Quantitative proteomics of human heart samples collected In vivo reveal the remodeled protein landscape of dilated left atrium without atrial fibrillation

Research output: Contribution to journalJournal articleResearchpeer-review

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Quantitative proteomics of human heart samples collected In vivo reveal the remodeled protein landscape of dilated left atrium without atrial fibrillation. / Linscheid, Nora; Poulsen, Pi Camilla; Pedersen, Ida Dalgaard; Gregers, Emilie; Svendsen, Jesper Hastrup; Olesen, Morten Salling; Olsen, Jesper Velgaard; Delmar, Mario; Lundby, Alicia.

In: Molecular and Cellular Proteomics, Vol. 19, No. 7, 2020, p. 1132-1144.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Linscheid, N, Poulsen, PC, Pedersen, ID, Gregers, E, Svendsen, JH, Olesen, MS, Olsen, JV, Delmar, M & Lundby, A 2020, 'Quantitative proteomics of human heart samples collected In vivo reveal the remodeled protein landscape of dilated left atrium without atrial fibrillation', Molecular and Cellular Proteomics, vol. 19, no. 7, pp. 1132-1144. https://doi.org/10.1074/mcp.RA119.001878

APA

Linscheid, N., Poulsen, P. C., Pedersen, I. D., Gregers, E., Svendsen, J. H., Olesen, M. S., Olsen, J. V., Delmar, M., & Lundby, A. (2020). Quantitative proteomics of human heart samples collected In vivo reveal the remodeled protein landscape of dilated left atrium without atrial fibrillation. Molecular and Cellular Proteomics, 19(7), 1132-1144. https://doi.org/10.1074/mcp.RA119.001878

Vancouver

Linscheid N, Poulsen PC, Pedersen ID, Gregers E, Svendsen JH, Olesen MS et al. Quantitative proteomics of human heart samples collected In vivo reveal the remodeled protein landscape of dilated left atrium without atrial fibrillation. Molecular and Cellular Proteomics. 2020;19(7):1132-1144. https://doi.org/10.1074/mcp.RA119.001878

Author

Linscheid, Nora ; Poulsen, Pi Camilla ; Pedersen, Ida Dalgaard ; Gregers, Emilie ; Svendsen, Jesper Hastrup ; Olesen, Morten Salling ; Olsen, Jesper Velgaard ; Delmar, Mario ; Lundby, Alicia. / Quantitative proteomics of human heart samples collected In vivo reveal the remodeled protein landscape of dilated left atrium without atrial fibrillation. In: Molecular and Cellular Proteomics. 2020 ; Vol. 19, No. 7. pp. 1132-1144.

Bibtex

@article{2f41591a261c4b67b862edd0a16d7428,
title = "Quantitative proteomics of human heart samples collected In vivo reveal the remodeled protein landscape of dilated left atrium without atrial fibrillation",
abstract = "Genetic and genomic research has greatly advanced our understanding of heart disease. Yet, comprehensive, in-depth, quantitative maps of protein expression in hearts of living humans are still lacking. Using samples obtained during valve replacement surgery in patients with mitral valve prolapse (MVP), we set out to define inter-chamber differences, the intersect of proteomic data with genetic or genomic datasets, and the impact of left atrial dilation on the proteome of patients with no history of atrial fibrillation (AF). We collected biopsies from right atria (RA), left atria (LA) and left ventricle (LV) of seven male patients with mitral valve regurgitation with dilated LA but no history of AF. Biopsy samples were analyzed by high-resolution mass spectrometry (MS), where peptides were pre-fractionated by reverse phase high-pressure liquid chromatography prior to MS measurement on a Q-Exactive-HF Orbitrap instrument. We identified 7,314 proteins based on 130,728 peptides. Results were confirmed in an independent set of biopsies collected from three additional individuals. Comparative analysis against data from post-mortem samples showed enhanced quantitative power and confidence level in samples collected from living hearts. Our analysis, combined with data from genome wide association studies suggested candidate gene associations to MVP, identified higher abundance in ventricle for proteins associated with cardiomyopathies and revealed the dilated LA proteome, demonstrating differential representation of molecules previously associated with AF, in non-AF hearts. This is the largest dataset of cardiac protein expression from human samples collected in vivo. It provides a comprehensive resource that allows insight into molecular fingerprints of MVP and facilitates novel inferences between genomic data and disease mechanisms. We propose that over-representation of proteins in ventricle is consequent not to redundancy but to functional need, and conclude that changes in abundance of proteins known to associate with AF are not sufficient for arrhythmogenesis.",
author = "Nora Linscheid and Poulsen, {Pi Camilla} and Pedersen, {Ida Dalgaard} and Emilie Gregers and Svendsen, {Jesper Hastrup} and Olesen, {Morten Salling} and Olsen, {Jesper Velgaard} and Mario Delmar and Alicia Lundby",
year = "2020",
doi = "10.1074/mcp.RA119.001878",
language = "English",
volume = "19",
pages = "1132--1144",
journal = "Molecular and Cellular Proteomics",
issn = "1535-9476",
publisher = "American Society for Biochemistry and Molecular Biology",
number = "7",

