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Vesicular Zinc Modulates Cell Proliferation and Survival in the Developing Hippocampus

In the brain, vesicular zinc, which refers to a subset of zinc that is sequestered into synaptic vesicles by zinc transporter 3 (ZnT3), has extensive effects on neuronal signalling and modulation. Vesicular zinc-focused research has mainly been directed to its role in the hippocampus, particularly i...

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Autores principales: Fu, Selena, Cho, Ashley T., Spanswick, Simon C., Dyck, Richard H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10047515/
https://www.ncbi.nlm.nih.gov/pubmed/36980221
http://dx.doi.org/10.3390/cells12060880
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author Fu, Selena
Cho, Ashley T.
Spanswick, Simon C.
Dyck, Richard H.
author_facet Fu, Selena
Cho, Ashley T.
Spanswick, Simon C.
Dyck, Richard H.
author_sort Fu, Selena
collection PubMed
description In the brain, vesicular zinc, which refers to a subset of zinc that is sequestered into synaptic vesicles by zinc transporter 3 (ZnT3), has extensive effects on neuronal signalling and modulation. Vesicular zinc-focused research has mainly been directed to its role in the hippocampus, particularly in adult neurogenesis. However, whether vesicular zinc is involved in modulating neurogenesis during the early postnatal period has been less studied. As a first step to understanding this, we used ZnT3 knockout (KO) mice, which lack ZnT3 and, thus, vesicular zinc, to evaluate cell proliferation at three different age points spanning postnatal development (P6, P14, and P28). The survival and the neuronal phenotype of these cells was also assessed in adulthood. We found that male ZnT3 KO mice exhibited lower rates of cell proliferation at P14, but a greater number of these cells survived to adulthood. Additionally, significantly more cells labelled on P6 survived to adulthood in male and female ZnT3 KO mice. We also found sex-dependent differences, whereby male mice showed higher levels of cell proliferation at P28, as well as higher levels of cell survival for P14-labelled cells, compared to female mice. However, female mice showed greater percentages of neuronal differentiation for P14-labelled cells. Finally, we found significant effects of age of BrdU injections on cell proliferation, survival, and neuronal differentiation. Collectively, our results suggest that the loss of vesicular zinc affects normal proliferation and survival of cells born at different age points during postnatal development and highlight prominent sex- and age-dependent differences. Our findings provide the foundation for future studies to further probe the role of vesicular zinc in the modulation of developmental neurogenesis.
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spelling pubmed-100475152023-03-29 Vesicular Zinc Modulates Cell Proliferation and Survival in the Developing Hippocampus Fu, Selena Cho, Ashley T. Spanswick, Simon C. Dyck, Richard H. Cells Article In the brain, vesicular zinc, which refers to a subset of zinc that is sequestered into synaptic vesicles by zinc transporter 3 (ZnT3), has extensive effects on neuronal signalling and modulation. Vesicular zinc-focused research has mainly been directed to its role in the hippocampus, particularly in adult neurogenesis. However, whether vesicular zinc is involved in modulating neurogenesis during the early postnatal period has been less studied. As a first step to understanding this, we used ZnT3 knockout (KO) mice, which lack ZnT3 and, thus, vesicular zinc, to evaluate cell proliferation at three different age points spanning postnatal development (P6, P14, and P28). The survival and the neuronal phenotype of these cells was also assessed in adulthood. We found that male ZnT3 KO mice exhibited lower rates of cell proliferation at P14, but a greater number of these cells survived to adulthood. Additionally, significantly more cells labelled on P6 survived to adulthood in male and female ZnT3 KO mice. We also found sex-dependent differences, whereby male mice showed higher levels of cell proliferation at P28, as well as higher levels of cell survival for P14-labelled cells, compared to female mice. However, female mice showed greater percentages of neuronal differentiation for P14-labelled cells. Finally, we found significant effects of age of BrdU injections on cell proliferation, survival, and neuronal differentiation. Collectively, our results suggest that the loss of vesicular zinc affects normal proliferation and survival of cells born at different age points during postnatal development and highlight prominent sex- and age-dependent differences. Our findings provide the foundation for future studies to further probe the role of vesicular zinc in the modulation of developmental neurogenesis. MDPI 2023-03-11 /pmc/articles/PMC10047515/ /pubmed/36980221 http://dx.doi.org/10.3390/cells12060880 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Fu, Selena
Cho, Ashley T.
Spanswick, Simon C.
Dyck, Richard H.
Vesicular Zinc Modulates Cell Proliferation and Survival in the Developing Hippocampus
title Vesicular Zinc Modulates Cell Proliferation and Survival in the Developing Hippocampus
title_full Vesicular Zinc Modulates Cell Proliferation and Survival in the Developing Hippocampus
title_fullStr Vesicular Zinc Modulates Cell Proliferation and Survival in the Developing Hippocampus
title_full_unstemmed Vesicular Zinc Modulates Cell Proliferation and Survival in the Developing Hippocampus
title_short Vesicular Zinc Modulates Cell Proliferation and Survival in the Developing Hippocampus
title_sort vesicular zinc modulates cell proliferation and survival in the developing hippocampus
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10047515/
https://www.ncbi.nlm.nih.gov/pubmed/36980221
http://dx.doi.org/10.3390/cells12060880
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