Yukuo Nishida scite author profile

Animals cope with environmental changes by altering behavioral strategy. Environmental information is generally received by sensory neurons in the neural circuit that generates behavior. However, although environmental temperature inevitably influences an animal's entire body, the mechanism of systemic temperature perception remains largely unknown. We show here that systemic temperature signaling induces a change in a memory-based behavior in C. elegans. During behavioral conditioning, non-neuronal cells as well as neuronal cells respond to cultivation temperature through a heat-shock transcription factor that drives newly identified gene expression dynamics. This systemic temperature signaling regulates thermosensory neurons non-cell-autonomously through the estrogen signaling pathway, producing thermotactic behavior. We provide a link between systemic environmental recognition and behavioral plasticity in the nervous system.

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Identification of the AFD neuron as the site of action of the CREB protein in Caenorhabditis elegans thermotaxis

Nishida

Sugi

Nonomura

et al. 2011

EMBO Reports

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A novel and conserved protein AHO‐3 is required for thermotactic plasticity associated with feeding states in Caenorhabditis elegans

et al. 2012

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Although a large proportion of molecules expressed in the nervous system are conserved from invertebrate to vertebrate, functional properties of such molecules are less characterized. Here, we show that highly conserved hydrolase AHO-3 acts as a novel regulator of starvation-induced thermotactic plasticity in Caenorhabditis elegans. As wild-type animals, aho-3 mutants migrated to the cultivation temperature on a linear thermal gradient after cultivation at a particular temperature with food. Whereas wild-type animals cultivated under food-deprived condition showed dispersed distribution on the gradient, aho-3 mutants exhibited tendency to migrate toward higher temperature. Such an abnormal behavior was completely rescued by the expression of human homologue of AHO-3, indicating that the molecular function of AHO-3 is highly conserved between nematode and human. The behavioral regulation by AHO-3 requires the N-terminal cysteine cluster, which ensures the proper subcellular localization of AHO-3 to sensory endings. Double-mutant analysis suggested that AHO-3 acts in the same pathway with ODR-3, a heterotrimeric G protein alpha subunit. Our results unveiled a novel neural protein in C. elegans, confirming its conserved role in behavioral regulation.

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Gene expression dynamics that regulates C. elegans behavioral memory

Sugi

Nishida

Mori

2011

Neuroscience Research

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Yukuo Nishida

Regulation of behavioral plasticity by systemic temperature signaling in Caenorhabditis elegans

Identification of the AFD neuron as the site of action of the CREB protein in Caenorhabditis elegans thermotaxis

A novel and conserved protein AHO‐3 is required for thermotactic plasticity associated with feeding states in Caenorhabditis elegans

Gene expression dynamics that regulates C. elegans behavioral memory

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