Sterol scarcity primes p38 immune defenses through a TIR-1/SARM1 phase transition

Intracellular signaling regulators are concentrated into membrane-free, higher-ordered protein assemblies to initiate protective responses during stress — a process known as phase transition. Here, we show that a phase transition of the C. elegans Toll/interleukin-1 receptor domain protein (TIR-1), a homolog of the mammalian sterile alpha and TIR motif-containing 1 (SARM1), primes host immune defenses when dietary sterols are limited to handle subsequent bacterial infection. TIR-1/SARM1 is an upstream component of the p38 PMK-1 pathway in intestinal cells, an innate immune defense and stress response pathway in metazoans. Under conditions of low cholesterol availability, multimerization and precipitation of TIR-1/SARM1 potentiates the intrinsic NAD+ glycohydrolase activity of this protein complex, increases p38 PMK-1 phosphorylation, and promotes pathogen clearance from the intestine. Dietary cholesterol is required for C. elegans to survive infection with pathogenic bacteria and to support development, fecundity, and lifespan. Thus, activation of the p38 PMK-1 pathway in sterol-deficient animals is an adaptive response that allows a metazoan host to anticipate environmental threats under conditions of essential metabolite scarcity. Overall design: RNA-seq of C. elegans wild-type (N2), nhr-8(hd117), and nhr-8(ok186) animals exposed to Escherichia coli (OP50) or Pseudomonas aeruginosa (PA14)