David M Krzywanski1, Douglas R Moellering1, David G Westbrook1, Kimberly J Dunham-Snary1, Jamelle Brown1, Alexander W Bray1, Kyle P Feeley1, Melissa J Sammy1, Matthew R Smith1, Theodore G Schurr1, Joseph A Vita1, Namasivayam Ambalavanan1, David Calhoun1, Louis Dell'Italia1, Scott W Ballinger2. 1. From the Department of Cellular Biology and Anatomy, Louisiana State University Health Sciences Center, Shreveport (D.M.K.); Department of Nutrition Sciences (D.R.M.), Center for Free Radical Biology and Medicine (D.R.M., D.G.W., K.J.D.-S., J.B., A.W.B., K.P.F., M.J.S., M.R.S., L.D., S.W.B.), Division of Molecular and Cellular Pathology, Department of Pathology (D.G.W., J.B., A.W.B., K.P.F., M.J.S., M.R.S., S.W.B.), Department of Pediatrics (N.A.), Department of Medicine (D.C., L.D.), University of Alabama at Birmingham; Department of Medicine, Queen's University, Kingston, Ontario, Canada (K.J.D.-S.); Department of Anthropology, University of Pennsylvania, Philadelphia (T.G.S.); and Evans Department of Medicine and Whitaker Cardiovascular Institute, Boston University School of Medicine, MA (J.A.V.). 2. From the Department of Cellular Biology and Anatomy, Louisiana State University Health Sciences Center, Shreveport (D.M.K.); Department of Nutrition Sciences (D.R.M.), Center for Free Radical Biology and Medicine (D.R.M., D.G.W., K.J.D.-S., J.B., A.W.B., K.P.F., M.J.S., M.R.S., L.D., S.W.B.), Division of Molecular and Cellular Pathology, Department of Pathology (D.G.W., J.B., A.W.B., K.P.F., M.J.S., M.R.S., S.W.B.), Department of Pediatrics (N.A.), Department of Medicine (D.C., L.D.), University of Alabama at Birmingham; Department of Medicine, Queen's University, Kingston, Ontario, Canada (K.J.D.-S.); Department of Anthropology, University of Pennsylvania, Philadelphia (T.G.S.); and Evans Department of Medicine and Whitaker Cardiovascular Institute, Boston University School of Medicine, MA (J.A.V.). sballing@uab.edu.
Abstract
BACKGROUND: We hypothesized that endothelial cells having distinct mitochondrial genetic backgrounds would show variation in mitochondrial function and oxidative stress markers concordant with known differential cardiovascular disease susceptibilities. To test this hypothesis, mitochondrial bioenergetics were determined in endothelial cells from healthy individuals with African versus European maternal ancestries. METHODS AND RESULTS: Bioenergetics and mitochondrial DNA (mtDNA) damage were assessed in single-donor human umbilical vein endothelial cells belonging to mtDNA haplogroups H and L, representing West Eurasian and African maternal ancestries, respectively. Human umbilical vein endothelial cells from haplogroup L used less oxygen for ATP production and had increased levels of mtDNA damage compared with those in haplogroup H. Differences in bioenergetic capacity were also observed in that human umbilical vein endothelial cells belonging to haplogroup L had decreased maximal bioenergetic capacities compared with haplogroup H. Analysis of peripheral blood mononuclear cells from age-matched healthy controls with West Eurasian or African maternal ancestries showed that haplogroups sharing an A to G mtDNA mutation at nucleotide pair 10398 had increased mtDNA damage compared with those lacking this mutation. Further study of angiographically proven patients with coronary artery disease and age-matched healthy controls revealed that mtDNA damage was associated with vascular function and remodeling and that age of disease onset was later in individuals from haplogroups lacking the A to G mutation at nucleotide pair 10398. CONCLUSIONS: Differences in mitochondrial bioenergetics and mtDNA damage associated with maternal ancestry may contribute to endothelial dysfunction and vascular disease.
