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Protein restriction slows the development and progression of pathology in a mouse model of Alzheimer’s disease

by Green, Cara L. , Calubag, Mariah F. , James, Isabella , Baldwin, Dominique A. , Simcox, Judith , Han, Jessica H. , Tobon, Anna , Michael, John , Matoska, Ryan , Puglielli, Luigi , Pak, Heidi H. , Lamming, Dudley W. , Yeh, Chung-Yang , Trautman, Michaela M. , Sonsalla, Michelle M. , Babygirija, Reji , Niemi, Natalie M. , Mill, Jericha , Wade, Gina , Rigby, Michael J. , Grunow, Isaac , Denu, John M.

in 14 / 14/63 / 631/443/319 / 631/443/7 / 64/60 / 82/58 / 82/80 / Aging / Alzheimer Disease - genetics / Alzheimer Disease - metabolism / Alzheimer Disease - pathology / Alzheimer's disease / Animals / Autophagy / Brain - metabolism / Brain - pathology / Cognition / Cognitive ability / Diet / Diet, Protein-Restricted / Dietary restrictions / Disease Models, Animal / Disease Progression / Female / Females / Glucose Intolerance - metabolism / Glucose tolerance / Humanities and Social Sciences / Humans / Life span / Low protein diet / Male / Mechanistic Target of Rapamycin Complex 1 - metabolism / Metabolism / Metabolites / Mice / Mice, Inbred C57BL / Mice, Transgenic / multidisciplinary / Neurodegenerative diseases / Nutrient deficiency / Pathology / Proteins / Science / Science (multidisciplinary) / Sphingolipids - metabolism

2024

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Protein restriction slows the development and progression of pathology in a mouse model of Alzheimer’s disease

2024

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2024

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Journal Article

Protein restriction slows the development and progression of pathology in a mouse model of Alzheimer’s disease

Green, Cara L.,

Calubag, Mariah F.,

James, Isabella,

Baldwin, Dominique A.,

Simcox, Judith,

Han, Jessica H.,

Tobon, Anna,

Michael, John,

Matoska, Ryan,

Puglielli, Luigi,

Pak, Heidi H.,

Lamming, Dudley W.,

Yeh, Chung-Yang,

Trautman, Michaela M.,

Sonsalla, Michelle M.,

Babygirija, Reji,

Niemi, Natalie M.,

Mill, Jericha,

Wade, Gina,

Rigby, Michael J.,

Grunow, Isaac,

Denu, John M.

2024

Overview

Dietary protein is a critical regulator of metabolic health and aging. Low protein diets are associated with healthy aging in humans, and dietary protein restriction extends the lifespan and healthspan of mice. In this study, we examined the effect of protein restriction (PR) on metabolic health and the development and progression of Alzheimer’s disease (AD) in the 3xTg mouse model of AD. Here, we show that PR promotes leanness and glycemic control in 3xTg mice, specifically rescuing the glucose intolerance of 3xTg females. PR induces sex-specific alterations in circulating and brain metabolites, downregulating sphingolipid subclasses in 3xTg females. PR also reduces AD pathology and mTORC1 activity, increases autophagy, and improves the cognition of 3xTg mice. Finally, PR improves the survival of 3xTg mice. Our results suggest that PR or pharmaceutical interventions that mimic the effects of this diet may hold promise as a treatment for AD. There is growing need for ways to slow or prevent Alzheimer’s disease (AD). Here, the authors demonstrate that a low protein diet can protect against metabolic dysfunction, slow AD progression, and preserve cognitive function in a mouse model of AD.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

/ 14/63

/ 631/443/319

/ 631/443/7

/ 64/60

/ 82/58

/ 82/80

/ Aging