PLoS Pathogens (Feb 2014)

Human genome-wide RNAi screen identifies an essential role for inositol pyrophosphates in Type-I interferon response.

  • Niyas Kudukkil Pulloor,
  • Sajith Nair,
  • Kathleen McCaffrey,
  • Aleksandar D Kostic,
  • Pradeep Bist,
  • Jeremy D Weaver,
  • Andrew M Riley,
  • Richa Tyagi,
  • Pradeep D Uchil,
  • John D York,
  • Solomon H Snyder,
  • Adolfo García-Sastre,
  • Barry V L Potter,
  • Rongtuan Lin,
  • Stephen B Shears,
  • Ramnik J Xavier,
  • Manoj N Krishnan

DOI
https://doi.org/10.1371/journal.ppat.1003981
Journal volume & issue
Vol. 10, no. 2
p. e1003981

Abstract

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The pattern recognition receptor RIG-I is critical for Type-I interferon production. However, the global regulation of RIG-I signaling is only partially understood. Using a human genome-wide RNAi-screen, we identified 226 novel regulatory proteins of RIG-I mediated interferon-β production. Furthermore, the screen identified a metabolic pathway that synthesizes the inositol pyrophosphate 1-IP7 as a previously unrecognized positive regulator of interferon production. Detailed genetic and biochemical experiments demonstrated that the kinase activities of IPPK, PPIP5K1 and PPIP5K2 (which convert IP5 to1-IP7) were critical for both interferon induction, and the control of cellular infection by Sendai and influenza A viruses. Conversely, ectopically expressed inositol pyrophosphate-hydrolases DIPPs attenuated interferon transcription. Mechanistic experiments in intact cells revealed that the expression of IPPK, PPIP5K1 and PPIP5K2 was needed for the phosphorylation and activation of IRF3, a transcription factor for interferon. The addition of purified individual inositol pyrophosphates to a cell free reconstituted RIG-I signaling assay further identified 1-IP7 as an essential component required for IRF3 activation. The inositol pyrophosphate may act by β-phosphoryl transfer, since its action was not recapitulated by a synthetic phosphonoacetate analogue of 1-IP7. This study thus identified several novel regulators of RIG-I, and a new role for inositol pyrophosphates in augmenting innate immune responses to viral infection that may have therapeutic applications.