BACKGROUND: We hypothesized that endothelial cells having distinct mitochondrial genetic backgrounds would show variation in mitochondrial function and oxidative stress markers concordant with known differential cardiovascular disease susceptibilities. To test this hypothesis, mitochondrial bioenergetics were determined in endothelial cells from healthy individuals with African versus European maternal ancestries. METHODS AND RESULTS: Bioenergetics and mitochondrial DNA (mtDNA) damage were assessed in single-donorhuman umbilical vein endothelial cells belonging to mtDNA haplogroups H and L, representing West Eurasian and African maternal ancestries, respectively. Human umbilical vein endothelial cells from haplogroup L used less oxygen for ATP production and had increased levels of mtDNA damage compared with those in haplogroup H. Differences in bioenergetic capacity were also observed in that human umbilical vein endothelial cells belonging to haplogroup L had decreased maximal bioenergetic capacities compared with haplogroup H. Analysis of peripheral blood mononuclear cells from age-matched healthy controls with West Eurasian or African maternal ancestries showed that haplogroups sharing an A to G mtDNA mutation at nucleotide pair 10398 had increased mtDNA damage compared with those lacking this mutation. Further study of angiographically proven patients with coronary artery disease and age-matched healthy controls revealed that mtDNA damage was associated with vascular function and remodeling and that age of disease onset was later in individuals from haplogroups lacking the A to G mutation at nucleotide pair 10398. CONCLUSIONS: Differences in mitochondrial bioenergetics and mtDNA damage associated with maternal ancestry may contribute to endothelial dysfunction and vascular disease.
Authors: Sue Y S Kimm; Nancy W Glynn; Christopher E Aston; Coleen M Damcott; Eric T Poehlman; Stephen R Daniels; Robert E Ferrell Journal: Am J Clin Nutr Date: 2002-04 Impact factor: 7.045
Authors: Mary Katherine Gonder; Holly M Mortensen; Floyd A Reed; Alexandra de Sousa; Sarah A Tishkoff Journal: Mol Biol Evol Date: 2006-12-28 Impact factor: 16.240
Authors: Sabrina L Mitchell; Robert Goodloe; Kristin Brown-Gentry; Sarah A Pendergrass; Deborah G Murdock; Dana C Crawford Journal: Hum Genet Date: 2014-02-01 Impact factor: 4.132
Authors: Scott W Ballinger; Cam Patterson; Cynthia A Knight-Lozano; David L Burow; Caryl A Conklin; Zhaoyong Hu; Johannes Reuf; Chris Horaist; Russell Lebovitz; Glenn C Hunter; Ken McIntyre; Marschall S Runge Journal: Circulation Date: 2002-07-30 Impact factor: 29.690
Authors: Toomas Kivisild; Peidong Shen; Dennis P Wall; Bao Do; Raphael Sung; Karen Davis; Giuseppe Passarino; Peter A Underhill; Curt Scharfe; Antonio Torroni; Rosaria Scozzari; David Modiano; Alfredo Coppa; Peter de Knijff; Marcus Feldman; Luca L Cavalli-Sforza; Peter J Oefner Journal: Genetics Date: 2005-09-19 Impact factor: 4.562
Authors: Jegen Kandasamy; Nelida Olave; Scott W Ballinger; Namasivayam Ambalavanan Journal: Am J Respir Crit Care Med Date: 2017-10-15 Impact factor: 21.405
Authors: Kelly J Brunst; Marco Sanchez Guerra; Chris Gennings; Michele Hacker; Calvin Jara; Michelle Bosquet Enlow; Robert O Wright; Andrea Baccarelli; Rosalind J Wright Journal: Am J Epidemiol Date: 2017-12-01 Impact factor: 4.897
Authors: Allen M Andres; Kyle C Tucker; Amandine Thomas; David Jr Taylor; David Sengstock; Salik M Jahania; Reza Dabir; Somayeh Pourpirali; Jamelle A Brown; David G Westbrook; Scott W Ballinger; Robert M Mentzer; Roberta A Gottlieb Journal: JCI Insight Date: 2017-02-23
Authors: Jessica L Fetterman; Chunyu Liu; Gary F Mitchell; Ramachandran S Vasan; Emelia J Benjamin; Joseph A Vita; Naomi M Hamburg; Daniel Levy Journal: Mitochondrion Date: 2017-10-07 Impact factor: 4.160