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

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)
Article number	113151
Journal	Nature Aging
DOIs	https://doi.org/10.1038/s43587-025-00873-7
State	Accepted/In press - 2025

All Science Journal Classification (ASJC) codes

Neuroscience (miscellaneous)
Aging
Geriatrics and Gerontology

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10.1038/s43587-025-00873-7

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@article{3046944367b64ce4802237b09a424e03,

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",

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

language = "English (US)",

journal = "Nature Aging",

issn = "2662-8465",

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T1 - Body-to-brain insulin and Notch signaling regulates memory through neuronal CREB activity

AU - Zhou, Shiyi

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

Y1 - 2025

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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JO - Nature Aging

JF - Nature Aging

M1 - 113151

ER -

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

Abstract

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