Epigenetic Age and the Risk of Incident Atrial Fibrillation

Jason D. Roberts; Eric Vittinghoff; Ake T. Lu; Alvaro Alonso; Biqi Wang; Colleen M. Sitlani; Pedrum Mohammadi-Shemirani; Myriam Fornage; Jelena Kornej; Jennifer A. Brody; Dan E. Arking; Honghuang Lin; Susan R. Heckbert; Ivana Prokic; Mohsen Ghanbari; Allan C. Skanes; Traci M. Bartz; Marco V. Perez; Kent D. Taylor; Steven A. Lubitz; Patrick T. Ellinor; Kathryn L. Lunetta; James S. Pankow; Guillaume Paré; Nona Sotoodehnia; Emelia J. Benjamin; Steve Horvath; Gregory M. Marcus

doi:10.1161/CIRCULATIONAHA.121.056456

Epigenetic Age and the Risk of Incident Atrial Fibrillation

Jason D. Roberts, Eric Vittinghoff, Ake T. Lu, Alvaro Alonso, Biqi Wang, Colleen M. Sitlani, Pedrum Mohammadi-Shemirani, Myriam Fornage, Jelena Kornej, Jennifer A. Brody, Dan E. Arking, Honghuang Lin, Susan R. Heckbert, Ivana Prokic, Mohsen Ghanbari, Allan C. Skanes, Traci M. Bartz, Marco V. Perez, Kent D. Taylor, Steven A. LubitzPatrick T. Ellinor, Kathryn L. Lunetta, James S. Pankow, Guillaume Paré, Nona Sotoodehnia, Emelia J. Benjamin, Steve Horvath, Gregory M. Marcus

Research output: Contribution to journal › Article › peer-review

Abstract

Background: The most prominent risk factor for atrial fibrillation (AF) is chronological age; however, underlying mechanisms are unexplained. Algorithms using epigenetic modifications to the human genome effectively predict chronological age. Chronological and epigenetic predicted ages may diverge in a phenomenon referred to as epigenetic age acceleration (EAA), which may reflect accelerated biological aging. We sought to evaluate for associations between epigenetic age measures and incident AF. Methods: Measures for 4 epigenetic clocks (Horvath, Hannum, DNA methylation [DNAm] PhenoAge, and DNAm GrimAge) and an epigenetic predictor of PAI-1 (plasminogen activator inhibitor-1) levels (ie, DNAm PAI-1) were determined for study participants from 3 population-based cohort studies. Cox models evaluated for associations with incident AF and results were combined via random-effects meta-analyses. Two-sample summary-level Mendelian randomization analyses evaluated for associations between genetic instruments of the EAA measures and AF. Results: Among 5600 participants (mean age, 65.5 years; female, 60.1%; Black, 50.7%), there were 905 incident AF cases during a mean follow-up of 12.9 years. Unadjusted analyses revealed all 4 epigenetic clocks and the DNAm PAI-1 predictor were associated with statistically significant higher hazards of incident AF, though the magnitudes of their point estimates were smaller relative to the associations observed for chronological age. The pooled EAA estimates for each epigenetic measure, with the exception of Horvath EAA, were associated with incident AF in models adjusted for chronological age, race, sex, and smoking variables. After multivariable adjustment for additional known AF risk factors that could also potentially function as mediators, pooled EAA measures for 2 clocks remained statistically significant. Five-year increases in EAA measures for DNAm GrimAge and DNAm PhenoAge were associated with 19% (adjusted hazard ratio [HR], 1.19 [95% CI, 1.09-1.31]; P<0.01) and 15% (adjusted HR, 1.15 [95% CI, 1.05-1.25]; P<0.01) higher hazards of incident AF, respectively. Mendelian randomization analyses for the 5 EAA measures did not reveal statistically significant associations with AF. Conclusions: Our study identified adjusted associations between EAA measures and incident AF, suggesting that biological aging plays an important role independent of chronological age, though a potential underlying causal relationship remains unclear. These aging processes may be modifiable and not constrained by the immutable factor of time.

