对正常小鼠和mdx小鼠经胶原酶分离的肌纤维中钙离子稳态及存活情况的长期研究。
Long-term study of Ca(2+) homeostasis and of survival in collagenase-isolated muscle fibres from normal and mdx mice.
作者信息
De Backer F, Vandebrouck C, Gailly P, Gillis J M
机构信息
Département de Physiologie, Université Catholique de Louvain, 1200 Bruxelles, Belgium.
出版信息
J Physiol. 2002 Aug 1;542(Pt 3):855-65. doi: 10.1113/jphysiol.2002.020487.
Skeletal muscles of the mdx mouse lack dystrophin offering the possibility to study the role of intracellular Ca(2+) ions in fibre degeneration. Flexor digitorum brevis muscles of 3-month-old mdx and normal mice were dissociated with collagenase; fibres were maintained in culture for 6 days (d0 to d5) and their survival was assessed. Cytosolic [Ca(2+)], passive Mn(2+) influx (indicative of Ca(2+) influx) and activity of mechanosensitive/voltage-independent Ca(2+) channels were studied over the same period. Survival of normal fibres declined steadily from d0 to d3, but an acceleration of fibre death occurred in mdx fibres from d1 to d2. This could be greatly reduced but not abolished by lowering external [Ca(2+)] 10-fold. In the d0-d5 period, both mdx and normal fibres showed transient increases of Mn(2+) influx and activity of the Ca(2+) channels; these peaked at d1 and disappeared by d3-d4. Increases were always significantly larger in mdx fibres. Altogether, over the 6 days, 130 paired measurements of Ca(2+) and Mn(2+) influx were made on 68 fibres from mdx and 62 fibres from normal mice. In 90 % of the fibres, Ca(2+) remained within the 25-85 nM limits while Mn(2+) influx varied more than 10-fold. The median for Mn(2+) influx was 45 % greater in fibres from mdx mice than in fibres from control C57 mice. However, there was no significant difference between Ca(2+) medians in fibres from normal and mdx mice. Addition of 25-75 nM of a Ca(2+) ionophore (4-bromo-A23187) to the medium did not affect the level of cytosolic [Ca(2+)] in both types of fibres, while markedly increasing the rate of Mn(2+) influx, as expected. Thus, Ca(2+) homeostasis was equally robust in mdx and normal fibres. The remaining 10 % of the fibres showed, at d1, high levels of Mn(2+) influx and/or elevated Ca(2+) above 100 nM. This did not affect survival of normal fibres but was probably responsible of the increased death rate in mdx fibres.
mdx小鼠的骨骼肌缺乏抗肌萎缩蛋白,这为研究细胞内钙离子在纤维变性中的作用提供了可能。将3月龄mdx小鼠和正常小鼠的趾短屈肌用胶原酶解离;将肌纤维在培养中维持6天(从第0天到第5天),并评估其存活率。在同一时期研究了细胞溶质[Ca²⁺]、被动锰离子内流(指示钙离子内流)以及机械敏感/电压非依赖性钙离子通道的活性。正常肌纤维的存活率从第0天到第3天稳步下降,但mdx肌纤维从第1天到第2天出现了纤维死亡加速的情况。将细胞外[Ca²⁺]降低10倍可大大减少这种情况,但不能消除。在第0天到第5天期间,mdx和正常肌纤维均显示锰离子内流和钙离子通道活性的短暂增加;这些在第1天达到峰值,并在第3天到第4天消失。mdx肌纤维中的增加总是明显更大。总共,在这6天里,对来自mdx小鼠的68根肌纤维和来自正常小鼠的62根肌纤维进行了130次[Ca²⁺](i)和锰离子内流的配对测量。在90%的肌纤维中,[Ca²⁺](i)保持在25 - 85 nM范围内,而锰离子内流变化超过10倍。mdx小鼠肌纤维中锰离子内流的中位数比对照C57小鼠肌纤维中的高45%。然而,正常和mdx小鼠肌纤维中[Ca²⁺](i)中位数之间没有显著差异。向培养基中添加25 - 75 nM的钙离子载体(4 - 溴 - A23187)对两种类型肌纤维中的细胞溶质[Ca²⁺]水平没有影响,同时如预期的那样显著增加了锰离子内流速率。因此,mdx和正常肌纤维中的钙离子稳态同样稳定。其余10%的肌纤维在第1天显示出高水平的锰离子内流和/或[Ca²⁺](i)升高至10根以上。这并不影响正常肌纤维的存活,但可能是mdx肌纤维死亡率增加的原因。
Zotero 插件