TY - JOUR
T1 - Humanization of the entire murine Mapt gene provides a murine model of pathological human tau propagation
AU - Saito, Takashi
AU - Mihira, Naomi
AU - Matsuba, Yukio
AU - Sasaguri, Hiroki
AU - Hashimoto, Shoko
AU - Narasimhan, Sneha
AU - Zhang, Bin
AU - Murayama, Shigeo
AU - Higuchi, Makoto
AU - Lee, Virginia M.Y.
AU - Trojanowski, John Q.
AU - Saido, Takaomi C.
N1 - Publisher Copyright:
© 2019 Saito et al. Published under exclusive license by The American Society for Biochemistry and Molecular Biology, Inc.
PY - 2019/8/23
Y1 - 2019/8/23
N2 - In cortical regions of brains from individuals with preclinical or clinical Alzheimer's disease (AD), extracellular β-amyloid (Aβ) deposition precedes the aggregation of pathological intracellular tau (the product of the gene microtubule-associated protein tau (MAPT)). To our knowledge, current mouse models of tauopathy reconstitute tau pathology by overexpressing mutant human tau protein. Here, through a homologous recombination approach that replaced the entire murine Mapt gene with the human ortholog, we developed knock-in mice with humanized Mapt to create an in vivo platform for studying human tauopathy. Of note, the humanized Mapt expressed all six tau isoforms present in humans. We next cross-bred the MAPT knock-in mice with single amyloid precursor protein (App) knock-in mice to investigate the Aβ-tau axis in AD etiology. The double-knock-in mice exhibited higher tau phosphorylation than did single MAPT knock-in mice but initially lacked apparent tauopathy and neurodegeneration, as observed in the single App knock-in mice.Wefurther observed that tau humanization significantly accelerates cell-to-cell propagation of AD brain-derived pathological tau both in the absence and presence ofAβ-amyloidosis. In the presence ofAβ-amyloidosis, tau accumulation was intensified and closely associated with dystrophic neurites, consistently showing that Aβ-amyloidosis affects tau pathology. Our results also indicated that the pathological human tau interacts better with human tau than with murine tau, suggesting species-specific differences between these orthologous pathogenic proteins. We propose that the MAPT knock-in mice will make it feasible to investigate the behaviors and characteristics of human tau in an animal model.
AB - In cortical regions of brains from individuals with preclinical or clinical Alzheimer's disease (AD), extracellular β-amyloid (Aβ) deposition precedes the aggregation of pathological intracellular tau (the product of the gene microtubule-associated protein tau (MAPT)). To our knowledge, current mouse models of tauopathy reconstitute tau pathology by overexpressing mutant human tau protein. Here, through a homologous recombination approach that replaced the entire murine Mapt gene with the human ortholog, we developed knock-in mice with humanized Mapt to create an in vivo platform for studying human tauopathy. Of note, the humanized Mapt expressed all six tau isoforms present in humans. We next cross-bred the MAPT knock-in mice with single amyloid precursor protein (App) knock-in mice to investigate the Aβ-tau axis in AD etiology. The double-knock-in mice exhibited higher tau phosphorylation than did single MAPT knock-in mice but initially lacked apparent tauopathy and neurodegeneration, as observed in the single App knock-in mice.Wefurther observed that tau humanization significantly accelerates cell-to-cell propagation of AD brain-derived pathological tau both in the absence and presence ofAβ-amyloidosis. In the presence ofAβ-amyloidosis, tau accumulation was intensified and closely associated with dystrophic neurites, consistently showing that Aβ-amyloidosis affects tau pathology. Our results also indicated that the pathological human tau interacts better with human tau than with murine tau, suggesting species-specific differences between these orthologous pathogenic proteins. We propose that the MAPT knock-in mice will make it feasible to investigate the behaviors and characteristics of human tau in an animal model.
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U2 - 10.1074/jbc.RA119.009487
DO - 10.1074/jbc.RA119.009487
M3 - Article
C2 - 31273083
AN - SCOPUS:85071437621
SN - 0021-9258
VL - 294
SP - 12754
EP - 12765
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 34
ER -