Discovery of SQSTM1/p62-dependent P-bodies that regulate the NLRP3 inflammasome.

Autophagy and ribonucleoprotein granules, such as P-bodies (PBs) and stress granules, represent vital stress responses to maintain cellular homeostasis. SQSTM1/p62 phase-separated droplets are known to play critical roles in selective autophagy; however, it is unknown whether p62 can exist as another form in addition to its autophagic droplets. Here, we found that, under stress conditions, including proteotoxicity, endotoxicity, and oxidation, autophagic p62 droplets are transformed to a type of enlarged PBs, termed p62-dependent P-bodies (pd-PBs). p62 phase separation is essential for the nucleation of pd-PBs. Mechanistically, pd-PBs are triggered by enhanced p62 droplet formation upon stress stimulation through the interactions between p62 and DDX6, a DEAD-box ATPase. Functionally, pd-PBs recruit the NLRP3 inflammasome adaptor ASC to assemble the NLRP3 inflammasome and induce inflammation-associated cytotoxicity. Our study shows that p62 droplet-to-PB transformation acts as a stress response to activate the NLRP3 inflammasome process, suggesting that persistent pd-PBs lead to NLRP3-dependent inflammation toxicity.

Extracellular release of the glycosylphosphatidylinositol (GPI)-linked Leishmania surface metalloprotease, gp63, is independent of GPI phospholipolysis: implications for parasite virulence.

The major zinc metalloprotease of Leishmania (gp63), an important determinant of parasite virulence, is attached to the parasite surface via a glycosylphosphatidylinositol anchor. Here we report the spontaneous release of proteolytically active gp63 from a number of Leishmania isolates, causing cutaneous and visceral disease. To investigate the mechanism(s) of gp63 release, we transfected a gp63-deficient variant of Leishmania amazonensis with constructs expressing gp63 and various mutants thereof. Surprisingly, approximately half of wild type gp63 was found in the culture supernatant 12 h post-synthesis. Biochemical analysis of the extracellular gp63 revealed two forms of the protein, one that is released from the cell surface, and another, that apparently is directly secreted. Release of cell surface gp63 was significantly reduced when the proteolytic activity of the protein was inactivated by site-specific mutagenesis or inhibited by zinc chelation, suggesting that release involves autoproteolysis. The extracellular gp63 does not contain a glycosylphosphatidylinositol moiety or ethanolamine, indicating that phospholipolysis is not involved in the release process. Release of gp63 is also independent of glycosylation. The finding of proteolytically active, extracellular gp63 produced by multiple Leishmania isolates suggests a potential role of the extracellular enzyme in substrate degradation relevant to their survival in both the mammalian host and the insect vector.