Open access · CC-BY
via OpenAlex
Single‐cell sequencing unveils the impact of aging on the progenitor cell diversity in the telencephalon of the female killifish <i>N. furzeri</i>
Rajagopal Ayana, Caroline Zandecki, Jolien Van houcke, Valerie Mariën, Eve Seuntjens, Lut Arckens
Aging Cell · 2024 · ▲ 15 citations
Abstract
The African turquoise killifish (Nothobranchius furzeri) combines a short lifespan with spontaneous age-associated loss of neuro-regenerative capacity, an intriguing trait atypical for a teleost. The impact of aging on the cellular composition of the adult stem cell niches, leading to this dramatic decline in the postnatal neuro- and gliogenesis, remains elusive. Single-cell RNA sequencing of the telencephalon of young adult female killifish of the short-lived GRZ-AD strain unveiled progenitors of glial and non-glial nature, different excitatory and inhibitory neuron subtypes, as well as non-neural cell types. Sub-clustering of the progenitors identified four radial glia (RG) cell types, two non-glial progenitor (NGP) and four intermediate (intercell) cell states. Two astroglia-like, one ependymal, and one neuroepithelial-like (NE) RG subtype were found at different locations in the forebrain in line with their role, while proliferative, active NGPs were spread throughout. Lineage inference pointed to NE-RG and NGPs as start and intercessor populations for glio- and neurogenesis. Upon aging, single-cell RNA sequencing revealed major perturbations in the proportions of the astroglia and intercell states, and in the molecular signatures of specific subtypes, including altered MAPK, mTOR(definition), Notch, and Wnt pathways. This cell catalog of the young regeneration-competent killifish telencephalon, combined with the evidence for aging-related transcriptomic changes, presents a useful resource to understand the molecular basis of age-dependent neuroplasticity. This data is also available through an online database (killifishbrain_scseq).
◌ CITATION ONLY
Full text is not openly licensed for redistribution here. Read it at the source:
Provenance
- Source
- OpenAlex
- DOI
- 10.1111/acel.14251
- Canonical
- link ↗
- Fetched
- 2026-07-07 MST
Cite this
APA
Ayana, R., Zandecki, C., houcke, J.V., Mariën, V., Seuntjens, E., & Arckens, L. (2024). Single‐cell sequencing unveils the impact of aging on the progenitor cell diversity in the telencephalon of the female killifish <i>N. furzeri</i>. <em>Aging Cell</em>. https://doi.org/10.1111/acel.14251
Vancouver
Ayana R, Zandecki C, houcke JV, Mariën V, Seuntjens E, Arckens L. Single‐cell sequencing unveils the impact of aging on the progenitor cell diversity in the telencephalon of the female killifish <i>N. furzeri</i>. Aging Cell. 2024. doi:10.1111/acel.14251.
BibTeX
@article{rajagopal2024Single,
title = {Single‐cell sequencing unveils the impact of aging on the progenitor cell diversity in the telencephalon of the female killifish <i>N. furzeri</i>},
author = {Rajagopal Ayana and Caroline Zandecki and Jolien Van houcke and Valerie Mariën and Eve Seuntjens and Lut Arckens},
journal = {Aging Cell},
year = {2024},
doi = {10.1111/acel.14251},
}
Research neighborhood
References, citing works, and semantically nearest findings. Click a node to open it.
Related findings
bioRxiv (Cold Spring Harbor Laboratory) 2021
Preprint · CC-BY
Single-cell sequencing unravels the cellular diversity that shapes neuro- and gliogenesis in the fast aging killifish ( <i>N. furzeri</i> ) brain
bioRxiv (Cold Spring Harbor Laboratory) 2024
Preprint · CC-BY
Early life growth and cellular heterogeneity in the short-lived African turquoise killifish telencephalon
2024
Citation only
Molecular and Cellular Basis of Aging
Stem Cells International 2017
Open access · CC-BY
Mitochondrial Dynamics: In Cell Reprogramming as It Is in Cancer
Biology Open 2025
Open access · CC-BY
Early-life growth and cellular heterogeneity in the short-lived African turquoise killifish telencephalon
Aging Cell 2024
Open access · CC-BY