Nestin Regulates Neurogenesis in Mice Through Notch Signaling From Astrocytes to Neural Stem Cells.

Ulrika Wilhelmsson; Isabell Lebkuechner; Renata Leke; Pavel Marasek; Xiaoguang Yang; Daniel Antfolk; Meng Chen; Paria Mohseni; Eva Lasič; Saša Trkov Bobnar; Matjaž Stenovec; Robert Zorec; Andras Nagy; Cecilia Sahlgren; Marcela Pekna; Milos Pekny

doi:10.1093/cercor/bhy284

Nestin Regulates Neurogenesis in Mice Through Notch Signaling From Astrocytes to Neural Stem Cells.

Ulrika Wilhelmsson, Isabell Lebkuechner, Renata Leke, Pavel Marasek, Xiaoguang Yang, Daniel Antfolk, Meng Chen, Paria Mohseni, Eva Lasič, Saša Trkov Bobnar, Matjaž Stenovec, Robert Zorec, Andras Nagy, Cecilia Sahlgren, Marcela Pekna, Milos Pekny

Forskningsoutput: Tidskriftsbidrag › Artikel › Vetenskaplig › Peer review

45 Citeringar (Scopus)

Sammanfattning

The intermediate filament (nanofilament) protein nestin is a marker of neural stem cells, but its role in neurogenesis, including adult neurogenesis, remains unclear. Here, we investigated the role of nestin in neurogenesis in adult nestin-deficient (Nes-/-) mice. We found that the proliferation of Nes-/- neural stem cells was not altered, but neurogenesis in the hippocampal dentate gyrus of Nes-/- mice was increased. Surprisingly, the proneurogenic effect of nestin deficiency was mediated by its function in the astrocyte niche. Through its role in Notch signaling from astrocytes to neural stem cells, nestin negatively regulates neuronal differentiation and survival; however, its expression in neural stem cells is not required for normal neurogenesis. In behavioral studies, nestin deficiency in mice did not affect associative learning but was associated with impaired long-term memory.

Originalspråk	Odefinierat/okänt
Sidor (från-till)	4050–4066
Tidskrift	Cerebral Cortex
Volym	29
Nummer	10
DOI	https://doi.org/10.1093/cercor/bhy284
Status	Publicerad - 2019
MoE-publikationstyp	A1 Tidskriftsartikel-refererad

Nyckelord

mouse
astrocytes
neural stem cells
nanofilaments
astrocyte motility
intermediate filaments
Nestin

Åtkomst av dokument

10.1093/cercor/bhy284

Citera det här

Wilhelmsson, U., Lebkuechner, I., Leke, R., Marasek, P., Yang, X., Antfolk, D., Chen, M., Mohseni, P., Lasič, E., Trkov Bobnar, S., Stenovec, M., Zorec, R., Nagy, A., Sahlgren, C., Pekna, M., & Pekny, M. (2019). Nestin Regulates Neurogenesis in Mice Through Notch Signaling From Astrocytes to Neural Stem Cells. Cerebral Cortex, 29(10), 4050–4066. https://doi.org/10.1093/cercor/bhy284

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title = "Nestin Regulates Neurogenesis in Mice Through Notch Signaling From Astrocytes to Neural Stem Cells.",

abstract = "The intermediate filament (nanofilament) protein nestin is a marker of neural stem cells, but its role in neurogenesis, including adult neurogenesis, remains unclear. Here, we investigated the role of nestin in neurogenesis in adult nestin-deficient (Nes-/-) mice. We found that the proliferation of Nes-/- neural stem cells was not altered, but neurogenesis in the hippocampal dentate gyrus of Nes-/- mice was increased. Surprisingly, the proneurogenic effect of nestin deficiency was mediated by its function in the astrocyte niche. Through its role in Notch signaling from astrocytes to neural stem cells, nestin negatively regulates neuronal differentiation and survival; however, its expression in neural stem cells is not required for normal neurogenesis. In behavioral studies, nestin deficiency in mice did not affect associative learning but was associated with impaired long-term memory.",

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author = "Ulrika Wilhelmsson and Isabell Lebkuechner and Renata Leke and Pavel Marasek and Xiaoguang Yang and Daniel Antfolk and Meng Chen and Paria Mohseni and Eva Lasi{\v c} and {Trkov Bobnar}, Sa{\v s}a and Matja{\v z} Stenovec and Robert Zorec and Andras Nagy and Cecilia Sahlgren and Marcela Pekna and Milos Pekny",

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Wilhelmsson, U, Lebkuechner, I, Leke, R, Marasek, P, Yang, X, Antfolk, D, Chen, M, Mohseni, P, Lasič, E, Trkov Bobnar, S, Stenovec, M, Zorec, R, Nagy, A, Sahlgren, C, Pekna, M & Pekny, M 2019, 'Nestin Regulates Neurogenesis in Mice Through Notch Signaling From Astrocytes to Neural Stem Cells.', Cerebral Cortex, vol. 29, nr. 10, s. 4050–4066. https://doi.org/10.1093/cercor/bhy284

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T1 - Nestin Regulates Neurogenesis in Mice Through Notch Signaling From Astrocytes to Neural Stem Cells.

AU - Wilhelmsson, Ulrika

AU - Lebkuechner, Isabell

AU - Leke, Renata

AU - Marasek, Pavel

AU - Yang, Xiaoguang

AU - Antfolk, Daniel

AU - Chen, Meng

AU - Mohseni, Paria

AU - Lasič, Eva

AU - Trkov Bobnar, Saša

AU - Stenovec, Matjaž

AU - Zorec, Robert

AU - Nagy, Andras

AU - Sahlgren, Cecilia

AU - Pekna, Marcela

AU - Pekny, Milos

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AB - The intermediate filament (nanofilament) protein nestin is a marker of neural stem cells, but its role in neurogenesis, including adult neurogenesis, remains unclear. Here, we investigated the role of nestin in neurogenesis in adult nestin-deficient (Nes-/-) mice. We found that the proliferation of Nes-/- neural stem cells was not altered, but neurogenesis in the hippocampal dentate gyrus of Nes-/- mice was increased. Surprisingly, the proneurogenic effect of nestin deficiency was mediated by its function in the astrocyte niche. Through its role in Notch signaling from astrocytes to neural stem cells, nestin negatively regulates neuronal differentiation and survival; however, its expression in neural stem cells is not required for normal neurogenesis. In behavioral studies, nestin deficiency in mice did not affect associative learning but was associated with impaired long-term memory.

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