Transcriptome and Mutant Analysis of Neuronal Genes for Memory Formation and Retrieval inCaenorhabditis elegans

Abstract

SummaryAlthough it is generally believed that the formation and retrieval of memory require distinct sets of genes, little is known about the identity and temporal specificity of genes that act at different memory stages. Here we characterize the transcriptomes for the formation and retrieval of stress-induced aversive memory in the nematodeCaenorhabditis elegans. Our RNA-sequencing analysis show that neuronal genes for calcium homeostasis, membrane excitability, synaptic function and signaling are progressively activated during the formation of aversive memory. Stage-specific transcriptomes further reveal that memory formation and retrieval display distinct gene activation patterns. We carried out a candidate screen of mutants for these memory genes and verified the temporal requirement of memory function for several of them. Further in-depth characterization ofcasy-1/calsyntenin show that while the short CASY-1B isoform acts in memory retrieval, the long CASY-1A isoform functions during memory formation, and its shed extracellular N-terminus fragment is likely a critical signal for memory regulation. Our work uncovers gene expression patterns associated with distinct memory stages and provides a foundation for future mechanistic interrogation of memory functions.