The localization of acid phosphatase in rat liver cells as revealed by combined cytochemical staining and electron microscopy.

S J HOLT, R M HICKS
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引用次数: 268

Abstract

Discrete localization of stain in pericanalicular granules was found in 10 micro frozen sections of formol-phosphate-sucrose-fixed liver stained by the Gomori acid phosphatase technique and examined in the light microscope. The staining patterns, before and after treatment with Triton X-100 and lecithinase, were identical with those previously reported for formol-calcium-fixed material treated in the same way, and it can be assumed that the stained granules are identical with "lysosomes." Examination in the light microscope of the staining patterns and lead penetration in fixed blocks and slices of various dimensions showed nuclear staining and other artefacts to be present, produced by the different rates of penetration of the various components of the staining medium into the tissue. A uniform pericanalicular staining pattern could be obtained, however, with slices not more than 50 micro thick, into which the staining medium could penetrate rapidly from both faces. The staining pattern produced in 50 micro slices was the same both at pH 5.0 and pH 6.2, and was not altered by subsequent embedding of the stained material in butyl methacrylate. Electron microscopy showed the fine structure of fixed 50 micro frozen slices to be well preserved, but it deteriorated badly when they were incubated in the normal Gomori medium at pH 5.0 before postfixing in osmium tetroxide. After incubation in the Gomori medium at pH 6.2, the detailed morphology was substantially maintained. In both cases lead phosphate, the reaction product, was found in the pericanalicular regions of the cell, but only in the vacuolated dense bodies and never in the microbodies. Not every vacuolated dense body contained lead, and stained and unstained bodies were sometimes seen adjacent to each other. This heterogeneous distribution of stain within a morphologically homogeneous group of particles is consistent with de Duve's suggestion (9) that there is a heterogeneous distribution of enzymes within the lysosome population. It is concluded from these investigations that the vacuolated dense bodies seen in the electron microscope are the morphological counterparts of the "lysosomes" defined biochemically by de Duve.

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联合细胞化学染色和电镜观察酸性磷酸酶在大鼠肝细胞中的定位。
用Gomori酸性磷酸酶染色法对10个甲醛-磷酸盐-蔗糖-固定肝脏的冷冻切片进行光镜观察,发现微管周围颗粒中有离散的斑点。Triton X-100和卵磷脂酶处理前后的染色模式与先前报道的用相同方法处理的甲醛-钙固定材料的染色模式相同,可以假设染色的颗粒与“溶酶体”相同。在光学显微镜下检查染色模式和铅在不同尺寸的固定块和切片中的渗透情况,发现有核染色和其他人工产物存在,这是由染色介质的不同成分渗透到组织中的不同速率产生的。然而,可以获得均匀的管周染色模式,切片不超过50微厚,染色介质可以从两面快速渗透。在pH 5.0和pH 6.2下,50个微片的染色模式是相同的,并且随后将染色材料包埋在甲基丙烯酸丁酯中没有改变。电镜观察显示,固定后的50片微冻切片的超微结构保存良好,但在pH 5.0的正常Gomori培养基中孵育后,在四氧化二锇中固定后,其超微结构严重恶化。在pH 6.2的Gomori培养基中孵育后,其详细形态基本保持不变。在这两种情况下,反应产物磷酸铅都存在于细胞的管周区域,但只存在于液泡化致密体中,而不存在于微体中。并非每个液泡致密体都含有铅,有时可见染色体和未染色体相邻。在形态均匀的颗粒群中,这种染色的不均匀分布与de Duve的建议(9)是一致的,即溶酶体群体中酶的分布是不均匀的。从这些研究中可以得出结论,在电子显微镜下看到的液泡状致密体是de Duve生物化学定义的“溶酶体”的形态对应物。
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