}

RIS

TY - JOUR

T1 - Quantitative proteomics of human heart samples collected In vivo reveal the remodeled protein landscape of dilated left atrium without atrial fibrillation

AU - Linscheid, Nora

AU - Poulsen, Pi Camilla

AU - Pedersen, Ida Dalgaard

AU - Gregers, Emilie

AU - Svendsen, Jesper Hastrup

AU - Olesen, Morten Salling

AU - Olsen, Jesper Velgaard

AU - Delmar, Mario

AU - Lundby, Alicia

PY - 2020

Y1 - 2020

N2 - Genetic and genomic research has greatly advanced our understanding of heart disease. Yet, comprehensive, in-depth, quantitative maps of protein expression in hearts of living humans are still lacking. Using samples obtained during valve replacement surgery in patients with mitral valve prolapse (MVP), we set out to define inter-chamber differences, the intersect of proteomic data with genetic or genomic datasets, and the impact of left atrial dilation on the proteome of patients with no history of atrial fibrillation (AF). We collected biopsies from right atria (RA), left atria (LA) and left ventricle (LV) of seven male patients with mitral valve regurgitation with dilated LA but no history of AF. Biopsy samples were analyzed by high-resolution mass spectrometry (MS), where peptides were pre-fractionated by reverse phase high-pressure liquid chromatography prior to MS measurement on a Q-Exactive-HF Orbitrap instrument. We identified 7,314 proteins based on 130,728 peptides. Results were confirmed in an independent set of biopsies collected from three additional individuals. Comparative analysis against data from post-mortem samples showed enhanced quantitative power and confidence level in samples collected from living hearts. Our analysis, combined with data from genome wide association studies suggested candidate gene associations to MVP, identified higher abundance in ventricle for proteins associated with cardiomyopathies and revealed the dilated LA proteome, demonstrating differential representation of molecules previously associated with AF, in non-AF hearts. This is the largest dataset of cardiac protein expression from human samples collected in vivo. It provides a comprehensive resource that allows insight into molecular fingerprints of MVP and facilitates novel inferences between genomic data and disease mechanisms. We propose that over-representation of proteins in ventricle is consequent not to redundancy but to functional need, and conclude that changes in abundance of proteins known to associate with AF are not sufficient for arrhythmogenesis.

AB - Genetic and genomic research has greatly advanced our understanding of heart disease. Yet, comprehensive, in-depth, quantitative maps of protein expression in hearts of living humans are still lacking. Using samples obtained during valve replacement surgery in patients with mitral valve prolapse (MVP), we set out to define inter-chamber differences, the intersect of proteomic data with genetic or genomic datasets, and the impact of left atrial dilation on the proteome of patients with no history of atrial fibrillation (AF). We collected biopsies from right atria (RA), left atria (LA) and left ventricle (LV) of seven male patients with mitral valve regurgitation with dilated LA but no history of AF. Biopsy samples were analyzed by high-resolution mass spectrometry (MS), where peptides were pre-fractionated by reverse phase high-pressure liquid chromatography prior to MS measurement on a Q-Exactive-HF Orbitrap instrument. We identified 7,314 proteins based on 130,728 peptides. Results were confirmed in an independent set of biopsies collected from three additional individuals. Comparative analysis against data from post-mortem samples showed enhanced quantitative power and confidence level in samples collected from living hearts. Our analysis, combined with data from genome wide association studies suggested candidate gene associations to MVP, identified higher abundance in ventricle for proteins associated with cardiomyopathies and revealed the dilated LA proteome, demonstrating differential representation of molecules previously associated with AF, in non-AF hearts. This is the largest dataset of cardiac protein expression from human samples collected in vivo. It provides a comprehensive resource that allows insight into molecular fingerprints of MVP and facilitates novel inferences between genomic data and disease mechanisms. We propose that over-representation of proteins in ventricle is consequent not to redundancy but to functional need, and conclude that changes in abundance of proteins known to associate with AF are not sufficient for arrhythmogenesis.

U2 - 10.1074/mcp.RA119.001878

DO - 10.1074/mcp.RA119.001878

M3 - Journal article

C2 - 32291283

VL - 19

SP - 1132

EP - 1144

JO - Molecular and Cellular Proteomics

JF - Molecular and Cellular Proteomics

SN - 1535-9476

IS - 7

ER -

ID: 240411020