Narayanan N
Mech Ageing Dev. 1987 Apr;38(2):127-43. doi: 10.1016/0047-6374(87)90073-x.
Age-associated decline in the Ca2+ pump function of cardiac sarcoplasmic reticulum (SR), and increase in the Ca2+ pump activity of sarcolemma (SL) were suggested by my previous study which compared the ATP-energized in vitro Ca2+ transport activities of these membranes from young (3-4-month-old) and aged (24-25-month-old) rat myocardium (Biochim. Biophys. Acta, 678 (1981) 442-459). In the present study, ATP-dependent Ca2+ transport and Ca2+ sensitive ATPase activities of SR and SL derived from the myocardium of rats aged 3 (young), 6 (young adult), 12 (adult), 18 (aging) and 24 (aged) months were determined so as to further characterize age-related changes in the Ca2+ transport function of these membranes. The rates of ATP-dependent Ca2+ accumulation by SR from 3- and 6-month-old rats were virtually similar whereas the rates of Ca2+ accumulation by this membrane from 12-, 18- and 24-month-old rats were significantly lower when compared to 3- or 6-month-old rats; the magnitude of this age-related decline amounted to approx. 18, 45 and 50%, respectively, for SR from 12-, 18- and 24-month-old animals. In contrast to the above findings with SR, SL from 18- and 24-month-old rats displayed substantially higher rates (approx. 45 and 80% increase, respectively, at 18 and 24 months of age) of ATP-dependent Ca2+ accumulation than SL preparations from 3-, 6- and 12-month-old rats; no significant age-related difference was evident between the latter three age groups. The divergent age-related changes in the Ca2+ accumulating activities of SR and SL were seen at varying Ca2+ concentrations (0.54-25.2 microM). With either membrane, kinetic analysis showed that the velocity of Ca2+ transport, but not the apparent affinity of the transport system for Ca2+ underwent age-related changes. The Ca2+-stimulated ATPase activities of SR and SL were not altered significantly with increasing age from 3 to 24 months. Comparison of the 'combined Ca2+ transport activity' of SR and SL from rats of various ages showed a significant overall age-related decline in the rates of Ca2+ transport via the ATP-driven membrane Ca2+ pumps; this decrement in membrane function was moderate at 12 months of age (approx. 16%) and became pronounced with advancing age thereafter (approx. 35 and 38%, respectively, at 18 and 24 months of age). Similar progressive age-related decline was observed in the ATP-dependent Ca2+ sequestering activity of cardiac homogenates.(ABSTRACT TRUNCATED AT 400 WORDS)
我之前的研究比较了年轻(3 - 4月龄)和老年(24 - 25月龄)大鼠心肌中这些膜的ATP驱动的体外Ca2+转运活性,结果表明,心脏肌浆网(SR)的Ca2+泵功能随年龄增长而下降,而肌膜(SL)的Ca2+泵活性则增加(《生物化学与生物物理学报》,678 (1981) 442 - 459)。在本研究中,测定了3月龄(年轻)、6月龄(青年)、12月龄(成年)、18月龄(衰老)和24月龄(老年)大鼠心肌来源的SR和SL的ATP依赖性Ca2+转运及Ca2+敏感ATP酶活性,以进一步表征这些膜Ca2+转运功能的年龄相关变化。3月龄和6月龄大鼠的SR对ATP依赖性Ca2+的积累速率实际上相似,而12月龄、18月龄和24月龄大鼠的该膜Ca2+积累速率与3月龄或6月龄大鼠相比显著降低;对于12月龄、18月龄和24月龄动物的SR,这种与年龄相关的下降幅度分别约为18%、45%和50%。与SR的上述结果相反,18月龄和24月龄大鼠的SL表现出比3月龄、6月龄和12月龄大鼠的SL制剂更高的ATP依赖性Ca2+积累速率(18月龄和24月龄时分别约增加45%和80%);后三个年龄组之间没有明显的与年龄相关的差异。在不同的Ca2+浓度(0.54 - 25.2 microM)下观察到SR和SL的Ca2+积累活性存在不同的与年龄相关的变化。对于任何一种膜,动力学分析表明,Ca2+转运速度而不是转运系统对Ca2+的表观亲和力发生了与年龄相关的变化。从3月龄到24月龄,SR和SL的Ca2+刺激的ATP酶活性没有显著改变。比较不同年龄大鼠的SR和SL的“联合Ca2+转运活性”,结果显示通过ATP驱动的膜Ca2+泵的Ca2+转运速率总体上存在显著的与年龄相关的下降;膜功能的这种下降在12月龄时适中(约16%),此后随着年龄增长而变得明显(18月龄和24月龄时分别约为35%和38%)。在心脏匀浆的ATP依赖性Ca2+螯合活性中也观察到类似的与年龄相关的逐渐下降。(摘要截断于400字)
