Autophagic Cell Death by Poncirus trifoliata Rafin., a Traditional Oriental Medicine, in Human Oral Cancer HSC-4 Cells

In the process of autophagy, a ubiquitin-like molecule, LC3/Atg8, is conjugated to phosphatidylethanolamine (PE) and associates with forming autophagosomes. In mammalian cells, the existence of multiple Atg8 homologues (referred to as LC3 paralogues) has hampered genetic analysis of the lipidation of LC3 paralogues. Here, we show that overexpression of an inactive mutant of Atg4B, a protease that processes pro-LC3 paralogues, inhibits autophagic degradation and lipidation of LC3 paralogues. Inhibition was caused by sequestration of free LC3 paralogues in stable complexes with the Atg4B mutant. In mutant overexpressing cells, Atg5- and ULK1-positive intermediate autophagic structures accumulated. The length of these membrane structures was comparable to that in control cells; however, a significant number were not closed. These results show that the lipidation of LC3 paralogues is involved in the completion of autophagosome formation in mammalian cells. This study also provides a powerful tool for a wide variety of studies of autophagy in the future.

Cisplatin-based treatment is the first line chemotherapy for several cancers including ovarian cancer. The development of cisplatin resistance results in treatment failure, but the underlying mechanisms are not fully understood. Here we show that the induction of autophagy plays an important role in cisplatin resistance in ovarian cancer cells. Specifically, we show that cisplatin resistance is correlated with autophagy induction in a panel of ovarian cancer cells but not in immortalized human ovarian surface epithelial cells. Mechanistically, cisplatin treatment activates ERK and subsequently promotes autophagy. The inhibition of ERK activation with MEK inhibitors or knockdown of ERK expression with siRNA decreases cisplatin-induced autophagy and subsequently sensitizes ovarian cancer cells to cisplatin-induced apoptosis. In ovarian cancer cells that have developed acquired cisplatin resistance, both ERK activation and autophagy induction are increased. Importantly, knockdown of ERK or inhibition of autophagy promotes cisplatin-induced apoptosis in acquired cisplatin-resistant cells. Collectively, our data indicate that ERK-mediated autophagy can lead to cisplatin resistance and suggest that cisplatin resistance can be overcome by inhibition of autophagy in ovarian cancer cells.

In yeast, Atg4/Apg4 is a unique cysteine protease responsible for the cleavage of the carboxyl terminus of Atg8/Apg8/Aut7, a reaction essential for its lipidation during the formation of autophagosomes. However, it is still unclear whether four human Atg4 homologues cleave the carboxyl termini of the three human Atg8 homologues, microtubule-associated protein light chain 3 (LC3), GABARAP, and GATE-16. Using a cell-free system, we found that HsAtg4B, one of the human Atg4 homologues, cleaves the carboxyl termini of these three Atg8 homologues. In contrast, the mutant HsAtg4B(C74A), in which a predicted active site Cys(74) was changed to Ala, lacked proteolytic activity, indicating that Cys(74) is essential for the cleavage activity of cysteine protease. Using phospholipase D, we showed that the modified forms of endogenous LC3 and GABARAP are lipidated and therefore were designated LC3-PL and GABARAP-PL. When purified glutathione S-transferase-tagged HsAtg4B was incubated in vitro with a membrane fraction enriched with endogenous LC3-PL and GABARAP-PL, the mobility of LC3-PL and GABARAP-PL was changed to those of the unmodified proteins. These mobility shifts were not seen when Cys(74) of HsAtg4B was changed to Ala. Overexpression of wild-type HsAtg4B decreased the amount of LC3-PL and GABARAP-PL and increased the amount of unmodified endogenous LC3 and GABARAP in HeLa cells. Expression of CFP-tagged HsAtg4B (CFP-HsAtg4B) and YFP-tagged LC3 in HeLa cells under starvation conditions resulted in a significant decrease in the punctate pattern of distribution of YFP-tagged LC3 and an increase in its cytoplasmic distribution. RNA interference of HsAtg4B increased the amount of LC3-PL in HEK293 cells. Taken together, these results suggest that HsAtg4B negatively regulates the localization of LC3 to a membrane compartment by delipidation.