In mammalian cells, the Golgi apparatus undergoes extensive fragmentation during apoptosis. p115 is a key vesicle tethering protein required for maintaining the structural organization of the Golgi apparatus. Here, we demonstrate that p115 was cleaved during apoptosis by caspases 3 and 8. Compared with control cells expressing native p115, those expressing a cleavage-resistant form of p115 delayed Golgi fragmentation during apoptosis. Expression of cDNAs encoding full-length or an NH2-terminal caspase cleavage fragment of p115 had no effect on Golgi morphology. In contrast, expression of the COOH-terminal caspase cleavage product of p115 itself caused Golgi fragmentation. Furthermore, this fragment translocated to the nucleus and its expression was sufficient to induce apoptosis. Most significantly, in vivo expression of the COOH-terminal fragment in the presence of caspase inhibitors, or upon coexpression with a cleavage-resistant mutant of p115, showed that p115 degradation plays a key role in amplifying the apoptotic response independently of Golgi fragmentation.
The Golgi apparatus undergoes irreversible fragmentation during apoptosis, in part as a result of caspase‐mediated cleavage of several Golgi‐associated proteins. However, Golgi structure and orientation is also regulated by the cytoskeleton and cytoskeletal changes have been implicated in inducing apoptosis. Consequently, we have analyzed the role of actin filaments and microtubules in apoptotic Golgi fragmentation. We demonstrate that in Fas receptor‐activated cells, fragmentation of the Golgi apparatus was an early event that coincided with release of cytochrome c from mitochondria. Significantly, Golgi fragmentation preceded major changes in the organization of both the actin cytoskeleton and microtubules. In staurosporine‐treated cells, actin filament organization was rapidly disrupted; however, the Golgi apparatus maintained its juxtanuclear localization and underwent complete fragmentation only at later times. Attempts to stabilize actin filaments with jasplakinolide prior to treatment with staurosporine did not prevent Golgi fragmentation. Finally, in response to Fas receptor activation or staurosporine treatment the levels of β‐actin or α‐tubulin remained unaltered, whereas several Golgi proteins, p115 and golgin‐160, underwent caspase‐mediated cleavage. Our data demonstrate that breakdown of the Golgi apparatus is an early event during apoptosis that occurs independently of major changes to the actin and tubulin cytoskeleton.
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