Azuma J, Harada H, Sawamura A, Ohta H, Awata N, Yamauchi K, Kishimoto S, Sperelakis N
Basic Res Cardiol. 1985 Mar-Apr;80(2):147-55. doi: 10.1007/BF01910462.
Coenzyme Q, an important component of the electron transfer system in mitochondria, plays a central role in energy production aerobically. The effect of pretreatment with coenzyme Q10 (Co Q) on myocardial slow action potentials (APs) and accompanying contractions and on myocardial high energy phosphate content was studied in perfused hearts subjected to decreased perfusion pressure-hypoxia-substrate-free. Post-hatched chicks were treated i.p. with 10 mg/kg of Co Q daily for 5 days. To study the slow APs exclusively, the fast Na+ channels were voltage-inactivated by elevated K+ (25 mM) Tyrode solution. The Ca++-dependent slow APs were induced by elevating [Ca]o to 5.4 mM; hearts were paced at a rate of 40 per min. Hearts which had been pretreated with Co Q were protected against the deleterious effect of decreased perfusion pressure - hypoxia - substrate-free perfusion on mechanical performance accompanying the slow Ca++-Na+ APs. The slow APs in hearts pretreated with Co Q were also less affected than were non-treated hearts. However, the myocardial ATP and total adenine nucleotides were not affected by exogenous Co Q. It was suggested that exogenous Co Q could protect against the decline of cardiac contractions via improved availability of slow APs during decreased perfusion pressure - hypoxia - substrate-free, independently of the cellular high energy phosphate level.
辅酶Q是线粒体电子传递系统的重要组成部分,在有氧能量产生中起核心作用。研究了在灌注压降低-缺氧-无底物的灌注心脏中,用辅酶Q10(Co Q)预处理对心肌慢动作电位(APs)及其伴随的收缩以及心肌高能磷酸含量的影响。孵化后的雏鸡腹腔注射10mg/kg Co Q,每日1次,共5天。为了专门研究慢动作电位,通过升高K+(25mM)的台氏液使快速Na+通道电压失活。通过将[Ca]o升高到5.4mM诱导Ca++依赖性慢动作电位;心脏以每分钟40次的速率起搏。用Co Q预处理的心脏在慢Ca++-Na+动作电位伴随的机械性能方面,免受灌注压降低-缺氧-无底物灌注的有害影响。用Co Q预处理的心脏中的慢动作电位也比未处理的心脏受影响小。然而,心肌ATP和总腺嘌呤核苷酸不受外源性Co Q的影响。有人提出,外源性Co Q可以在灌注压降低-缺氧-无底物期间,通过改善慢动作电位的可用性来防止心脏收缩力下降,而与细胞高能磷酸水平无关。
