Transcriptional profiles of immature neurons in aged human hippocampus track Alzheimer's pathology and cognitive resilience

Giorgia Tosoni; Dilara Ayyildiz; Sarah Snoeck; Elena P. Moreno-Jiménez; Amber Penning; Estibaliz Santiago-Mujika; Olmo Ruiz Ormaechea; Hyunah Lee; Suresh Poovathingal; Kristofer Davie; Julien Bryois; Will Macnair; Jasper Anink; Luuk E. De Vries; Sahand Farmand; Erik Nutma; Dick F. Swaab; Eleonora Aronica; Jinte Middeldorp; Sandrine Thuret; Laurent Roybon; Onur Basak; Carlos P. Fitzsimons; Paul J. Lucassen; Evgenia Salta

doi:10.1016/j.stem.2026.04.002

Transcriptional profiles of immature neurons in aged human hippocampus track Alzheimer's pathology and cognitive resilience

Giorgia Tosoni
, Dilara Ayyildiz
, Sarah Snoeck
, Elena P. Moreno-Jiménez
, Amber Penning
, Estibaliz Santiago-Mujika
, Olmo Ruiz Ormaechea
, Hyunah Lee
, Suresh Poovathingal
, Kristofer Davie
, Julien Bryois
, Will Macnair
, Jasper Anink
, Luuk E. De Vries
, Sahand Farmand
, Erik Nutma
, Dick F. Swaab
, Eleonora Aronica
, Jinte Middeldorp
, Sandrine Thuret

Laurent Roybon, Onur Basak, Carlos P. Fitzsimons, Paul J. Lucassen, Evgenia Salta

Onderzoeksoutput: Bijdrage aan tijdschrift › Artikel › peer review

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The existence and functional significance of immature neurons in the adult human brain, particularly in the context of neurodegenerative disorders, remain an open question. Although rodent studies have highlighted active roles for adult-born immature neurons in the hippocampus both under healthy conditions and in Alzheimer's disease (AD), evidence from the human brain is limited and lacks detailed molecular characterization. To address this gap, we performed single-nucleus RNA sequencing in aged healthy, AD, and dementia-resilient human hippocampus samples to probe immature neuronal signatures and gene expression alterations associated with AD pathology and resilience. By applying an integrated experimental and computational pipeline, we identified persistent populations of immature neurons across all donor groups, with transcriptional profiles reflecting "juvenile" cellular functions, which are compromised in AD. Our findings suggest that the presence of these immature neuronal populations per se may actively contribute to maintaining homeostasis within the aged human hippocampus and to cognitive resilience in AD.

Originele taal-2	Engels
Pagina's (van-tot)	763-783.e9
Aantal pagina's	21
Tijdschrift	Cell stem cell
Volume	33
Nummer van het tijdschrift	5
DOI's	https://doi.org/10.1016/j.stem.2026.04.002
Status	Gepubliceerd - 7 mei 2026
Extern gepubliceerd	Ja

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10.1016/j.stem.2026.04.002

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Tosoni, G., Ayyildiz, D., Snoeck, S., Moreno-Jiménez, E. P., Penning, A., Santiago-Mujika, E., Ruiz Ormaechea, O., Lee, H., Poovathingal, S., Davie, K., Bryois, J., Macnair, W., Anink, J., De Vries, L. E., Farmand, S., Nutma, E., Swaab, D. F., Aronica, E., Middeldorp, J., ... Salta, E. (2026). Transcriptional profiles of immature neurons in aged human hippocampus track Alzheimer's pathology and cognitive resilience. Cell stem cell, 33(5), 763-783.e9. https://doi.org/10.1016/j.stem.2026.04.002

@article{b65680c674d44efe90b04833db3b99da,

title = "Transcriptional profiles of immature neurons in aged human hippocampus track Alzheimer's pathology and cognitive resilience",

abstract = "The existence and functional significance of immature neurons in the adult human brain, particularly in the context of neurodegenerative disorders, remain an open question. Although rodent studies have highlighted active roles for adult-born immature neurons in the hippocampus both under healthy conditions and in Alzheimer's disease (AD), evidence from the human brain is limited and lacks detailed molecular characterization. To address this gap, we performed single-nucleus RNA sequencing in aged healthy, AD, and dementia-resilient human hippocampus samples to probe immature neuronal signatures and gene expression alterations associated with AD pathology and resilience. By applying an integrated experimental and computational pipeline, we identified persistent populations of immature neurons across all donor groups, with transcriptional profiles reflecting {"}juvenile{"} cellular functions, which are compromised in AD. Our findings suggest that the presence of these immature neuronal populations per se may actively contribute to maintaining homeostasis within the aged human hippocampus and to cognitive resilience in AD.",

keywords = "Alzheimer{\textquoteright}s disease, adult neurogenesis, aging, cognitive resilience, dentate gyrus, hippocampus, human, immature neurons, single-nucleus RNA sequencing, transcriptomics, Hippocampus/pathology, Humans, Transcriptome, Male, Cognition, Aging/pathology, Neurons/metabolism, Aged, 80 and over, Female, Aged, Alzheimer Disease/pathology",

