Xbp1s-FoxO1 axis governs lipid accumulation and contractile performance in heart failure with preserved ejection fraction

Xbp1s-FoxO1 axis governs lipid accumulation and contractile performance in heart failure with preserved ejection fraction

Heart failure with preserved ejection fraction (HFpEF) is a global, major health issue for which no effective therapies are available. Here, the authors discover that the interplay between two transcription factors, Xbp1s and FoxO1, is critical for metabolic adaptation and lipid handling in HFpEF-st...

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Main Authors: Gabriele G. Schiattarella, Francisco Altamirano, Soo Young Kim, Dan Tong, Anwarul Ferdous, Hande Piristine, Subhajit Dasgupta, Xuliang Wang, Kristin M. French, Elisa Villalobos, Stephen B. Spurgin, Maayan Waldman, Nan Jiang, Herman I. May, Theodore M. Hill, Yuxuan Luo, Heesoo Yoo, Vlad G. Zaha, Sergio Lavandero, Thomas G. Gillette, Joseph A. Hill
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-021-21931-9
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spelling doaj-5e96ad72a7fc4e428e30cd13deb2825b2021-03-21T12:14:51ZengNature Publishing GroupNature Communications2041-17232021-03-0112111410.1038/s41467-021-21931-9Xbp1s-FoxO1 axis governs lipid accumulation and contractile performance in heart failure with preserved ejection fractionGabriele G. Schiattarella0Francisco Altamirano1Soo Young Kim2Dan Tong3Anwarul Ferdous4Hande Piristine5Subhajit Dasgupta6Xuliang Wang7Kristin M. French8Elisa Villalobos9Stephen B. Spurgin10Maayan Waldman11Nan Jiang12Herman I. May13Theodore M. Hill14Yuxuan Luo15Heesoo Yoo16Vlad G. Zaha17Sergio Lavandero18Thomas G. Gillette19Joseph A. Hill20Department of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Pediatrics, University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterDepartment of Internal Medicine (Cardiology), University of Texas Southwestern Medical CenterHeart failure with preserved ejection fraction (HFpEF) is a global, major health issue for which no effective therapies are available. Here, the authors discover that the interplay between two transcription factors, Xbp1s and FoxO1, is critical for metabolic adaptation and lipid handling in HFpEF-stressed cardiomyocytes.https://doi.org/10.1038/s41467-021-21931-9
collection DOAJ
language English
format Article
sources DOAJ
author Gabriele G. Schiattarella
Francisco Altamirano
Soo Young Kim
Dan Tong
Anwarul Ferdous
Hande Piristine
Subhajit Dasgupta
Xuliang Wang
Kristin M. French
Elisa Villalobos
Stephen B. Spurgin
Maayan Waldman
Nan Jiang
Herman I. May
Theodore M. Hill
Yuxuan Luo
Heesoo Yoo
Vlad G. Zaha
Sergio Lavandero
Thomas G. Gillette
Joseph A. Hill
spellingShingle Gabriele G. Schiattarella
Francisco Altamirano
Soo Young Kim
Dan Tong
Anwarul Ferdous
Hande Piristine
Subhajit Dasgupta
Xuliang Wang
Kristin M. French
Elisa Villalobos
Stephen B. Spurgin
Maayan Waldman
Nan Jiang
Herman I. May
Theodore M. Hill
Yuxuan Luo
Heesoo Yoo
Vlad G. Zaha
Sergio Lavandero
Thomas G. Gillette
Joseph A. Hill
Xbp1s-FoxO1 axis governs lipid accumulation and contractile performance in heart failure with preserved ejection fraction
Nature Communications
author_facet Gabriele G. Schiattarella
Francisco Altamirano
Soo Young Kim
Dan Tong
Anwarul Ferdous
Hande Piristine
Subhajit Dasgupta
Xuliang Wang
Kristin M. French
Elisa Villalobos
Stephen B. Spurgin
Maayan Waldman
Nan Jiang
Herman I. May
Theodore M. Hill
Yuxuan Luo
Heesoo Yoo
Vlad G. Zaha
Sergio Lavandero
Thomas G. Gillette
Joseph A. Hill
author_sort Gabriele G. Schiattarella
title Xbp1s-FoxO1 axis governs lipid accumulation and contractile performance in heart failure with preserved ejection fraction
title_short Xbp1s-FoxO1 axis governs lipid accumulation and contractile performance in heart failure with preserved ejection fraction
title_full Xbp1s-FoxO1 axis governs lipid accumulation and contractile performance in heart failure with preserved ejection fraction
title_fullStr Xbp1s-FoxO1 axis governs lipid accumulation and contractile performance in heart failure with preserved ejection fraction
title_full_unstemmed Xbp1s-FoxO1 axis governs lipid accumulation and contractile performance in heart failure with preserved ejection fraction
title_sort xbp1s-foxo1 axis governs lipid accumulation and contractile performance in heart failure with preserved ejection fraction
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2021-03-01
description Heart failure with preserved ejection fraction (HFpEF) is a global, major health issue for which no effective therapies are available. Here, the authors discover that the interplay between two transcription factors, Xbp1s and FoxO1, is critical for metabolic adaptation and lipid handling in HFpEF-stressed cardiomyocytes.
url https://doi.org/10.1038/s41467-021-21931-9
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