Original language	English (US)
Pages (from-to)	1899-1911
Number of pages	13
Journal	Circulation
Volume	144
Issue number	24
DOIs	https://doi.org/10.1161/CIRCULATIONAHA.121.056456
State	Published - Dec 14 2021
Externally published	Yes

Keywords

aging
atrial fibrillation
epigenomics
genetics

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine
Physiology (medical)

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10.1161/CIRCULATIONAHA.121.056456

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Roberts, J. D., Vittinghoff, E., Lu, A. T., Alonso, A., Wang, B., Sitlani, C. M., Mohammadi-Shemirani, P., Fornage, M., Kornej, J., Brody, J. A., Arking, D. E., Lin, H., Heckbert, S. R., Prokic, I., Ghanbari, M., Skanes, A. C., Bartz, T. M., Perez, M. V., Taylor, K. D., ... Marcus, G. M. (2021). Epigenetic Age and the Risk of Incident Atrial Fibrillation. Circulation, 144(24), 1899-1911. https://doi.org/10.1161/CIRCULATIONAHA.121.056456

Roberts, JD, Vittinghoff, E, Lu, AT, Alonso, A, Wang, B, Sitlani, CM, Mohammadi-Shemirani, P, Fornage, M, Kornej, J, Brody, JA, Arking, DE, Lin, H, Heckbert, SR, Prokic, I, Ghanbari, M, Skanes, AC, Bartz, TM, Perez, MV, Taylor, KD, Lubitz, SA, Ellinor, PT, Lunetta, KL, Pankow, JS, Paré, G, Sotoodehnia, N, Benjamin, EJ, Horvath, S & Marcus, GM 2021, 'Epigenetic Age and the Risk of Incident Atrial Fibrillation', Circulation, vol. 144, no. 24, pp. 1899-1911. https://doi.org/10.1161/CIRCULATIONAHA.121.056456

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title = "Epigenetic Age and the Risk of Incident Atrial Fibrillation",

abstract = "Background: The most prominent risk factor for atrial fibrillation (AF) is chronological age; however, underlying mechanisms are unexplained. Algorithms using epigenetic modifications to the human genome effectively predict chronological age. Chronological and epigenetic predicted ages may diverge in a phenomenon referred to as epigenetic age acceleration (EAA), which may reflect accelerated biological aging. We sought to evaluate for associations between epigenetic age measures and incident AF. Methods: Measures for 4 epigenetic clocks (Horvath, Hannum, DNA methylation [DNAm] PhenoAge, and DNAm GrimAge) and an epigenetic predictor of PAI-1 (plasminogen activator inhibitor-1) levels (ie, DNAm PAI-1) were determined for study participants from 3 population-based cohort studies. Cox models evaluated for associations with incident AF and results were combined via random-effects meta-analyses. Two-sample summary-level Mendelian randomization analyses evaluated for associations between genetic instruments of the EAA measures and AF. Results: Among 5600 participants (mean age, 65.5 years; female, 60.1%; Black, 50.7%), there were 905 incident AF cases during a mean follow-up of 12.9 years. Unadjusted analyses revealed all 4 epigenetic clocks and the DNAm PAI-1 predictor were associated with statistically significant higher hazards of incident AF, though the magnitudes of their point estimates were smaller relative to the associations observed for chronological age. The pooled EAA estimates for each epigenetic measure, with the exception of Horvath EAA, were associated with incident AF in models adjusted for chronological age, race, sex, and smoking variables. After multivariable adjustment for additional known AF risk factors that could also potentially function as mediators, pooled EAA measures for 2 clocks remained statistically significant. Five-year increases in EAA measures for DNAm GrimAge and DNAm PhenoAge were associated with 19% (adjusted hazard ratio [HR], 1.19 [95% CI, 1.09-1.31]; P<0.01) and 15% (adjusted HR, 1.15 [95% CI, 1.05-1.25]; P<0.01) higher hazards of incident AF, respectively. Mendelian randomization analyses for the 5 EAA measures did not reveal statistically significant associations with AF. Conclusions: Our study identified adjusted associations between EAA measures and incident AF, suggesting that biological aging plays an important role independent of chronological age, though a potential underlying causal relationship remains unclear. These aging processes may be modifiable and not constrained by the immutable factor of time.",