author = "Giorgia Tosoni and Dilara Ayyildiz and Sarah Snoeck and Moreno-Jim{\'e}nez, \{Elena P.\} and Amber Penning and Estibaliz Santiago-Mujika and \{Ruiz Ormaechea\}, Olmo and Hyunah Lee and Suresh Poovathingal and Kristofer Davie and Julien Bryois and Will Macnair and Jasper Anink and \{De Vries\}, \{Luuk E.\} and Sahand Farmand and Erik Nutma and Swaab, \{Dick F.\} and Eleonora Aronica and Jinte Middeldorp and Sandrine Thuret and Laurent Roybon and Onur Basak and Fitzsimons, \{Carlos P.\} and Lucassen, \{Paul J.\} and Evgenia Salta",

year = "2026",

month = may,

day = "7",

doi = "10.1016/j.stem.2026.04.002",

language = "English",

volume = "33",

pages = "763--783.e9",

journal = "Cell stem cell",

issn = "1934-5909",

publisher = "Cell Press",

number = "5",

}

Tosoni, G, Ayyildiz, D, Snoeck, S, Moreno-Jiménez, EP, Penning, A, Santiago-Mujika, E, Ruiz Ormaechea, O, Lee, H, Poovathingal, S, Davie, K, Bryois, J, Macnair, W, Anink, J, De Vries, LE, Farmand, S, Nutma, E, Swaab, DF, Aronica, E, Middeldorp, J, Thuret, S, Roybon, L, Basak, O, Fitzsimons, CP, Lucassen, PJ & Salta, E 2026, 'Transcriptional profiles of immature neurons in aged human hippocampus track Alzheimer's pathology and cognitive resilience', Cell stem cell, vol. 33, nr. 5, blz. 763-783.e9. https://doi.org/10.1016/j.stem.2026.04.002

TY - JOUR

T1 - Transcriptional profiles of immature neurons in aged human hippocampus track Alzheimer's pathology and cognitive resilience

AU - Tosoni, Giorgia

AU - Ayyildiz, Dilara

AU - Snoeck, Sarah

AU - Moreno-Jiménez, Elena P.

AU - Penning, Amber

AU - Santiago-Mujika, Estibaliz

AU - Ruiz Ormaechea, Olmo

AU - Lee, Hyunah

AU - Poovathingal, Suresh

AU - Davie, Kristofer

AU - Bryois, Julien

AU - Macnair, Will

AU - Anink, Jasper

AU - De Vries, Luuk E.

AU - Farmand, Sahand

AU - Nutma, Erik

AU - Swaab, Dick F.

AU - Aronica, Eleonora

AU - Middeldorp, Jinte

AU - Thuret, Sandrine

AU - Roybon, Laurent

AU - Basak, Onur

AU - Fitzsimons, Carlos P.

AU - Lucassen, Paul J.

AU - Salta, Evgenia

PY - 2026/5/7

Y1 - 2026/5/7

N2 - The existence and functional significance of immature neurons in the adult human brain, particularly in the context of neurodegenerative disorders, remain an open question. Although rodent studies have highlighted active roles for adult-born immature neurons in the hippocampus both under healthy conditions and in Alzheimer's disease (AD), evidence from the human brain is limited and lacks detailed molecular characterization. To address this gap, we performed single-nucleus RNA sequencing in aged healthy, AD, and dementia-resilient human hippocampus samples to probe immature neuronal signatures and gene expression alterations associated with AD pathology and resilience. By applying an integrated experimental and computational pipeline, we identified persistent populations of immature neurons across all donor groups, with transcriptional profiles reflecting "juvenile" cellular functions, which are compromised in AD. Our findings suggest that the presence of these immature neuronal populations per se may actively contribute to maintaining homeostasis within the aged human hippocampus and to cognitive resilience in AD.

AB - The existence and functional significance of immature neurons in the adult human brain, particularly in the context of neurodegenerative disorders, remain an open question. Although rodent studies have highlighted active roles for adult-born immature neurons in the hippocampus both under healthy conditions and in Alzheimer's disease (AD), evidence from the human brain is limited and lacks detailed molecular characterization. To address this gap, we performed single-nucleus RNA sequencing in aged healthy, AD, and dementia-resilient human hippocampus samples to probe immature neuronal signatures and gene expression alterations associated with AD pathology and resilience. By applying an integrated experimental and computational pipeline, we identified persistent populations of immature neurons across all donor groups, with transcriptional profiles reflecting "juvenile" cellular functions, which are compromised in AD. Our findings suggest that the presence of these immature neuronal populations per se may actively contribute to maintaining homeostasis within the aged human hippocampus and to cognitive resilience in AD.

KW - Alzheimer’s disease

KW - adult neurogenesis

KW - aging

KW - cognitive resilience

KW - dentate gyrus

KW - hippocampus

KW - human

KW - immature neurons

KW - single-nucleus RNA sequencing

KW - transcriptomics

KW - Hippocampus/pathology

KW - Humans

KW - Transcriptome

KW - Male

KW - Cognition

KW - Aging/pathology

KW - Neurons/metabolism

KW - Aged, 80 and over

KW - Female

KW - Aged

KW - Alzheimer Disease/pathology

UR - https://www.scopus.com/pages/publications/105038603859

UR - https://www.mendeley.com/catalogue/595b208c-079d-3748-aaae-a751e4610315/

U2 - 10.1016/j.stem.2026.04.002

DO - 10.1016/j.stem.2026.04.002

M3 - Article

C2 - 42034060

AN - SCOPUS:105038603859

SN - 1934-5909

VL - 33

SP - 763-783.e9

JO - Cell stem cell

JF - Cell stem cell

IS - 5

ER -

Transcriptional profiles of immature neurons in aged human hippocampus track Alzheimer's pathology and cognitive resilience

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