Tooze J, Tooze S A
J Cell Biol. 1986 Sep;103(3):839-50. doi: 10.1083/jcb.103.3.839.
We have studied by electron microscopy and immunocytochemistry the formation of secretory granules containing adrenocorticotropic hormone (ACTH) in murine pituitary cells of the AtT20 line. The first compartment in which condensed secretory protein appears is a complex reticular network at the extreme trans side of the Golgi stacks beyond the TPPase-positive cisternae. Condensed secretory protein accumulates in dilated regions of this trans Golgi network. Examination of en face and serial sections revealed that "condensing vacuoles" are in fact dilations of the trans Golgi network and not detached vacuoles. Only after presumptive secretory granules have reached an advanced stage of morphological maturation do they detach from the trans Golgi network. Frequently both the dilations of the trans Golgi network containing condensing secretory protein and the detached immature granules in the peri-Golgi region have surface coats which were identified as clathrin by immunocytochemistry. Moreover both are the site of budding (or fusion) of coated vesicles, some of which contain condensed secretory protein. The mature granules below the plasma membrane do not, however, have surface coats. Immunoperoxidase labeling with an antiserum specific for ACTH and its precursor polypeptide confirmed that many of the coated vesicles associated with the trans Golgi network contain ACTH. The involvement of the trans Golgi network and coated vesicles in the formation of secretory granules is discussed.
我们通过电子显微镜和免疫细胞化学方法研究了AtT20系小鼠垂体细胞中含促肾上腺皮质激素(ACTH)分泌颗粒的形成过程。分泌蛋白开始浓缩的第一个区域是高尔基体堆栈最外侧反面的一个复杂网状网络,位于TPP酶阳性的潴泡之外。浓缩的分泌蛋白在这个反面高尔基体网络的扩张区域积累。对正面和连续切片的检查显示,“浓缩泡”实际上是反面高尔基体网络的扩张,而不是游离的泡。只有在假定的分泌颗粒达到形态成熟的晚期阶段,它们才会从反面高尔基体网络脱离。含有浓缩分泌蛋白的反面高尔基体网络扩张区域和高尔基体周围区域中游离的未成熟颗粒通常都有表面衣被,免疫细胞化学鉴定其为网格蛋白。此外,两者都是有被小泡出芽(或融合)的部位,其中一些含有浓缩的分泌蛋白。然而,质膜下方的成熟颗粒没有表面衣被。用针对ACTH及其前体多肽的抗血清进行免疫过氧化物酶标记证实,许多与反面高尔基体网络相关的有被小泡含有ACTH。本文讨论了反面高尔基体网络和有被小泡在分泌颗粒形成中的作用。