Neural stem and progenitor cells support and protect adult hippocampal function via vascular endothelial growth factor secretion

Lisa N. Miller; Ashley E. Walters; Jiyeon K. Denninger; Meretta A. Hanson; Alec H. Marshall; Aidan C. Johantges; Manal Hosawi; Gwendolyn Sebring; Joshua D. Rieskamp; Tianli Ding; Raina Rindani; Kelly S. Chen; Megan E. Goldberg; Sakthi Senthilvelan; Abigail Volk; Fangli Zhao; Candice Askwith; Jason C. Wester; Elizabeth D. Kirby

doi:10.1038/s41380-024-02827-8

Neural stem and progenitor cells support and protect adult hippocampal function via vascular endothelial growth factor secretion

Lisa N. Miller, Ashley E. Walters, Jiyeon K. Denninger, Meretta A. Hanson, Alec H. Marshall, Aidan C. Johantges, Manal Hosawi, Gwendolyn Sebring, Joshua D. Rieskamp, Tianli Ding, Raina Rindani, Kelly S. Chen, Megan E. Goldberg, Sakthi Senthilvelan, Abigail Volk, Fangli Zhao, Candice Askwith, Jason C. Wester, Elizabeth D. Kirby

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Abstract

Adult neural stem and progenitor cells (NSPCs) reside in the dentate gyrus (DG) of the hippocampus throughout the lifespan of most mammalian species. In addition to generating new neurons, NSPCs may alter their niche via secretion of growth factors and cytokines. We recently showed that adult DG NSPCs secrete vascular endothelial growth factor (VEGF), which is critical for maintaining adult neurogenesis. Here, we asked whether NSPC-derived VEGF alters hippocampal function independent of adult neurogenesis. We found that loss of NSPC-derived VEGF acutely impaired hippocampal memory, caused neuronal hyperexcitability and exacerbated excitotoxic injury. Conversely, we observed that overexpression of VEGF reduced microglial response to excitotoxic injury. We also found that NSPCs generate substantial proportions of total DG VEGF and VEGF disperses widely throughout the DG, both of which help explain how this anatomically-restricted cell population could modulate function broadly. These findings suggest that NSPCs actively support and protect DG function via secreted VEGF, thereby providing a non-neurogenic functional dimension to endogenous NSPCs.

Original language	English
Article number	7579
Pages (from-to)	2152-2167
Number of pages	16
Journal	Molecular Psychiatry
Volume	30
Issue number	5
DOIs	https://doi.org/10.1038/s41380-024-02827-8
State	Published - May 2025

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Miller, L. N., Walters, A. E., Denninger, J. K., Hanson, M. A., Marshall, A. H., Johantges, A. C., Hosawi, M., Sebring, G., Rieskamp, J. D., Ding, T., Rindani, R., Chen, K. S., Goldberg, M. E., Senthilvelan, S., Volk, A., Zhao, F., Askwith, C., Wester, J. C., & Kirby, E. D. (2025). Neural stem and progenitor cells support and protect adult hippocampal function via vascular endothelial growth factor secretion. Molecular Psychiatry, 30(5), 2152-2167. Article 7579. https://doi.org/10.1038/s41380-024-02827-8

@article{2f8c183295da48318250f7f311b650e7,

title = "Neural stem and progenitor cells support and protect adult hippocampal function via vascular endothelial growth factor secretion",

abstract = "Adult neural stem and progenitor cells (NSPCs) reside in the dentate gyrus (DG) of the hippocampus throughout the lifespan of most mammalian species. In addition to generating new neurons, NSPCs may alter their niche via secretion of growth factors and cytokines. We recently showed that adult DG NSPCs secrete vascular endothelial growth factor (VEGF), which is critical for maintaining adult neurogenesis. Here, we asked whether NSPC-derived VEGF alters hippocampal function independent of adult neurogenesis. We found that loss of NSPC-derived VEGF acutely impaired hippocampal memory, caused neuronal hyperexcitability and exacerbated excitotoxic injury. Conversely, we observed that overexpression of VEGF reduced microglial response to excitotoxic injury. We also found that NSPCs generate substantial proportions of total DG VEGF and VEGF disperses widely throughout the DG, both of which help explain how this anatomically-restricted cell population could modulate function broadly. These findings suggest that NSPCs actively support and protect DG function via secreted VEGF, thereby providing a non-neurogenic functional dimension to endogenous NSPCs.",

