Body-to-brain insulin and Notch signaling regulates memory through neuronal CREB activity

Shiyi Zhou; Katherine E. Novak; Rachel Kaletsky; Yifei Weng; Jonathan St Ange; Morgan E. Stevenson; Erik Toraason; Yanping Zhang; Wenhong Zhang; Meng Qiu Dong; Coleen T. Murphy

doi:10.1038/s43587-025-00873-7

Body-to-brain insulin and Notch signaling regulates memory through neuronal CREB activity

Shiyi Zhou
, Katherine E. Novak
, Rachel Kaletsky
, Yifei Weng
, Jonathan St Ange
, Morgan E. Stevenson
, Erik Toraason
, Yanping Zhang
, Wenhong Zhang
, Meng Qiu Dong
, Coleen T. Murphy

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

While memory regulation is predominantly understood as autonomous to neurons, factors outside the brain can also affect neuronal function. In Caenorhabditis elegans, the insulin/IGF-1-like signaling (IIS) pathway regulates longevity, metabolism and memory: long-lived daf-2 insulin/IGF-1 receptor mutants more than double memory duration after a single training session, and it was assumed that memory regulation was strictly neuronal. However, here we show that degradation of DAF-2 in the hypodermis also greatly extends memory, via expression of the diffusible Notch ligand, OSM-11, which in turn activates Notch signaling in neurons. Single-nucleus RNA sequencing of neurons revealed increased expression of CREB and other memory genes. Furthermore, in aged animals, activation of the hypodermal IIS–Notch pathway as well as OSM-11 overexpression rescue both memory and learning via CREB activity. Thus, insulin signaling in the liver-like hypodermis non-autonomously regulates neuronal function, providing a systemic connection between metabolism and memory through IIS–Notch–CREB signaling from the body to the brain.

Original language	English (US)
Pages (from-to)	1232-1248
Number of pages	17
Journal	Nature Aging
Volume	5
Issue number	7
DOIs	https://doi.org/10.1038/s43587-025-00873-7
State	Published - Jul 2025

All Science Journal Classification (ASJC) codes

Neuroscience (miscellaneous)
Aging
Geriatrics and Gerontology

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title = "Body-to-brain insulin and Notch signaling regulates memory through neuronal CREB activity",

abstract = "While memory regulation is predominantly understood as autonomous to neurons, factors outside the brain can also affect neuronal function. In Caenorhabditis elegans, the insulin/IGF-1-like signaling (IIS) pathway regulates longevity, metabolism and memory: long-lived daf-2 insulin/IGF-1 receptor mutants more than double memory duration after a single training session, and it was assumed that memory regulation was strictly neuronal. However, here we show that degradation of DAF-2 in the hypodermis also greatly extends memory, via expression of the diffusible Notch ligand, OSM-11, which in turn activates Notch signaling in neurons. Single-nucleus RNA sequencing of neurons revealed increased expression of CREB and other memory genes. Furthermore, in aged animals, activation of the hypodermal IIS–Notch pathway as well as OSM-11 overexpression rescue both memory and learning via CREB activity. Thus, insulin signaling in the liver-like hypodermis non-autonomously regulates neuronal function, providing a systemic connection between metabolism and memory through IIS–Notch–CREB signaling from the body to the brain.",

author = "Shiyi Zhou and Novak, \{Katherine E.\} and Rachel Kaletsky and Yifei Weng and Ange, \{Jonathan St\} and Stevenson, \{Morgan E.\} and Erik Toraason and Yanping Zhang and Wenhong Zhang and Dong, \{Meng Qiu\} and Murphy, \{Coleen T.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

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doi = "10.1038/s43587-025-00873-7",

language = "English (US)",

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AU - Novak, Katherine E.

AU - Kaletsky, Rachel

AU - Weng, Yifei

AU - Ange, Jonathan St

AU - Stevenson, Morgan E.

AU - Toraason, Erik

AU - Zhang, Yanping

AU - Zhang, Wenhong

AU - Dong, Meng Qiu

AU - Murphy, Coleen T.

PY - 2025/7

Y1 - 2025/7

N2 - While memory regulation is predominantly understood as autonomous to neurons, factors outside the brain can also affect neuronal function. In Caenorhabditis elegans, the insulin/IGF-1-like signaling (IIS) pathway regulates longevity, metabolism and memory: long-lived daf-2 insulin/IGF-1 receptor mutants more than double memory duration after a single training session, and it was assumed that memory regulation was strictly neuronal. However, here we show that degradation of DAF-2 in the hypodermis also greatly extends memory, via expression of the diffusible Notch ligand, OSM-11, which in turn activates Notch signaling in neurons. Single-nucleus RNA sequencing of neurons revealed increased expression of CREB and other memory genes. Furthermore, in aged animals, activation of the hypodermal IIS–Notch pathway as well as OSM-11 overexpression rescue both memory and learning via CREB activity. Thus, insulin signaling in the liver-like hypodermis non-autonomously regulates neuronal function, providing a systemic connection between metabolism and memory through IIS–Notch–CREB signaling from the body to the brain.

AB - While memory regulation is predominantly understood as autonomous to neurons, factors outside the brain can also affect neuronal function. In Caenorhabditis elegans, the insulin/IGF-1-like signaling (IIS) pathway regulates longevity, metabolism and memory: long-lived daf-2 insulin/IGF-1 receptor mutants more than double memory duration after a single training session, and it was assumed that memory regulation was strictly neuronal. However, here we show that degradation of DAF-2 in the hypodermis also greatly extends memory, via expression of the diffusible Notch ligand, OSM-11, which in turn activates Notch signaling in neurons. Single-nucleus RNA sequencing of neurons revealed increased expression of CREB and other memory genes. Furthermore, in aged animals, activation of the hypodermal IIS–Notch pathway as well as OSM-11 overexpression rescue both memory and learning via CREB activity. Thus, insulin signaling in the liver-like hypodermis non-autonomously regulates neuronal function, providing a systemic connection between metabolism and memory through IIS–Notch–CREB signaling from the body to the brain.

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Body-to-brain insulin and Notch signaling regulates memory through neuronal CREB activity

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