Sawano F, Ravazzola M, Amherdt M, Perrelet A, Orci L
Exp Cell Res. 1986 May;164(1):174-82. doi: 10.1016/0014-4827(86)90464-7.
Upon exposure of pancreatic B cells to exogenous horseradish peroxidase (HRP), a population of secretory granules becomes HRP-labelled. In isolated islets of Langerhans, we studied the fate of HRP-labelled secretory granules during a pulse-chase experiment with HRP in order to assess their relationship with lysosomes containing secretory granule cores. These structures (crinophagic or multigranular bodies) were previously shown to be a site of insulin degradation (Orci et al., J cell biol 98 (1984) 222) [4]. After a 15-min pulse of peroxidase, the number and volume density of HRP-labelled secretory granules decreased over an 85-min chase period, during which the number and volume density of multigranular bodies labelled with HRP was significantly increased. At both time points, the surface density of HRP-labelled Golgi elements was very small compared with that of unlabelled ones. By autoradiography after a 5-min pulse of [3H]leucine and a 55-min chase, followed by a 15-min pulse of HRP and a 85-min chase, we could show that the majority of HRP-containing secretory granules were not radioactively labelled granules. These results suggest that: The low degree of HRP labelling of the Golgi makes it unlikely that secretory granules derive their HRP by budding from HRP-labelled cisternae. HRP-labelled SGs are preferentially transferred to MGBs (which become HRP-labelled) for prospective degradation. HRP labelling does not involve newly-formed mature secretory granules.
当胰腺β细胞暴露于外源性辣根过氧化物酶(HRP)时,一群分泌颗粒会被HRP标记。在分离的胰岛中,我们在HRP脉冲追踪实验中研究了HRP标记的分泌颗粒的命运,以评估它们与含有分泌颗粒核心的溶酶体的关系。这些结构(噬分泌或多颗粒体)先前已被证明是胰岛素降解的部位(奥尔西等人,《细胞生物学杂志》98(1984)222)[4]。在过氧化物酶脉冲处理15分钟后,HRP标记的分泌颗粒的数量和体积密度在85分钟的追踪期内下降,在此期间,用HRP标记的多颗粒体的数量和体积密度显著增加。在这两个时间点,与未标记的高尔基体元件相比,HRP标记的高尔基体元件的表面密度非常小。通过在[3H]亮氨酸脉冲处理5分钟和追踪55分钟,然后HRP脉冲处理15分钟和追踪85分钟后进行放射自显影,我们可以表明,大多数含HRP的分泌颗粒不是放射性标记的颗粒。这些结果表明:高尔基体的HRP标记程度低,使得分泌颗粒不太可能通过从HRP标记的潴泡出芽获得其HRP。HRP标记的分泌颗粒优先转移到多颗粒体(其变为HRP标记)进行预期的降解。HRP标记不涉及新形成的成熟分泌颗粒。