Megan M Marron1, Stacy G Wendell2, Robert M Boudreau1, Clary B Clish3, Adam J Santanasto1, George C Tseng4,5, Joseph M Zmuda1,5, Anne B Newman1,6. 1. Department of Epidemiology, Graduate School of Public Health, University of Pittsburgh, Pennsylvania. 2. Departments of Pharmacology and Chemical Biology and Clinical and Translational Science, University of Pittsburgh, Pennsylvania. 3. Broad Institute of MIT and Harvard, Cambridge, Massachusetts. 4. Department of Biostatistics, Graduate School of Public Health, University of Pittsburgh, Pennsylvania. 5. Department of Human Genetics, Graduate School of Public Health, University of Pittsburgh, Pennsylvania. 6. Departments of Medicine and Clinical and Translational Science, University of Pittsburgh, Pennsylvania.
Abstract
BACKGROUND: Low walking ability is highly prevalent with advancing age and predicts major health outcomes. Metabolomics may help to better characterize differences in walking ability among older adults, providing insight into potentially altered molecular processes underlying age-related decline in functioning. We sought to identify metabolites and metabolic pathways associated with high versus low walking ability among 120 participants ages 79-95 from the CHS All Stars study. METHODS: Using a nested case-control design, 60 randomly selected participants with low walking ability were matched one-to-one on age, gender, race, and fasting time with 60 participants with high walking ability. High versus low walking ability was defined as being in the best versus worst tertiles for both gait speed (≥0.9 vs <0.7 m/s) and the Walking Ability Index (7-9 vs 0-1). Using liquid chromatography-mass spectrometry, 569 metabolites were identified in overnight-fasting plasma. RESULTS: Ninety-six metabolites were associated with walking ability, where 24% were triacylglycerols. Triacylglycerols that were higher among those with high walking ability consisted mostly of polyunsaturated fatty acids, whereas triacylglycerols that were lower among those with high walking ability consisted mostly of saturated or monounsaturated fatty acids. Body composition partly explained associations between some metabolites and walking ability. Proline and arginine metabolism was a top pathway associated with walking ability. CONCLUSION: These results may partly reflect pathways of modifiable risk factors, including excess dietary lipids and lack of physical activity, contributing to obesity and further alterations in metabolic pathways that lead to age-related decline in walking ability in this older adult cohort.
BACKGROUND: Low walking ability is highly prevalent with advancing age and predicts major health outcomes. Metabolomics may help to better characterize differences in walking ability among older adults, providing insight into potentially altered molecular processes underlying age-related decline in functioning. We sought to identify metabolites and metabolic pathways associated with high versus low walking ability among 120 participants ages 79-95 from the CHS All Stars study. METHODS: Using a nested case-control design, 60 randomly selected participants with low walking ability were matched one-to-one on age, gender, race, and fasting time with 60 participants with high walking ability. High versus low walking ability was defined as being in the best versus worst tertiles for both gait speed (≥0.9 vs <0.7 m/s) and the Walking Ability Index (7-9 vs 0-1). Using liquid chromatography-mass spectrometry, 569 metabolites were identified in overnight-fasting plasma. RESULTS: Ninety-six metabolites were associated with walking ability, where 24% were triacylglycerols. Triacylglycerols that were higher among those with high walking ability consisted mostly of polyunsaturated fatty acids, whereas triacylglycerols that were lower among those with high walking ability consisted mostly of saturated or monounsaturated fatty acids. Body composition partly explained associations between some metabolites and walking ability. Proline and arginine metabolism was a top pathway associated with walking ability. CONCLUSION: These results may partly reflect pathways of modifiable risk factors, including excess dietary lipids and lack of physical activity, contributing to obesity and further alterations in metabolic pathways that lead to age-related decline in walking ability in this older adult cohort.
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Authors: Rachel A Murphy; Steven Moore; Mary Playdon; Stephen Kritchevsky; Anne B Newman; Suzanne Satterfield; Hilsa Ayonayon; Clary Clish; Robert Gerszten; Tamara B Harris Journal: J Gerontol A Biol Sci Med Sci Date: 2019-01-01 Impact factor: 6.053
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Authors: Megan M Marron; Tamara B Harris; Robert M Boudreau; Clary B Clish; Steven C Moore; Rachel A Murphy; Venkatesh L Murthy; Jason L Sanders; Ravi V Shah; George C Tseng; Stacy G Wendell; Joseph M Zmuda; Anne B Newman Journal: Metabolites Date: 2019-04-30
Authors: Megan M Marron; Steven C Moore; Stacy G Wendell; Robert M Boudreau; Iva Miljkovic; Akira Sekikawa; Anne B Newman Journal: Geroscience Date: 2021-05-15 Impact factor: 7.581