TY - JOUR
T1 - A genome-wide screen uncovers multiple roles for mitochondrial nucleoside diphosphate kinase D in inflammasome activation
AU - Ernst, Orna
AU - Sun, Jing
AU - Lin, Bin
AU - Banoth, Balaji
AU - Dorrington, Michael G.
AU - Liang, Jonathan
AU - Schwarz, Benjamin
AU - Stromberg, Kaitlin A.
AU - Katz, Samuel
AU - Vayttaden, Sharat J.
AU - Bradfield, Clinton J.
AU - Slepushkina, Nadia
AU - Rice, Christopher M.
AU - Buehler, Eugen
AU - Khillan, Jaspal S.
AU - McVicar, Daniel W.
AU - Bosio, Catharine M.
AU - Bryant, Clare E.
AU - Sutterwala, Fayyaz S.
AU - Martin, Scott E.
AU - Lal-Nag, Madhu
AU - Fraser, Iain D.C.
N1 - Publisher Copyright:
© 2021 The Authors.
PY - 2021/8/3
Y1 - 2021/8/3
N2 - Noncanonical inflammasome activation by cytosolic lipopolysaccharide (LPS) is a critical component of the host response to Gram-negative bacteria. Cytosolic LPS recognition in macrophages is preceded by a Toll-like receptor (TLR) priming signal required to induce transcription of inflammasome components and facilitate the metabolic reprograming that fuels the inflammatory response. Using a genome-scale arrayed siRNA screen to find inflammasome regulators in mouse macrophages, we identified the mitochondrial enzyme nucleoside diphosphate kinase D (NDPK-D) as a regulator of both noncanonical and canonical inflammasomes. NDPK-D was required for both mitochondrial DNA synthesis and cardiolipin exposure on the mitochondrial surface in response to inflammasome priming signals mediated by TLRs, and macrophages deficient in NDPK-D had multiple defects in LPS-induced inflammasome activation. In addition, NDPK-D was required for the recruitment of TNF receptor-associated factor 6 (TRAF6) to mitochondria, which was critical for reactive oxygen species (ROS) production and the metabolic reprogramming that supported the TLR-induced gene program. NDPK-D knockout mice were protected from LPS-induced shock, consistent with decreased ROS production and attenuated glycolytic commitment during priming. Our findings suggest that, in response to microbial challenge, NDPK-D-dependent TRAF6 mitochondrial recruitment triggers an energetic fitness checkpoint required to engage and maintain the transcriptional program necessary for inflammasome activation.
AB - Noncanonical inflammasome activation by cytosolic lipopolysaccharide (LPS) is a critical component of the host response to Gram-negative bacteria. Cytosolic LPS recognition in macrophages is preceded by a Toll-like receptor (TLR) priming signal required to induce transcription of inflammasome components and facilitate the metabolic reprograming that fuels the inflammatory response. Using a genome-scale arrayed siRNA screen to find inflammasome regulators in mouse macrophages, we identified the mitochondrial enzyme nucleoside diphosphate kinase D (NDPK-D) as a regulator of both noncanonical and canonical inflammasomes. NDPK-D was required for both mitochondrial DNA synthesis and cardiolipin exposure on the mitochondrial surface in response to inflammasome priming signals mediated by TLRs, and macrophages deficient in NDPK-D had multiple defects in LPS-induced inflammasome activation. In addition, NDPK-D was required for the recruitment of TNF receptor-associated factor 6 (TRAF6) to mitochondria, which was critical for reactive oxygen species (ROS) production and the metabolic reprogramming that supported the TLR-induced gene program. NDPK-D knockout mice were protected from LPS-induced shock, consistent with decreased ROS production and attenuated glycolytic commitment during priming. Our findings suggest that, in response to microbial challenge, NDPK-D-dependent TRAF6 mitochondrial recruitment triggers an energetic fitness checkpoint required to engage and maintain the transcriptional program necessary for inflammasome activation.
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U2 - 10.1126/scisignal.abe0387
DO - 10.1126/scisignal.abe0387
M3 - Article
C2 - 34344832
AN - SCOPUS:85112740742
SN - 1945-0877
VL - 14
JO - Science signaling
JF - Science signaling
IS - 694
M1 - eabe0387
ER -