Impairing one sensory modality enhances another by reprogramming peptidergic circuits in Caenorhabditis elegans

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Abstract

Animals that lose one sensory modality often show augmented responses to other sensory inputs. The mechanisms underpinning this cross-modal plasticity are poorly understood. To probe these mechanisms, we perform a forward genetic screen for mutants with enhanced O 2 perception in C. elegans . Multiple mutants exhibiting increased responsiveness to O 2 concomitantly show defects in other sensory responses. One mutant, qui-1 , defective in a conserved NACHT/WD40 protein, abolishes pheromone-evoked Ca 2+ responses in the ADL chemosensory neurons. We find that ADL’s responsiveness to pre-synaptic input from O 2 - sensing neurons is heightened in qui-1 and other sensory defective mutants resulting in an enhanced neurosecretion. Expressing qui-1 selectively in ADL rescues both the qui-1 ADL neurosecretory phenotype and enhanced escape from 21% O 2 . Profiling of ADL neurons indicates its acquired O 2 -evoked neurosecretion is the result of a transcriptional reprogramming that up-regulates neuropeptide signalling. We show that the conserved neuropeptide receptor NPR-22 is necessary and sufficient in ADL to enhance its neurosecretion levels. Sensory loss can thus confer cross-modal plasticity by re-wiring peptidergic circuits.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00