A metachromatic dye-ATPase method for the simultaneous identification of skeletal muscle fiber types I, IIA, IIB and IIC.

R W Ogilvie, D L Feeback
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引用次数: 122

Abstract

The histochemical demonstration of quantitative differences in myofibrillar ATPase activity at the selective pH optima of the various types of human skeletal muscle fibers is the most widely used technique for their differentiation. The basis of the reaction is the deposition of insoluble salts of inorganic phosphate cleaved from ATP by myofibrillar ATPase(s) followed by substitution of the phosphates with less soluble chromogenic salts. Doriguzzi and associates reported using metachromatic dyes to demonstrate quantitative differences in phosphate deposition among different fiber types. Following routine ATPase histochemistry and staining with either azure A or toluidine blue, fibers with low ATPase activity (and low phosphate content) were stained metachromatically while fibers with high ATPase activity (and high phosphate content) were orthochromatic with the intensity of color proportional to the content of insoluble phosphate. The metachromasia was readily lost after immoderate washing in aqueous solutions or routine dehydration in ethanol, with consequent diminished fiber type distinction. A critical modification of this technique is reported in which incubation of frozen sections of human skeletal muscle in ATP-containing medium is carried out at room temperature (22-24 C), rather than the usual 37 C, followed by a revised washing and dehydration protocol. With these modifications, the four human skeletal muscle fiber types (types I, IIA, IIB, and IIC) can be identified rapidly and reliably in single sections, obviating the need for examination of serial sections. The tinctorial differentiation allows fiber type identification even in black and white photographs.

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一种同时鉴定骨骼肌纤维类型I、IIA、IIB和IIC的渐变色染料- atp酶法。
在不同类型的人类骨骼肌纤维的选择性pH值下,肌纤维atp酶活性的定量差异的组织化学证明是其分化最广泛使用的技术。该反应的基础是由肌纤维ATP酶从ATP中分离出的不溶性无机磷酸盐盐沉积,然后用可溶性较低的显色盐取代磷酸盐。Doriguzzi和他的同事用异色染料证明了不同纤维类型中磷酸盐沉积的数量差异。在常规atp酶组织化学和蓝色A或甲苯胺蓝染色后,对低atp酶活性(低磷酸盐含量)的纤维进行偏色染色,而高atp酶活性(高磷酸盐含量)的纤维进行正色染色,颜色强度与不溶性磷酸盐的含量成正比。在水溶液中过度洗涤或在乙醇中常规脱水后,异色很容易丢失,因此纤维类型区分减弱。据报道,该技术的一项关键改进是在室温(22-24℃)下(而不是通常的37℃)将人体骨骼肌冷冻切片在含atp的培养基中孵育,然后修改洗涤和脱水方案。通过这些改进,可以在单个切片中快速可靠地识别四种人类骨骼肌纤维类型(I、IIA、IIB和IIC),从而避免了对连续切片进行检查的需要。即使在黑白照片中,颜色的区分也允许纤维类型的识别。
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