ALBERT

Description: Publication date: Available online 12 September 2013 Source: Cell Reports Author(s): Ying Tan , Dinghui Yu , Germain U. Busto , Curtis Wilson , Ronald L. Davis Wnt signaling regulates synaptic plasticity and neurogenesis in the adult nervous system, suggesting a potential role in behavioral processes. Here, we probed the requirement for Wnt signaling during olfactory memory formation in Drosophila using an inducible RNAi approach. Interfering with β-catenin expression in adult mushroom body neurons specifically impaired long-term memory (LTM) without altering short-term memory. The impairment was reversible, being rescued by expression of a wild-type β-catenin transgene, and correlated with disruption of a cellular LTM trace. Inhibition of wingless , a Wnt ligand, and arrow , a Wnt coreceptor, also impaired LTM. Wingless expression in wild-type flies was transiently elevated in the brain after LTM conditioning. Thus, inhibiting three key components of the Wnt signaling pathway in adult mushroom bodies impairs LTM, indicating that this pathway mechanistically underlies this specific form of memory. Graphical abstract Teaser Wnt signaling is crucial for many aspects of embryonic development, including cell proliferation, cell movement, and cell-fate decisions. In this report, Davis and colleagues show that Wnt signaling is required for the formation of protein-synthesis-dependent, long-term memory. Using RNAi approaches that target Wnt signaling components in the adult fly mushroom body, they show that knockdown of the Wnt ligand wingless , the Wnt coreceptor arrow , and the effector molecule β-catenin all impair the formation of long-term behavioral memory as well as a cellular memory trace representing this form of memory.