Aβ increases neural stem cell activity in senescence-accelerated SAMP8 mice

María Díaz-Moreno; Rafael Hortigüela; Ania Gonçalves; Irmina García-Carpio; Gemma Manich; Edurne García-Bermúdez; Mireia Moreno-Estellés; César Eguiluz; Jordi Vilaplana; Carme Pelegrí; Marçal Vilar; Helena Mira

doi:10.1016/j.neurobiolaging.2013.05.011

Aβ increases neural stem cell activity in senescence-accelerated SAMP8 mice

María Díaz-Moreno, Rafael Hortigüela, Ania Gonçalves, Irmina García-Carpio, Gemma Manich, Edurne García-Bermúdez, Mireia Moreno-Estellés, César Eguiluz, Jordi Vilaplana, Carme Pelegrí, Marçal Vilar, Helena Mira^*

^*Autor corresponent d’aquest treball

Departament de Psicologia Bàsica, Evolutiva i de l'Educació

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Neurogenesis persists in the adult brain as a form of plasticity due to the existence of neural stem cells (NSCs). Alterations in neurogenesis have been found in transgenic Alzheimer's disease (AD) mouse models, but NSC activity and neurogenesis in sporadic AD models remains to be examined. We herein describe a remarkable increase in NSC proliferation in the forebrain of SAMP8, a non-transgenic mouse strain that recapitulates the transition from healthy aging to AD. The increase in proliferation is transient, precedes AD-like symptoms such as amyloid beta 1-42 [Aβ(1-42)] increase or gliosis, and is followed by a steep decline at later stages. Interestingly, invitro studies indicate that secreted Aβ(1-42) and PI3K signaling may account for the early boost in NSC proliferation. Our results highlight the role of soluble Aβ(1-42) peptide and PI3K in the autocrine regulation of NSCs, and further suggest that over-proliferation of NSCs before the appearance of AD pathology may underlie neurogenic failure during the age-related progression of the disease. These findings have implications for therapeutic approaches based on neurogenesis in AD.

Idioma original	Anglès nord-americà
Pàgines (de-a)	2623-2638
Nombre de pàgines	16
Revista	Neurobiology of Aging
Volum	34
Número	11
DOIs	https://doi.org/10.1016/j.neurobiolaging.2013.05.011
Estat de la publicació	Publicada - de nov. 2013

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10.1016/j.neurobiolaging.2013.05.011

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Díaz-Moreno, M., Hortigüela, R., Gonçalves, A., García-Carpio, I., Manich, G., García-Bermúdez, E., Moreno-Estellés, M., Eguiluz, C., Vilaplana, J., Pelegrí, C., Vilar, M., & Mira, H. (2013). Aβ increases neural stem cell activity in senescence-accelerated SAMP8 mice. Neurobiology of Aging, 34(11), 2623-2638. https://doi.org/10.1016/j.neurobiolaging.2013.05.011

@article{a0b1d021af5343f0b148cbc313760136,

title = "Aβ increases neural stem cell activity in senescence-accelerated SAMP8 mice",

abstract = "Neurogenesis persists in the adult brain as a form of plasticity due to the existence of neural stem cells (NSCs). Alterations in neurogenesis have been found in transgenic Alzheimer's disease (AD) mouse models, but NSC activity and neurogenesis in sporadic AD models remains to be examined. We herein describe a remarkable increase in NSC proliferation in the forebrain of SAMP8, a non-transgenic mouse strain that recapitulates the transition from healthy aging to AD. The increase in proliferation is transient, precedes AD-like symptoms such as amyloid beta 1-42 [Aβ(1-42)] increase or gliosis, and is followed by a steep decline at later stages. Interestingly, invitro studies indicate that secreted Aβ(1-42) and PI3K signaling may account for the early boost in NSC proliferation. Our results highlight the role of soluble Aβ(1-42) peptide and PI3K in the autocrine regulation of NSCs, and further suggest that over-proliferation of NSCs before the appearance of AD pathology may underlie neurogenic failure during the age-related progression of the disease. These findings have implications for therapeutic approaches based on neurogenesis in AD.",

keywords = "Alzheimer's disease, Amyloid beta, Neural stem cell, Neurogenesis, Neurosphere, Olfactory bulb, SAMP8, Senescence-accelerated mouse, Subventricular zone",

author = "Mar{\'i}a D{\'i}az-Moreno and Rafael Hortig{\"u}ela and Ania Gon{\c c}alves and Irmina Garc{\'i}a-Carpio and Gemma Manich and Edurne Garc{\'i}a-Berm{\'u}dez and Mireia Moreno-Estell{\'e}s and C{\'e}sar Eguiluz and Jordi Vilaplana and Carme Pelegr{\'i} and Mar{\c c}al Vilar and Helena Mira",

note = "Funding Information: The authors thank Fernando Gonz{\'a}lez for confocal microscope support and Raquel P{\'e}rez for technical assistance. This work was supported by grants from Ministerio de Sanidad y Consumo (MSC; Fondo de Investigaci{\'o}n Sanitaria, PI09/2254, PI12/101) and Comunidad de Madrid (S2010/BMD-2336) to H.M.; from the Ministerio de Ciencia e Innovaci{\'o}n (BFU2010_15276) to M.V. and from the Ministerio de Ciencia e Innovaci{\'o}n (BFU2010/22149) to C.P.; MDM is a recipient of a predoctoral fellowship FPU from Ministerio de Educaci{\'o}n; MME was supported by the PFIS fellowship from Ministerio de Sanidad, Pol{\'i}tica Social e Igualdad; IGC is a recipient of a predoctoral fellowship FPI from the Ministerio de Ciencia e Innovaci{\'o}n. Copyright: Copyright 2013 Elsevier B.V., All rights reserved.",

