Your search keyword '"Epigenetic age acceleration"' showing total 6 results

1. Assessing the causal role of epigenetic clocks in the development of multiple cancers : a Mendelian randomization study.

Author

Morales Berstein, Fernanda, McCartney, Daniel L, Lu, Ake T, Tsilidis, Konstantinos K, Bouras, Emmanouil, Haycock, Philip, Burrows, Kimberley, Phipps, Amanda I, Buchanan, Daniel D, Cheng, Iona, Martin, Richard M, Davey Smith, George, Relton, Caroline L, Horvath, Steve, Marioni, Riccardo E, Richardson, Tom G, Richmond, Rebecca C, Morales Berstein, Fernanda, McCartney, Daniel L, Lu, Ake T, Tsilidis, Konstantinos K, Bouras, Emmanouil, Haycock, Philip, Burrows, Kimberley, Phipps, Amanda I, Buchanan, Daniel D, Cheng, Iona, Martin, Richard M, Davey Smith, George, Relton, Caroline L, Horvath, Steve, Marioni, Riccardo E, Richardson, Tom G, and Richmond, Rebecca C

Abstract

BACKGROUND: Epigenetic clocks have been associated with cancer risk in several observational studies. Nevertheless, it is unclear whether they play a causal role in cancer risk or if they act as a non-causal biomarker. METHODS: We conducted a two-sample Mendelian randomization (MR) study to examine the genetically predicted effects of epigenetic age acceleration as measured by HannumAge (nine single-nucleotide polymorphisms (SNPs)), Horvath Intrinsic Age (24 SNPs), PhenoAge (11 SNPs), and GrimAge (4 SNPs) on multiple cancers (i.e. breast, prostate, colorectal, ovarian and lung cancer). We obtained genome-wide association data for biological ageing from a meta-analysis (N = 34,710), and for cancer from the UK Biobank (N cases = 2671-13,879; N controls = 173,493-372,016), FinnGen (N cases = 719-8401; N controls = 74,685-174,006) and several international cancer genetic consortia (N cases = 11,348-122,977; N controls = 15,861-105,974). Main analyses were performed using multiplicative random effects inverse variance weighted (IVW) MR. Individual study estimates were pooled using fixed effect meta-analysis. Sensitivity analyses included MR-Egger, weighted median, weighted mode and Causal Analysis using Summary Effect Estimates (CAUSE) methods, which are robust to some of the assumptions of the IVW approach. RESULTS: Meta-analysed IVW MR findings suggested that higher GrimAge acceleration increased the risk of colorectal cancer (OR = 1.12 per year increase in GrimAge acceleration, 95% CI 1.04-1.20, p = 0.002). The direction of the genetically predicted effects was consistent across main and sensitivity MR analyses. Among subtypes, the genetically predicted effect of GrimAge acceleration was greater for colon cancer (IVW OR = 1.15, 95% CI 1.09-1.21, p = 0.006), than rectal cancer (IVW OR = 1.05, 95% CI 0.97-1.13, p = 0.24). Results were less consistent for associations between other epigenetic clocks and cancers. CONCLUSIONS: GrimAge acceleration may increase the risk of

Published

2022

2. Association of subjective social status with epigenetic aging among Black and White women.

Author

Hamlat, Elissa J, Hamlat, Elissa J, Adler, Nancy E, Laraia, Barbara, Surachman, Agus, Lu, Ake T, Zhang, Joshua, Horvath, Steve, Epel, Elissa S, Hamlat, Elissa J, Hamlat, Elissa J, Adler, Nancy E, Laraia, Barbara, Surachman, Agus, Lu, Ake T, Zhang, Joshua, Horvath, Steve, and Epel, Elissa S

Abstract

ObjectiveSubjective social status (SSS), an individual's assessment of their own social status in relation to others, is associated with health and mortality independently of objective SES; however, no studies have tested whether SSS influences epigenetic aging. The current study examines if SSS is associated with epigenetic age acceleration in both Black and White women, independently of objective SES measured during both childhood and adulthood.MethodFor 9- and 10-year-old Black and White girls, parental education and annual household income was obtained. At ages 39-42, 361 participants (175 Black, 186 White) reported their current education, household income, and SSS, and provided saliva to assess age acceleration using the GrimAge epigenetic clock. Linear regression estimated the association of SSS with epigenetic age acceleration, controlling for objective SES (current education, current income, parents' education, income during childhood), smoking, and counts of cell types.ResultsWhen all objective SES variables were included in the model, SSS remained significantly associated with epigenetic age acceleration, b = - 0.31, p = .003, ß = - 0.15. Black women had significantly greater age acceleration than White women, (t(359) = 5.20, p > .001, d = 0.55) but race did not moderate the association between SSS and epigenetic age acceleration.ConclusionsWomen who rated themselves lower in SSS had greater epigenetic age acceleration, regardless of income and education. There was no difference by race for this association.

