Olfaction regulates organismal proteostasis and longevity via microRNA-dependent signalling

The maintenance of proteostasis is crucial for any organism to survive and reproduce in an ever-changing environment, but its efficiency declines with age1. Post-transcriptional regulators such as micrRNAs (miRNAs) control protein translation of target mRNAs, with major consequences for development, physiology and longevity2,3. Here we show that food odour stimulates organismal proteostasis and promotes longevity in Caenorhabditis elegans through miR-71-mediated inhibition of tir-1 mRNA stability in olfactory AWC neurons. Screening a collection of miRNAs that control ageing3, we found that the miRNA miR-71 regulates lifespan and promotes ubiquitin-dependent protein turnover, particularly in the intestine. We show that miR-71 directly inhibits the Toll-receptor-domain protein TIR-1 in AWC olfactory neurons and that disruption of miR-71–tir-1 or loss of AWC olfactory neurons eliminates the influence of food source on proteostasis. miR-71-mediated regulation of TIR-1 controls chemotactic behaviour and is regulated by odour. Thus, odour perception influences cell-type-specific miRNA–target interaction, thereby regulating organismal proteostasis and longevity. We anticipate that the proposed mechanism of food perception will stimulate further research on neuroendocrine brain-to-gut communication and may open the possibility for therapeutic interventions to improve proteostasis and organismal health via the sense of smell, with potential implications for obesity, diabetes and ageing