牛肝谷氨酸脱氢酶对辅酶利用的调控：在双波长测定中使用烟酰胺腺嘌呤二核苷酸（NAD）和烟酰胺腺嘌呤二核苷酸磷酸（NADP）的硫代类似物进行的研究

Regulation of coenzyme utilization by bovine liver glutamate dehydrogenase: investigations using thionicotinamide analogues of NAD and NADP in a dual wavelength assay.

作者信息

Male K B, Storey K B

出版信息

Int J Biochem. 1982;14(12):1083-9. doi: 10.1016/0020-711x(82)90165-3.

DOI:10.1016/0020-711x(82)90165-3

PMID:7173489

Abstract

The coenzyme preference of bovine liver glutamate dehydrogenase (GDH) was probed using dual wavelength spectroscopy and pairing the thionicotinamide analogues, S-NAD or S-NADP (which have absorbance maxima at 400 nm), with the natural coenzymes, NADP or NAD. 2. S-NAD and S-NADP were found to be good alternate substrates for GDH: the apparent Km's for the thioderivatives were similar to those of the corresponding natural coenzymes, the apparent Km's for glutamate were unaltered by the substitution of the thioderivatives, and the effects of inhibitors and activators on S-NAD or S-NADP kinetics were qualitatively the same as those found for NAD or NADP, respectively. 3. Dual wavelength assays paired NAD and S-NADP or S-NAD and NADP to study the simultaneous reduction of the two coenzymes. Conditions of increasing glutamate concentrations produced differential effects on the rates of the NAD vs NADP reactions, the result, with either nucleotide pair, promoting the NADP linked reaction. 4. Activators and inhibitors of the GDH reaction also showed differential effects upon the NAD vs NADP linked reaction rates in the dual wavelength assay. ADP and leucine, which activate both the NAD and the NADP linked reactions in single coenzyme assays, preferentially activate the NADP or S-NADP linked reactions in the dual nucleotide assays. GTP produced greater inhibition of the NAD or S-NAD linked reactions than of the NADP or S-NADP reactions while ATP inhibited NAD or S-NAD reactions and activated NADP or S-NADP reactions. The net effect of all metabolite modulators was to promote the NADP linked reaction by decreasing the activity ratios, v(NAD)/v(S-NADP) or v(S-NAD)/v(NADP). 5. The results are consistent with the suggestion that NADP is the preferred coenzyme for the oxidative deamination of glutamate by GDH even though the enzyme is capable of utilizing either coenzyme in vitro.

摘要

利用双波长光谱法，并将硫代烟酰胺类似物S-NAD或S-NADP（在400nm处有最大吸收峰）与天然辅酶NADP或NAD配对，探究了牛肝谷氨酸脱氢酶（GDH）对辅酶的偏好性。2. 发现S-NAD和S-NADP是GDH的良好替代底物：硫代衍生物的表观Km值与相应天然辅酶的相似，谷氨酸的表观Km值不受硫代衍生物替代的影响，抑制剂和激活剂对S-NAD或S-NADP动力学的影响分别与对NAD或NADP的影响在性质上相同。3. 双波长测定法将NAD与S-NADP或S-NAD与NADP配对，以研究两种辅酶的同时还原。谷氨酸浓度增加的条件对NAD与NADP反应速率产生了不同影响，无论使用哪种核苷酸对，结果都是促进NADP连接的反应。4. GDH反应的激活剂和抑制剂在双波长测定中对NAD与NADP连接的反应速率也表现出不同影响。在单辅酶测定中激活NAD和NADP连接反应的ADP和亮氨酸，在双核苷酸测定中优先激活NADP或S-NADP连接的反应。GTP对NAD或S-NAD连接反应的抑制作用比对NADP或S-NADP反应的抑制作用更大，而ATP抑制NAD或S-NAD反应并激活NADP或S-NADP反应。所有代谢物调节剂的净效应是通过降低活性比v(NAD)/v(S-NADP)或v(S-NAD)/v(NADP)来促进NADP连接的反应。5. 这些结果与以下观点一致，即尽管该酶在体外能够利用两种辅酶，但NADP是GDH催化谷氨酸氧化脱氨的首选辅酶。