大鼠心室肌细胞胞质和线粒体钠浓度的荧光测量。
Fluorescence measurements of cytoplasmic and mitochondrial sodium concentration in rat ventricular myocytes.
作者信息
Donoso P, Mill J G, O'Neill S C, Eisner D A
机构信息
Department of Veterinary Preclinical Sciences, University of Liverpool.
出版信息
J Physiol. 1992 Mar;448:493-509. doi: 10.1113/jphysiol.1992.sp019053.
Abstract
- The fluorescent Na+ indicator SBFI was incorporated into isolated ventricular myocytes using the acetoxymethyl (AM) ester. 2. The excitation spectrum was found to be shifted about 20 nm in the cell compared to in vitro. In the cell, an increase of [Na+] decreased fluorescence at 380 nm (F380) and had no effect at 340 nm (F340). The ratio (R = F340/F380) was used as a measure of [Na+]i. 3. In vivo calibration of SBFI for [Na+]i was obtained by equilibrating [Na+] across the plasma membrane with a divalent-free solution in the presence of gramicidin D. 4. Selective removal of the surface membrane with saponin or digitonin released only about 50% of the indicator. Following saponin treatment, cyanide or carbonylcyanide m-chlorphenylhydrazone (CCCP) increased the apparent [Na+] measured by the remaining (presumably mitochondrial) SBFI. It is suggested that mitochondrial [Na+] is normally less than cytoplasmic. 5. Attempts to examine the effects of metabolic inhibition on [Na+]i were hampered by changes of autofluorescence due to changes of [NADH]. It is shown that this effect can be corrected for using the isosbestic signal (excited at 340 nm). 6. Inhibition of both aerobic metabolism (with CN-) and glycolysis (glucose removal or iodoacetate) produced a gradual increase of [Na+]i. This began before the resting contracture developed and may (via Na(+)-Ca2+ exchange) account for some of the rise of diastolic [Ca2+]i seen in previous work. The rise of [Na+]i began at about the same time as the decrease of systolic contraction and therefore at a time when [ATP]i had begun to fall.
摘要
- 采用乙酰氧基甲基(AM)酯将荧光钠指示剂SBFI导入分离的心室肌细胞。2. 发现细胞内的激发光谱相较于体外发生了约20 nm的位移。在细胞内,[Na⁺]升高会使380 nm处的荧光(F380)降低,而对340 nm处的荧光(F340)无影响。比值(R = F340/F380)用作[Na⁺]i的测量指标。3. 通过在短杆菌肽D存在的情况下用无二价离子溶液平衡质膜两侧的[Na⁺],实现了SBFI对[Na⁺]i的体内校准。4. 用皂角苷或洋地黄皂苷选择性去除表面膜仅释放了约50%的指示剂。皂角苷处理后,氰化物或羰基氰化物间氯苯腙(CCCP)会使剩余的(可能是线粒体的)SBFI测量的表观[Na⁺]增加。这表明线粒体[Na⁺]通常低于细胞质。5. 由于[NADH]变化导致的自发荧光改变阻碍了对代谢抑制对[Na⁺]i影响的研究。结果表明,可使用等吸收点信号(在340 nm激发)校正此效应。6. 有氧代谢(用CN⁻)和糖酵解(去除葡萄糖或碘乙酸)的抑制均导致[Na⁺]i逐渐升高。这在静息挛缩出现之前就开始了,并且可能(通过Na⁺-Ca²⁺交换)解释了先前研究中观察到的舒张期[Ca²⁺]i升高的部分原因。[Na⁺]i的升高与收缩期收缩的降低大约同时开始,因此是在[ATP]i开始下降的时候。
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