase. The purine bases, guanine and hypoxanthine, bind strongly with dissociation constants of about 0.1 μM, while all other ligands studied, including 7-methylguanine and 7-methylhypoxanthine, bind at least 3 orders of magnitude less potently. Binding of guanine and hypoxanthine is about 10-fold weakened by the presence of phosphate. These observations are best interpretable by the complex kinetic mechanism of the phosphorolytic reaction involving (i) random substrate binding, (ii) unusually slow, hence strongly rate-limiting, dissociation of the products guanine and hypoxanthine, but not 7-methylguanine and 7-methylhypoxanthine, and (iii) dual function of the phosphate binding site with phosphate acting as a substrate and as a modifier helping in the release of a purine base after glycosidic bond cleavage.

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小牛脾嘌呤核苷磷酸化酶:复杂的动力学机制、7-甲基鸟苷的水解和溶液中的低聚态
酶的活性形式为三聚体,未发现活性单体。只有在正磷酸盐浓度极高(0.5 M)或酶浓度较低(0.2 μg/ml)且没有配体存在的情况下,酶的一小部分才可能以解离和/或非活性形式存在。在较宽的酶浓度范围内(0.017 μg/ml ~ 0.29 mg/ml),比活性不变。在浓度低于0.9 μg/ml和缺乏配体的情况下,酶倾向于失去其催化活性,而在任何底物存在或在更高浓度下,它被发现作为三聚体具有活性。在没有磷酸盐的情况下,该酶催化7-甲基鸟苷(m7Guo)的水解,催化速率常数为1.3×10−3 s−1,而该核苷的磷酸化速率为38 s−1。m7Guo的初始预稳态阶段,70 s−1,几乎是稳态速率的两倍,这表明限速步骤是在糖苷键裂解之后。观察了与磷酸化方向底物(各种核苷和正磷酸盐)的复杂动力学行为;磷酸作为可变底物与肌苷和鸟苷,而不是与7-甲基对应物的数据,可能被解释为具有不同亲和力的两个结合位点,或者是负协同性。而在0.2 μM - 30 mM的磷酸溶液中,酶本然荧光滴定得到的解离常数只有一个,Kd=220±120 μM。配体对酶热失活的保护作用表明,磷酸化和合成反应的所有底物都能与小牛脾嘌呤核苷磷酸化酶形成二元配合物。嘌呤碱基鸟嘌呤和次黄嘌呤结合强度高,解离常数约为0.1 μM,而其他配体,包括7-甲基鸟嘌呤和7-甲基次黄嘌呤,结合强度至少低3个数量级。鸟嘌呤和次黄嘌呤的结合因磷酸盐的存在而减弱约10倍。这些观察结果最好的解释是磷酸化反应的复杂动力学机制,包括:(1)随机底物结合,(2)异常缓慢,因此有很强的速率限制,产物鸟嘌呤和次黄嘌呤的解离,但不包括7-甲基鸟嘌呤和7-甲基次黄嘌呤,以及(3)磷酸结合位点的双重功能,磷酸作为底物和修饰剂,在糖苷键断裂后帮助释放嘌呤碱基。
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