14-3-3ε–dependent deubiquitination and translocation of NLRP3 activates the inflammasome during sepsis
Xingyu Li, Siqi Ming, Can Cao, Yating Xu, Jingxian Shu, Ning Tan, Xi Huang, Yongjian Wu
Xingyu Li, Siqi Ming, Can Cao, Yating Xu, Jingxian Shu, Ning Tan, Xi Huang, Yongjian Wu
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Research Article Infectious disease Inflammation

14-3-3ε–dependent deubiquitination and translocation of NLRP3 activates the inflammasome during sepsis

Abstract

The activation of the NLRP3 inflammasome is a pivotal step in hyperinflammation in sepsis; however, the regulatory mechanisms underlying its activation are not fully understood. In this study, we found that 14-3-3ε facilitates NLRP3 inflammasome activation by enhancing NLRP3 K63 deubiquitination and promoting its translocation to the mitochondria-associated ER membranes (MAMs) for full activation. Mass spectrometry revealed that 14-3-3ε binds to NLRP3 in macrophages during sepsis. Plasma 14-3-3ε levels were elevated in patients with sepsis and were positively associated with disease severity. 14-3-3ε promoted NLRP3 inflammasome activation by facilitating NLRP3 aggregation and NLRP3–ASC assembly. The interaction between 14-3-3ε and NLRP3 was dependent on phosphorylation at the S194 site of NLRP3 NACHT domain. The NLRP3–14-3-3ε interaction promoted K63 deubiquitination and enhanced the translocation of NLRP3 to MAMs, which is necessary for full activation of NLRP3 inflammasome. Furthermore, macrophage-conditional KO of 14-3-3ε or treatment with BV02, a 14-3-3 inhibitor, improved the survival rate and alleviated organ injuries in septic mice. Taken together, our data indicate that 14-3-3ε functions as a positive regulator of the NLRP3 inflammasome and could be a target for sepsis treatment.

Authors

Xingyu Li, Siqi Ming, Can Cao, Yating Xu, Jingxian Shu, Ning Tan, Xi Huang, Yongjian Wu

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Figure 5

14-3-3ε promotes NLRP3 K63–linked deubiquitination via the phosphorylation of NLRP3 at S194.

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14-3-3ε promotes NLRP3 K63–linked deubiquitination via the phosphorylati...
(A) BMDMs from 14-3-3εfl/fl mice or 14-3-3εfl/fl Lyz2Cre mice were treated with LPS alone or cotreated with LPS and Nig. Ubiquitination levels of NLRP3 were detected using co-IP analysis. (B) HEK-293T cells were cotransfected with Myc-tagged NLRP3 and HA-tagged Ub plasmids together with different amounts of FLAG-tagged 14-3-3ε plasmids (μg). Myc-NLRP3 was then immunoprecipitated with anti-Myc antibody to detect the ubiquitination levels of NLRP3. (C) Co-IP analysis was performed to detect the K48 or K63 ubiquitinated-NLRP3 in MG132-treated HEK-293T cells, which were transfected with FLAG-tagged 14-3-3ε, Myc-NLRP3, and HA-tagged K48/K63-linked Ub plasmids. (D) HEK-293T cells were cotransfected with FLAG-tagged 14-3-3ε, Myc-tagged Ub, and HA-tagged ΔPYD, ΔNACHT, and ΔLRR plasmids, after which they were treated with MG132 and the ubiquitination levels of NLRP3 truncations were detected using co-IP analysis. (E) HEK-293T cells were cotransfected with FLAG-tagged 14-3-3ε, Myc-tagged NLRP3, and HA-tagged Ub plasmids. The cells were then treated with anisomycin or SP100625 and subsequently with MG132. Whole cell lysates were prepared to detect the ubiquitination levels of NLRP3 using co-IP analysis. (F) HEK-293T cells were cotransfected with FLAG-tagged 14-3-3ε, Myc-tagged Ub, and HA-tagged WT or S194A mutated NLRP3 plasmids and treated with MG132. The ubiquitination levels of NLRP3 were detected using co-IP analysis.