keywords = "aging, atrial fibrillation, epigenomics, genetics",

author = "Roberts, {Jason D.} and Eric Vittinghoff and Lu, {Ake T.} and Alvaro Alonso and Biqi Wang and Sitlani, {Colleen M.} and Pedrum Mohammadi-Shemirani and Myriam Fornage and Jelena Kornej and Brody, {Jennifer A.} and Arking, {Dan E.} and Honghuang Lin and Heckbert, {Susan R.} and Ivana Prokic and Mohsen Ghanbari and Skanes, {Allan C.} and Bartz, {Traci M.} and Perez, {Marco V.} and Taylor, {Kent D.} and Lubitz, {Steven A.} and Ellinor, {Patrick T.} and Lunetta, {Kathryn L.} and Pankow, {James S.} and Guillaume Par{\'e} and Nona Sotoodehnia and Benjamin, {Emelia J.} and Steve Horvath and Marcus, {Gregory M.}",

year = "2021",

month = dec,

day = "14",

doi = "10.1161/CIRCULATIONAHA.121.056456",

language = "English (US)",

volume = "144",

pages = "1899--1911",

journal = "Circulation",

issn = "0009-7322",

publisher = "Lippincott Williams and Wilkins",

number = "24",

}

TY - JOUR

T1 - Epigenetic Age and the Risk of Incident Atrial Fibrillation

AU - Roberts, Jason D.

AU - Vittinghoff, Eric

AU - Lu, Ake T.

AU - Alonso, Alvaro

AU - Wang, Biqi

AU - Sitlani, Colleen M.

AU - Mohammadi-Shemirani, Pedrum

AU - Fornage, Myriam

AU - Kornej, Jelena

AU - Brody, Jennifer A.

AU - Arking, Dan E.

AU - Lin, Honghuang

AU - Heckbert, Susan R.

AU - Prokic, Ivana

AU - Ghanbari, Mohsen

AU - Skanes, Allan C.

AU - Bartz, Traci M.

AU - Perez, Marco V.

AU - Taylor, Kent D.

AU - Lubitz, Steven A.

AU - Ellinor, Patrick T.

AU - Lunetta, Kathryn L.

AU - Pankow, James S.

AU - Paré, Guillaume

AU - Sotoodehnia, Nona

AU - Benjamin, Emelia J.

AU - Horvath, Steve

AU - Marcus, Gregory M.