author = "Miller, {Lisa N.} and Walters, {Ashley E.} and Denninger, {Jiyeon K.} and Hanson, {Meretta A.} and Marshall, {Alec H.} and Johantges, {Aidan C.} and Manal Hosawi and Gwendolyn Sebring and Rieskamp, {Joshua D.} and Tianli Ding and Raina Rindani and Chen, {Kelly S.} and Goldberg, {Megan E.} and Sakthi Senthilvelan and Abigail Volk and Fangli Zhao and Candice Askwith and Wester, {Jason C.} and Kirby, {Elizabeth D.}",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature Limited 2024.",

year = "2025",

month = may,

doi = "10.1038/s41380-024-02827-8",

language = "English",

volume = "30",

pages = "2152--2167",

journal = "Molecular Psychiatry",

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Miller, LN, Walters, AE, Denninger, JK, Hanson, MA, Marshall, AH, Johantges, AC, Hosawi, M, Sebring, G, Rieskamp, JD, Ding, T, Rindani, R, Chen, KS, Goldberg, ME, Senthilvelan, S, Volk, A, Zhao, F, Askwith, C , Wester, JC & Kirby, ED 2025, 'Neural stem and progenitor cells support and protect adult hippocampal function via vascular endothelial growth factor secretion', Molecular Psychiatry, vol. 30, no. 5, 7579, pp. 2152-2167. https://doi.org/10.1038/s41380-024-02827-8

TY - JOUR

T1 - Neural stem and progenitor cells support and protect adult hippocampal function via vascular endothelial growth factor secretion

AU - Miller, Lisa N.

AU - Walters, Ashley E.

AU - Denninger, Jiyeon K.

AU - Hanson, Meretta A.

AU - Marshall, Alec H.

AU - Johantges, Aidan C.

AU - Hosawi, Manal

AU - Sebring, Gwendolyn

AU - Rieskamp, Joshua D.

AU - Ding, Tianli

AU - Rindani, Raina

AU - Chen, Kelly S.

AU - Goldberg, Megan E.

AU - Senthilvelan, Sakthi

AU - Volk, Abigail

AU - Zhao, Fangli

AU - Askwith, Candice

AU - Wester, Jason C.

AU - Kirby, Elizabeth D.

PY - 2025/5

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N2 - Adult neural stem and progenitor cells (NSPCs) reside in the dentate gyrus (DG) of the hippocampus throughout the lifespan of most mammalian species. In addition to generating new neurons, NSPCs may alter their niche via secretion of growth factors and cytokines. We recently showed that adult DG NSPCs secrete vascular endothelial growth factor (VEGF), which is critical for maintaining adult neurogenesis. Here, we asked whether NSPC-derived VEGF alters hippocampal function independent of adult neurogenesis. We found that loss of NSPC-derived VEGF acutely impaired hippocampal memory, caused neuronal hyperexcitability and exacerbated excitotoxic injury. Conversely, we observed that overexpression of VEGF reduced microglial response to excitotoxic injury. We also found that NSPCs generate substantial proportions of total DG VEGF and VEGF disperses widely throughout the DG, both of which help explain how this anatomically-restricted cell population could modulate function broadly. These findings suggest that NSPCs actively support and protect DG function via secreted VEGF, thereby providing a non-neurogenic functional dimension to endogenous NSPCs.

AB - Adult neural stem and progenitor cells (NSPCs) reside in the dentate gyrus (DG) of the hippocampus throughout the lifespan of most mammalian species. In addition to generating new neurons, NSPCs may alter their niche via secretion of growth factors and cytokines. We recently showed that adult DG NSPCs secrete vascular endothelial growth factor (VEGF), which is critical for maintaining adult neurogenesis. Here, we asked whether NSPC-derived VEGF alters hippocampal function independent of adult neurogenesis. We found that loss of NSPC-derived VEGF acutely impaired hippocampal memory, caused neuronal hyperexcitability and exacerbated excitotoxic injury. Conversely, we observed that overexpression of VEGF reduced microglial response to excitotoxic injury. We also found that NSPCs generate substantial proportions of total DG VEGF and VEGF disperses widely throughout the DG, both of which help explain how this anatomically-restricted cell population could modulate function broadly. These findings suggest that NSPCs actively support and protect DG function via secreted VEGF, thereby providing a non-neurogenic functional dimension to endogenous NSPCs.

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DO - 10.1038/s41380-024-02827-8

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SN - 1359-4184

VL - 30

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EP - 2167

JO - Molecular Psychiatry

JF - Molecular Psychiatry

IS - 5

M1 - 7579

ER -

Neural stem and progenitor cells support and protect adult hippocampal function via vascular endothelial growth factor secretion

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