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Alternative pathways of mitochondrial DPNH oxidation, studied with amytal.用阿米妥研究线粒体DPNH氧化的替代途径。
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The reaction sites of rotenone and ubiquinone with mitochondrial NADH dehydrogenase.鱼藤酮和泛醌与线粒体NADH脱氢酶的反应位点。
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[3H]二氢鱼藤酮与电子传递链中NADH:泛醌还原酶(复合体I)的结合:一项放射自显影研究。

[3H]dihydrorotenone binding to NADH: ubiquinone reductase (complex I) of the electron transport chain: an autoradiographic study.

作者信息

Higgins D S, Greenamyre J T

机构信息

Department of Neurology, University of Rochester Medical Center, New York 14642, USA.

出版信息

J Neurosci. 1996 Jun 15;16(12):3807-16. doi: 10.1523/JNEUROSCI.16-12-03807.1996.

DOI:10.1523/JNEUROSCI.16-12-03807.1996
PMID:8656275
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6578603/
Abstract

Abnormalities of mitochondrial energy metabolism may play a role in normal aging and certain neurodegenerative disorders. In this regard, complex I of the electron transport chain has received substantial attention, especially in Parkinson's disease. The conventional method for studying complex I has been quantitation of enzyme activity in homogenized tissue samples. To enhance the anatomic precision with which complex I can be examined, we developed an autoradiographic assay for the rotenone site of this enzyme. [3H]dihydrorotenone ([3H]DHR) binding is saturable (KD = 15-55 nM) and specific, and Hill slopes of 1 suggest a single population of binding sites. Nicotinamide adenine dinucleotide (NADH) enhances binding 4- to 80-fold in different brain regions (EC50 = 20-40 microM) by increasing the density of recognition sites (Bmax). Nicotinamide adenine dinucleotide phosphate also increases binding, but NAD+ does not. In skeletal muscle, heart, and kidney, binding was less affected by NADH. [3H]DHR binding is inhibited by rotenone (IC50 = 8-20 nM), meperidine (IC50 = 34-57 microM), amobarbitol (IC50 = 375-425 microM), and MPP+ (IC50 = 4-5 mM), consistent with the potencies of these compounds in inhibiting complex I activity. Binding is heterogeneously distributed in brain with the density in gray matter structures varying more than 10-fold. Lesion studies suggest that a substantial portion of binding is associated with nerve terminals. [3H]DHR autoradiography is the first quantitative method to examine complex I with a high degree of anatomic precision. This technique may help to clarify the potential role of complex I dysfunction in normal aging and disease.

摘要

线粒体能量代谢异常可能在正常衰老及某些神经退行性疾病中发挥作用。在这方面,电子传递链复合体I受到了广泛关注,尤其是在帕金森病中。研究复合体I的传统方法是对匀浆组织样本中的酶活性进行定量。为提高检测复合体I的解剖学精度,我们开发了一种针对该酶鱼藤酮作用位点的放射自显影检测方法。[3H]二氢鱼藤酮([3H]DHR)结合具有饱和性(KD = 15 - 55 nM)且具有特异性,希尔系数为1表明存在单一的结合位点群体。烟酰胺腺嘌呤二核苷酸(NADH)通过增加识别位点的密度(Bmax),在不同脑区使结合增强4至80倍(EC50 = 20 - 40 microM)。烟酰胺腺嘌呤二核苷酸磷酸也能增加结合,但NAD+无此作用。在骨骼肌、心脏和肾脏中,NADH对结合的影响较小。[3H]DHR结合受到鱼藤酮(IC50 = 8 - 20 nM)、哌替啶(IC50 = 34 - 57 microM)、异戊巴比妥(IC50 = 375 - 425 microM)和MPP+(IC50 = 4 - 5 mM)的抑制,这与这些化合物抑制复合体I活性的效力一致。结合在脑中呈异质性分布,灰质结构中的密度变化超过10倍。损伤研究表明,大部分结合与神经末梢相关。[3H]DHR放射自显影是第一种以高度解剖学精度检测复合体I的定量方法。该技术可能有助于阐明复合体I功能障碍在正常衰老和疾病中的潜在作用。