PY - 2021/12/14

Y1 - 2021/12/14

N2 - Background: The most prominent risk factor for atrial fibrillation (AF) is chronological age; however, underlying mechanisms are unexplained. Algorithms using epigenetic modifications to the human genome effectively predict chronological age. Chronological and epigenetic predicted ages may diverge in a phenomenon referred to as epigenetic age acceleration (EAA), which may reflect accelerated biological aging. We sought to evaluate for associations between epigenetic age measures and incident AF. Methods: Measures for 4 epigenetic clocks (Horvath, Hannum, DNA methylation [DNAm] PhenoAge, and DNAm GrimAge) and an epigenetic predictor of PAI-1 (plasminogen activator inhibitor-1) levels (ie, DNAm PAI-1) were determined for study participants from 3 population-based cohort studies. Cox models evaluated for associations with incident AF and results were combined via random-effects meta-analyses. Two-sample summary-level Mendelian randomization analyses evaluated for associations between genetic instruments of the EAA measures and AF. Results: Among 5600 participants (mean age, 65.5 years; female, 60.1%; Black, 50.7%), there were 905 incident AF cases during a mean follow-up of 12.9 years. Unadjusted analyses revealed all 4 epigenetic clocks and the DNAm PAI-1 predictor were associated with statistically significant higher hazards of incident AF, though the magnitudes of their point estimates were smaller relative to the associations observed for chronological age. The pooled EAA estimates for each epigenetic measure, with the exception of Horvath EAA, were associated with incident AF in models adjusted for chronological age, race, sex, and smoking variables. After multivariable adjustment for additional known AF risk factors that could also potentially function as mediators, pooled EAA measures for 2 clocks remained statistically significant. Five-year increases in EAA measures for DNAm GrimAge and DNAm PhenoAge were associated with 19% (adjusted hazard ratio [HR], 1.19 [95% CI, 1.09-1.31]; P<0.01) and 15% (adjusted HR, 1.15 [95% CI, 1.05-1.25]; P<0.01) higher hazards of incident AF, respectively. Mendelian randomization analyses for the 5 EAA measures did not reveal statistically significant associations with AF. Conclusions: Our study identified adjusted associations between EAA measures and incident AF, suggesting that biological aging plays an important role independent of chronological age, though a potential underlying causal relationship remains unclear. These aging processes may be modifiable and not constrained by the immutable factor of time.

AB - Background: The most prominent risk factor for atrial fibrillation (AF) is chronological age; however, underlying mechanisms are unexplained. Algorithms using epigenetic modifications to the human genome effectively predict chronological age. Chronological and epigenetic predicted ages may diverge in a phenomenon referred to as epigenetic age acceleration (EAA), which may reflect accelerated biological aging. We sought to evaluate for associations between epigenetic age measures and incident AF. Methods: Measures for 4 epigenetic clocks (Horvath, Hannum, DNA methylation [DNAm] PhenoAge, and DNAm GrimAge) and an epigenetic predictor of PAI-1 (plasminogen activator inhibitor-1) levels (ie, DNAm PAI-1) were determined for study participants from 3 population-based cohort studies. Cox models evaluated for associations with incident AF and results were combined via random-effects meta-analyses. Two-sample summary-level Mendelian randomization analyses evaluated for associations between genetic instruments of the EAA measures and AF. Results: Among 5600 participants (mean age, 65.5 years; female, 60.1%; Black, 50.7%), there were 905 incident AF cases during a mean follow-up of 12.9 years. Unadjusted analyses revealed all 4 epigenetic clocks and the DNAm PAI-1 predictor were associated with statistically significant higher hazards of incident AF, though the magnitudes of their point estimates were smaller relative to the associations observed for chronological age. The pooled EAA estimates for each epigenetic measure, with the exception of Horvath EAA, were associated with incident AF in models adjusted for chronological age, race, sex, and smoking variables. After multivariable adjustment for additional known AF risk factors that could also potentially function as mediators, pooled EAA measures for 2 clocks remained statistically significant. Five-year increases in EAA measures for DNAm GrimAge and DNAm PhenoAge were associated with 19% (adjusted hazard ratio [HR], 1.19 [95% CI, 1.09-1.31]; P<0.01) and 15% (adjusted HR, 1.15 [95% CI, 1.05-1.25]; P<0.01) higher hazards of incident AF, respectively. Mendelian randomization analyses for the 5 EAA measures did not reveal statistically significant associations with AF. Conclusions: Our study identified adjusted associations between EAA measures and incident AF, suggesting that biological aging plays an important role independent of chronological age, though a potential underlying causal relationship remains unclear. These aging processes may be modifiable and not constrained by the immutable factor of time.

KW - aging

KW - atrial fibrillation

KW - epigenomics

KW - genetics

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SN - 0009-7322

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Epigenetic Age and the Risk of Incident Atrial Fibrillation

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Keywords

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