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代谢抑制对离体大鼠心室细胞内钙及pH值的影响。

The effects of metabolic inhibition on intracellular calcium and pH in isolated rat ventricular cells.

作者信息

Eisner D A, Nichols C G, O'Neill S C, Smith G L, Valdeolmillos M

机构信息

Department of Physiology, University College London.

出版信息

J Physiol. 1989 Apr;411:393-418. doi: 10.1113/jphysiol.1989.sp017580.

DOI:10.1113/jphysiol.1989.sp017580
PMID:2614727
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1190531/
Abstract
  1. Intracellular calcium concentration [( Ca2+]i) and pH (pHi) were measured in single, isolated rat ventricular myocytes using, respectively, the fluorescent indicators Fura-2 and BCECF (2',7'-bis(carboxyethyl-5(6)-carboxyfluorescein). Contraction was measured simultaneously. The intracellular calibration of BCECF is demonstrated. In a HEPES-buffered bathing solution of pH 7.4, pHi had a mean value of 7.16 +/- 0.05 (mean +/- S.E.M.). 2. Addition of NH4Cl (5-20 mM) produced an intracellular alkalosis that was associated with an increase of contraction amplitude. Removal of NH4Cl produced an acidosis and decrease of contraction. 3. The addition of 2 mM-cyanide (CN-) to inhibit oxidative phosphorylation had variable effects on contraction amplitude. Changes of contraction amplitude could largely be accounted for by changes in the systolic Ca2+ transient. 4. CN- addition increased lactic acid production. However, in the majority of experiments, this was not accompanied by an intracellular acidosis. 5. Anaerobic glycolysis was inhibited by either removal of glucose, addition of deoxyglucose, or addition of iodoacetate. Under these conditions the application of CN- decreased systolic [Ca2+]i and contraction amplitude. This was sometimes preceded by a transient increase of systolic [Ca2+]i and contraction amplitude. 6. When glycolysis was inhibited, the subsequent addition of CN- always increased diastolic [Ca2+]i and produced a contracture. The increase of [Ca2+]i occurred before the contracture. However, once the contracture had developed, decreasing [Ca2+]i (by removal of external Ca2+) did not cause relaxation. 7. With glycolysis inhibited, addition of CN- resulted in a large (0.51 +/- 0.05 pH unit) acidosis that was sometimes preceded by an alkalosis. This acidosis was unaffected by removal of external Ca2+ or external alkalinization. Calculations show that some of this acidosis may result from protons released by ATP hydrolysis. 8. If the acidosis produced by metabolic blockade was partly reversed by adding NH4Cl then a contracture immediately developed. This suggests that the acidosis delays the onset of the contracture. 9. We conclude that metabolic inhibition increases diastolic [Ca2+]i. The accompanying acidosis prevents contraction. Once the contracture has developed it is maintained by factors other than increased [Ca2+]i, possibly by a fall of [ATP].
摘要
  1. 使用荧光指示剂Fura-2和BCECF(2',7'-双(羧乙基-5(6)-羧基荧光素)分别测量单个分离的大鼠心室肌细胞内的钙浓度[(Ca2+]i)和pH(pHi)。同时测量收缩情况。展示了BCECF的细胞内校准。在pH 7.4的HEPES缓冲浴液中,pHi的平均值为7.16±0.05(平均值±标准误)。2. 添加NH4Cl(5 - 20 mM)会导致细胞内碱中毒,并伴有收缩幅度增加。去除NH4Cl会导致酸中毒和收缩减弱。3. 添加2 mM氰化物(CN-)抑制氧化磷酸化对收缩幅度有不同影响。收缩幅度的变化很大程度上可由收缩期Ca2+瞬变的变化来解释。4. 添加CN-会增加乳酸生成。然而,在大多数实验中,这并未伴有细胞内酸中毒。5. 通过去除葡萄糖、添加脱氧葡萄糖或添加碘乙酸抑制无氧糖酵解。在这些条件下,应用CN-会降低收缩期[Ca2+]i和收缩幅度。这有时之前会有收缩期[Ca2+]i和收缩幅度的短暂增加。6. 当糖酵解被抑制时,随后添加CN-总是会增加舒张期[Ca2+]i并产生挛缩。[Ca2+]i的增加发生在挛缩之前。然而,一旦挛缩形成,降低[Ca2+]i(通过去除细胞外Ca2+)并不会导致舒张。7. 在糖酵解被抑制的情况下,添加CN-会导致大幅度(0.51±0.05 pH单位)的酸中毒,有时之前会有碱中毒。这种酸中毒不受去除细胞外Ca2+或细胞外碱化的影响。计算表明,这种酸中毒的一部分可能是由ATP水解释放的质子引起的。8. 如果通过添加NH4Cl部分逆转代谢阻断产生的酸中毒,那么会立即出现挛缩。这表明酸中毒会延迟挛缩的发生。9. 我们得出结论,代谢抑制会增加舒张期[Ca2+]i。伴随的酸中毒会阻止收缩。一旦挛缩形成,它是由除[Ca2+]i增加之外的因素维持的,可能是由[ATP]的下降维持的。
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d704/1190531/54ce404aace4/jphysiol00491-0403-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d704/1190531/01cc947b2d77/jphysiol00491-0398-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d704/1190531/21aa347ed147/jphysiol00491-0401-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d704/1190531/fa2d51e1ef90/jphysiol00491-0401-b.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d704/1190531/54ce404aace4/jphysiol00491-0403-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d704/1190531/01cc947b2d77/jphysiol00491-0398-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d704/1190531/21aa347ed147/jphysiol00491-0401-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d704/1190531/fa2d51e1ef90/jphysiol00491-0401-b.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d704/1190531/54ce404aace4/jphysiol00491-0403-a.jpg

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