Published

2022

3. Association of cardiovascular health and epigenetic age acceleration.

Author

Pottinger, Tess D, Pottinger, Tess D, Khan, Sadiya S, Zheng, Yinan, Zhang, Wei, Tindle, Hilary A, Allison, Matthew, Wells, Gretchen, Shadyab, Aladdin H, Nassir, Rami, Martin, Lisa Warsinger, Manson, JoAnn E, Lloyd-Jones, Donald M, Greenland, Philip, Baccarelli, Andrea A, Whitsel, Eric A, Hou, Lifang, Pottinger, Tess D, Pottinger, Tess D, Khan, Sadiya S, Zheng, Yinan, Zhang, Wei, Tindle, Hilary A, Allison, Matthew, Wells, Gretchen, Shadyab, Aladdin H, Nassir, Rami, Martin, Lisa Warsinger, Manson, JoAnn E, Lloyd-Jones, Donald M, Greenland, Philip, Baccarelli, Andrea A, Whitsel, Eric A, and Hou, Lifang

Abstract

BackgroundCardiovascular health (CVH) has been defined by the American Heart Association (AHA) as the presence of the "Life's Simple 7" ideal lifestyle and clinical factors. CVH is known to predict longevity and freedom from cardiovascular disease, the leading cause of death for women in the United States. DNA methylation markers of aging have been aggregated into a composite epigenetic age score, which is associated with cardiovascular morbidity and mortality. However, it is unknown whether poor CVH is associated with acceleration of aging as measured by DNA methylation markers in epigenetic age.Methods and resultsWe performed a cross-sectional analysis of racially/ethnically diverse post-menopausal women enrolled in the Women's Health Initiative cohort recruited between 1993 and 1998. Epigenetic age acceleration (EAA) was calculated using DNA methylation data on a subset of participants and the published Horvath and Hannum methods for intrinsic and extrinsic EAA. CVH was calculated using the AHA measures of CVH contributing to a 7-point score. We examined the association between CVH score and EAA using linear regression modeling adjusting for self-reported race/ethnicity and education. Among the 2,170 participants analyzed, 50% were white and mean age was 64 (7 SD) years. Higher or more favorable CVH scores were associated with lower extrinsic EAA (~ 6 months younger age per 1 point higher CVH score, p < 0.0001), and lower intrinsic EAA (3 months younger age per 1 point higher CVH score, p < 0.028).ConclusionsThese cross-sectional observations suggest a possible mechanism by which ideal CVH is associated with greater longevity.

Published

2021

4. Association of cardiovascular health and epigenetic age acceleration.

Author

Pottinger, Tess D, Pottinger, Tess D, Khan, Sadiya S, Zheng, Yinan, Zhang, Wei, Tindle, Hilary A, Allison, Matthew, Wells, Gretchen, Shadyab, Aladdin H, Nassir, Rami, Martin, Lisa Warsinger, Manson, JoAnn E, Lloyd-Jones, Donald M, Greenland, Philip, Baccarelli, Andrea A, Whitsel, Eric A, Hou, Lifang, Pottinger, Tess D, Pottinger, Tess D, Khan, Sadiya S, Zheng, Yinan, Zhang, Wei, Tindle, Hilary A, Allison, Matthew, Wells, Gretchen, Shadyab, Aladdin H, Nassir, Rami, Martin, Lisa Warsinger, Manson, JoAnn E, Lloyd-Jones, Donald M, Greenland, Philip, Baccarelli, Andrea A, Whitsel, Eric A, and Hou, Lifang

Abstract

BackgroundCardiovascular health (CVH) has been defined by the American Heart Association (AHA) as the presence of the "Life's Simple 7" ideal lifestyle and clinical factors. CVH is known to predict longevity and freedom from cardiovascular disease, the leading cause of death for women in the United States. DNA methylation markers of aging have been aggregated into a composite epigenetic age score, which is associated with cardiovascular morbidity and mortality. However, it is unknown whether poor CVH is associated with acceleration of aging as measured by DNA methylation markers in epigenetic age.Methods and resultsWe performed a cross-sectional analysis of racially/ethnically diverse post-menopausal women enrolled in the Women's Health Initiative cohort recruited between 1993 and 1998. Epigenetic age acceleration (EAA) was calculated using DNA methylation data on a subset of participants and the published Horvath and Hannum methods for intrinsic and extrinsic EAA. CVH was calculated using the AHA measures of CVH contributing to a 7-point score. We examined the association between CVH score and EAA using linear regression modeling adjusting for self-reported race/ethnicity and education. Among the 2,170 participants analyzed, 50% were white and mean age was 64 (7 SD) years. Higher or more favorable CVH scores were associated with lower extrinsic EAA (~ 6 months younger age per 1 point higher CVH score, p < 0.0001), and lower intrinsic EAA (3 months younger age per 1 point higher CVH score, p < 0.028).ConclusionsThese cross-sectional observations suggest a possible mechanism by which ideal CVH is associated with greater longevity.

