TY - JOUR
T1 - ApoE4 markedly exacerbates tau-mediated neurodegeneration in a mouse model of tauopathy
AU - Alzheimer’s Disease Neuroimaging Initiative
AU - Shi, Yang
AU - Yamada, Kaoru
AU - Liddelow, Shane Antony
AU - Smith, Scott T.
AU - Zhao, Lingzhi
AU - Luo, Wenjie
AU - Tsai, Richard M.
AU - Spina, Salvatore
AU - Grinberg, Lea T.
AU - Rojas, Julio C.
AU - Gallardo, Gilbert
AU - Wang, Kairuo
AU - Roh, Joseph
AU - Robinson, Grace
AU - Finn, Mary Beth
AU - Jiang, Hong
AU - Sullivan, Patrick M.
AU - Baufeld, Caroline
AU - Wood, Michael W.
AU - Sutphen, Courtney
AU - McCue, Lena
AU - Xiong, Chengjie
AU - Del-Aguila, Jorge L.
AU - Morris, John C.
AU - Cruchaga, Carlos
AU - Fagan, Anne M.
AU - Miller, Bruce L.
AU - Boxer, Adam L.
AU - Seeley, William W.
AU - Butovsky, Oleg
AU - Barres, Ben A.
AU - Paul, Steven M.
AU - Holtzman, David M.
N1 - Publisher Copyright:
© 2017, Macmillan Publishers Limited, part of Springer Nature. All rights reserved.
PY - 2017/9/28
Y1 - 2017/9/28
N2 - APOE4 is the strongest genetic risk factor for late-onset Alzheimer disease. ApoE4 increases brain amyloid-β pathology relative to other ApoE isoforms1. However, whether APOE independently influences tau pathology, the other major proteinopathy of Alzheimer disease and other tauopathies, or tau-mediated neurodegeneration, is not clear. By generating P301S tau transgenic mice on either a human ApoE knock-in (KI) or ApoE knockout (KO) background, here we show that P301S/E4 mice have significantly higher tau levels in the brain and a greater extent of somatodendritic tau redistribution by three months of age compared with P301S/E2, P301S/E3, and P301S/EKO mice. By nine months of age, P301S mice with different ApoE genotypes display distinct phosphorylated tau protein (p-tau) staining patterns. P301S/E4 mice develop markedly more brain atrophy and neuroinflammation than P301S/E2 and P301S/E3 mice, whereas P301S/EKO mice are largely protected from these changes. In vitro, E4-expressing microglia exhibit higher innate immune reactivity after lipopolysaccharide treatment. Co-culturing P301S tau-expressing neurons with E4-expressing mixed glia results in a significantly higher level of tumour-necrosis factor-α (TNF-α) secretion and markedly reduced neuronal viability compared with neuron/E2 and neuron/E3 co-cultures. Neurons co-cultured with EKO glia showed the greatest viability with the lowest level of secreted TNF-α. Treatment of P301S neurons with recombinant ApoE (E2, E3, E4) also leads to some neuronal damage and death compared with the absence of ApoE, with ApoE4 exacerbating the effect. In individuals with a sporadic primary tauopathy, the presence of an ε4 allele is associated with more severe regional neurodegeneration. In individuals who are positive for amyloid-β pathology with symptomatic Alzheimer disease who usually have tau pathology, ε4-carriers demonstrate greater rates of disease progression. Our results demonstrate that ApoE affects tau pathogenesis, neuroinflammation, and tau-mediated neurodegeneration independently of amyloid-β pathology. ApoE4 exerts a ‘toxic’ gain of function whereas the absence of ApoE is protective.
AB - APOE4 is the strongest genetic risk factor for late-onset Alzheimer disease. ApoE4 increases brain amyloid-β pathology relative to other ApoE isoforms1. However, whether APOE independently influences tau pathology, the other major proteinopathy of Alzheimer disease and other tauopathies, or tau-mediated neurodegeneration, is not clear. By generating P301S tau transgenic mice on either a human ApoE knock-in (KI) or ApoE knockout (KO) background, here we show that P301S/E4 mice have significantly higher tau levels in the brain and a greater extent of somatodendritic tau redistribution by three months of age compared with P301S/E2, P301S/E3, and P301S/EKO mice. By nine months of age, P301S mice with different ApoE genotypes display distinct phosphorylated tau protein (p-tau) staining patterns. P301S/E4 mice develop markedly more brain atrophy and neuroinflammation than P301S/E2 and P301S/E3 mice, whereas P301S/EKO mice are largely protected from these changes. In vitro, E4-expressing microglia exhibit higher innate immune reactivity after lipopolysaccharide treatment. Co-culturing P301S tau-expressing neurons with E4-expressing mixed glia results in a significantly higher level of tumour-necrosis factor-α (TNF-α) secretion and markedly reduced neuronal viability compared with neuron/E2 and neuron/E3 co-cultures. Neurons co-cultured with EKO glia showed the greatest viability with the lowest level of secreted TNF-α. Treatment of P301S neurons with recombinant ApoE (E2, E3, E4) also leads to some neuronal damage and death compared with the absence of ApoE, with ApoE4 exacerbating the effect. In individuals with a sporadic primary tauopathy, the presence of an ε4 allele is associated with more severe regional neurodegeneration. In individuals who are positive for amyloid-β pathology with symptomatic Alzheimer disease who usually have tau pathology, ε4-carriers demonstrate greater rates of disease progression. Our results demonstrate that ApoE affects tau pathogenesis, neuroinflammation, and tau-mediated neurodegeneration independently of amyloid-β pathology. ApoE4 exerts a ‘toxic’ gain of function whereas the absence of ApoE is protective.
UR - http://www.scopus.com/inward/record.url?scp=85035794747&partnerID=8YFLogxK
U2 - 10.1038/nature24016
DO - 10.1038/nature24016
M3 - Article
C2 - 28959956
AN - SCOPUS:85035794747
SN - 0028-0836
VL - 549
SP - 523
EP - 527
JO - Nature
JF - Nature
IS - 7673
ER -