Lena Cai scite author profile

The majority of Alzheimer’s disease (AD) cases are late-onset and occur sporadically, however most mouse models of the disease harbor pathogenic mutations, rendering them better representations of familial autosomal-dominant forms of the disease. Here, we generated knock-in mice that express wildtype human Aβ under control of the mouse App locus. Remarkably, changing 3 amino acids in the mouse Aβ sequence to its wild-type human counterpart leads to age-dependent impairments in cognition and synaptic plasticity, brain volumetric changes, inflammatory alterations, the appearance of Periodic Acid-Schiff (PAS) granules and changes in gene expression. In addition, when exon 14 encoding the Aβ sequence was flanked by loxP sites we show that Cre-mediated excision of exon 14 ablates hAβ expression, rescues cognition and reduces the formation of PAS granules.

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Tau underlies synaptic and cognitive deficits for type 1, but not type 2 diabetes mouse models

Trujillo‐Estrada

Nguyen

Cunha

et al. 2019

Aging Cell

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Diabetes mellitus (DM) is one of the most devastating diseases that currently affects the aging population. Recent evidence indicates that DM is a risk factor for many brain disorders, due to its direct effects on cognition. New findings have shown that the microtubule‐associated protein tau is pathologically processed in DM; however, it remains unknown whether pathological tau modifications play a central role in the cognitive deficits associated with DM. To address this question, we used a gain‐of‐function and loss‐of‐function approach to modulate tau levels in type 1 diabetes (T1DM) and type 2 diabetes (T2DM) mouse models. Our study demonstrates that tau differentially contributes to cognitive and synaptic deficits induced by DM. On one hand, overexpressing wild‐type human tau further exacerbates cognitive and synaptic impairments induced by T1DM, as human tau mice treated under T1DM conditions show robust deficits in learning and memory processes. On the other hand, neither a reduction nor increase in tau levels affects cognition in T2DM mice. Together, these results shine new light onto the different molecular mechanisms that underlie the cognitive and synaptic impairments associated with T1DM and T2DM.

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[P1–107]: APPKI‐HaβWT: A NOVEL TRANSGENIC MOUSE TO MODEL SPORADIC ALZHEIMER's DISEASE

Baglietto‐Vargas

Cai

Forner

et al. 2017

Alzheimer's & Dementia

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P3‐069: HUMAN WILD TYPE Aβ KNOCK‐IN MICE AS a BASIS TO STUDY SPORADIC ALZHEIMER'S DISEASE

Baglietto‐Vargas

Forner

Cai

et al. 2019

Alzheimer's & Dementia

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O1‐01‐04: HAβ‐KI: A KNOCK‐IN MOUSE MODEL FOR SPORADIC ALZHEIMER'S DISEASE

Baglietto‐Vargas

Cai

Forner

et al. 2018

Alzheimer's & Dementia

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Lena Cai

Generation of a humanized Aβ expressing mouse demonstrating aspects of Alzheimer’s disease-like pathology

Tau underlies synaptic and cognitive deficits for type 1, but not type 2 diabetes mouse models

[P1–107]: APPKI‐HaβWT: A NOVEL TRANSGENIC MOUSE TO MODEL SPORADIC ALZHEIMER's DISEASE

P3‐069: HUMAN WILD TYPE Aβ KNOCK‐IN MICE AS a BASIS TO STUDY SPORADIC ALZHEIMER'S DISEASE

O1‐01‐04: HAβ‐KI: A KNOCK‐IN MOUSE MODEL FOR SPORADIC ALZHEIMER'S DISEASE

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