Published

2021

5. The early-life exposome and epigenetic age acceleration in children

Author

Universidade de Santiago de Compostela. Departamento de Ciencias Forenses, Anatomía Patolóxica, Xinecoloxía e Obstetricia, e Pediatría, Prado Bert, Paula de, Ruiz-Arenas, Carlos, Vives-Usano, Marta, Andrusaityte, Sandra, Cadiou, Solène, Carracedo Álvarez, Ángel María, Casas, Maribel, Chatzi, Leda, Dadvand, Payam, González Ruiz, Juan Ramon, Grazuleviciene, Regina, Gutzkow, Kristine Bjerve, Haug, Line Småstuen, Hernandez Ferrer, Carles, Keun, Hector C., Lepeule, Johanna, Maitre, Léa, McEachan, Rosemary, Nieuwenhuijsen, Mark J., Pelegrí, Dolors, Robinson, Oliver, Slama, Rémy, Vafeiadi, Marina, Sunyer, Jordi, Vrijheid, Martine, Bustamante, Mariona, Universidade de Santiago de Compostela. Departamento de Ciencias Forenses, Anatomía Patolóxica, Xinecoloxía e Obstetricia, e Pediatría, Prado Bert, Paula de, Ruiz-Arenas, Carlos, Vives-Usano, Marta, Andrusaityte, Sandra, Cadiou, Solène, Carracedo Álvarez, Ángel María, Casas, Maribel, Chatzi, Leda, Dadvand, Payam, González Ruiz, Juan Ramon, Grazuleviciene, Regina, Gutzkow, Kristine Bjerve, Haug, Line Småstuen, Hernandez Ferrer, Carles, Keun, Hector C., Lepeule, Johanna, Maitre, Léa, McEachan, Rosemary, Nieuwenhuijsen, Mark J., Pelegrí, Dolors, Robinson, Oliver, Slama, Rémy, Vafeiadi, Marina, Sunyer, Jordi, Vrijheid, Martine, and Bustamante, Mariona

Abstract

The early-life exposome influences future health and accelerated biological aging has been proposed as one of the underlying biological mechanisms. We investigated the association between more than 100 exposures assessed during pregnancy and in childhood (including indoor and outdoor air pollutants, built environment, green environments, tobacco smoking, lifestyle exposures, and biomarkers of chemical pollutants), and epigenetic age acceleration in 1,173 children aged 7 years old from the Human Early-Life Exposome project. Age acceleration was calculated based on Horvath’s Skin and Blood clock using child blood DNA methylation measured by Infinium HumanMethylation450 BeadChips. We performed an exposure-wide association study between prenatal and childhood exposome and age acceleration. Maternal tobacco smoking during pregnancy was nominally associated with increased age acceleration. For childhood exposures, indoor particulate matter absorbance (PMabs) and parental smoking were nominally associated with an increase in age acceleration. Exposure to the organic pesticide dimethyl dithiophosphate and the persistent pollutant polychlorinated biphenyl-138 (inversely associated with child body mass index) were protective for age acceleration. None of the associations remained significant after multiple-testing correction. Pregnancy and childhood exposure to tobacco smoke and childhood exposure to indoor PMabs may accelerate epigenetic aging from an early age

Published

2021

6. Epigenetic age acceleration in adolescence associates with BMI, inflammation, and risk score for middle age cardiovascular disease

Author

Huang, Rae-Chi, Lillycrop, Karen A, Beilin, Lawrence J, Godfrey, Keith M, Anderson, Denise, Mori, Trevor A, Rauschert, Sebastian, Craig, Jeffrey M, Oddy, Wendy H, Ayonrinde, Oyekoya T, Pennell, Craig E, Holbrook, Joanna D, Melton, Phillip E, Huang, Rae-Chi, Lillycrop, Karen A, Beilin, Lawrence J, Godfrey, Keith M, Anderson, Denise, Mori, Trevor A, Rauschert, Sebastian, Craig, Jeffrey M, Oddy, Wendy H, Ayonrinde, Oyekoya T, Pennell, Craig E, Holbrook, Joanna D, and Melton, Phillip E

Abstract

Accelerated aging, assessed by adult DNA methylation, predicts cardiovascular disease (CVD). Adolescent accelerated aging might predict CVD earlier. We investigated whether epigenetic age acceleration (assessed age, 17 years) was associated with adiposity/CVD risk measured (ages 17, 20, and 22 years) and projected CVD by middle age. Design: DNA methylation measured in peripheral blood provided two estimates of epigenetic age acceleration: intrinsic (IEAA; preserved across cell types) and extrinsic (EEAA; dependent on cell admixture and methylation levels within each cell type). Adiposity was assessed by anthropometry, ultrasound, and dual-energy x-ray absorptiometry (ages 17, 20, and 22 years). CVD risk factors [lipids, homeostatic model assessment of insulin resistance (HOMA-IR), blood pressure, inflammatory markers] were assessed at age 17 years. CVD development by age 47 years was calculated by Framingham algorithms. Results are presented as regression coefficients per 5-year epigenetic age acceleration (IEAA/EEAA) for adiposity, CVD risk factors, and CVD development.

Published

2019