year = "2013",

month = nov,

doi = "10.1016/j.neurobiolaging.2013.05.011",

language = "Ingl{\'e}s estadounidense",

volume = "34",

pages = "2623--2638",

journal = "Neurobiology of Aging",

issn = "0197-4580",

publisher = "Elsevier Inc.",

number = "11",

}

Díaz-Moreno, M, Hortigüela, R, Gonçalves, A, García-Carpio, I, Manich, G, García-Bermúdez, E, Moreno-Estellés, M, Eguiluz, C, Vilaplana, J, Pelegrí, C, Vilar, M & Mira, H 2013, 'Aβ increases neural stem cell activity in senescence-accelerated SAMP8 mice', Neurobiology of Aging, vol. 34, núm. 11, pàg. 2623-2638. https://doi.org/10.1016/j.neurobiolaging.2013.05.011

TY - JOUR

T1 - Aβ increases neural stem cell activity in senescence-accelerated SAMP8 mice

AU - Díaz-Moreno, María

AU - Hortigüela, Rafael

AU - Gonçalves, Ania

AU - García-Carpio, Irmina

AU - Manich, Gemma

AU - García-Bermúdez, Edurne

AU - Moreno-Estellés, Mireia

AU - Eguiluz, César

AU - Vilaplana, Jordi

AU - Pelegrí, Carme

AU - Vilar, Marçal

AU - Mira, Helena

N1 - Funding Information: The authors thank Fernando González for confocal microscope support and Raquel Pérez for technical assistance. This work was supported by grants from Ministerio de Sanidad y Consumo (MSC; Fondo de Investigación Sanitaria, PI09/2254, PI12/101) and Comunidad de Madrid (S2010/BMD-2336) to H.M.; from the Ministerio de Ciencia e Innovación (BFU2010_15276) to M.V. and from the Ministerio de Ciencia e Innovación (BFU2010/22149) to C.P.; MDM is a recipient of a predoctoral fellowship FPU from Ministerio de Educación; MME was supported by the PFIS fellowship from Ministerio de Sanidad, Política Social e Igualdad; IGC is a recipient of a predoctoral fellowship FPI from the Ministerio de Ciencia e Innovación. Copyright: Copyright 2013 Elsevier B.V., All rights reserved.

PY - 2013/11

Y1 - 2013/11

N2 - Neurogenesis persists in the adult brain as a form of plasticity due to the existence of neural stem cells (NSCs). Alterations in neurogenesis have been found in transgenic Alzheimer's disease (AD) mouse models, but NSC activity and neurogenesis in sporadic AD models remains to be examined. We herein describe a remarkable increase in NSC proliferation in the forebrain of SAMP8, a non-transgenic mouse strain that recapitulates the transition from healthy aging to AD. The increase in proliferation is transient, precedes AD-like symptoms such as amyloid beta 1-42 [Aβ(1-42)] increase or gliosis, and is followed by a steep decline at later stages. Interestingly, invitro studies indicate that secreted Aβ(1-42) and PI3K signaling may account for the early boost in NSC proliferation. Our results highlight the role of soluble Aβ(1-42) peptide and PI3K in the autocrine regulation of NSCs, and further suggest that over-proliferation of NSCs before the appearance of AD pathology may underlie neurogenic failure during the age-related progression of the disease. These findings have implications for therapeutic approaches based on neurogenesis in AD.

AB - Neurogenesis persists in the adult brain as a form of plasticity due to the existence of neural stem cells (NSCs). Alterations in neurogenesis have been found in transgenic Alzheimer's disease (AD) mouse models, but NSC activity and neurogenesis in sporadic AD models remains to be examined. We herein describe a remarkable increase in NSC proliferation in the forebrain of SAMP8, a non-transgenic mouse strain that recapitulates the transition from healthy aging to AD. The increase in proliferation is transient, precedes AD-like symptoms such as amyloid beta 1-42 [Aβ(1-42)] increase or gliosis, and is followed by a steep decline at later stages. Interestingly, invitro studies indicate that secreted Aβ(1-42) and PI3K signaling may account for the early boost in NSC proliferation. Our results highlight the role of soluble Aβ(1-42) peptide and PI3K in the autocrine regulation of NSCs, and further suggest that over-proliferation of NSCs before the appearance of AD pathology may underlie neurogenic failure during the age-related progression of the disease. These findings have implications for therapeutic approaches based on neurogenesis in AD.

KW - Alzheimer's disease

KW - Amyloid beta

KW - Neural stem cell

KW - Neurogenesis

KW - Neurosphere

KW - Olfactory bulb

KW - SAMP8

KW - Senescence-accelerated mouse

KW - Subventricular zone

UR - http://www.scopus.com/inward/record.url?scp=84881550803&partnerID=8YFLogxK

U2 - 10.1016/j.neurobiolaging.2013.05.011

DO - 10.1016/j.neurobiolaging.2013.05.011

M3 - Artículo

C2 - 23796660

AN - SCOPUS:84881550803

SN - 0197-4580

VL - 34

SP - 2623

EP - 2638

JO - Neurobiology of Aging

JF - Neurobiology of Aging

IS - 11

ER -

Aβ increases neural stem cell activity in senescence-accelerated SAMP8 mice

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