Abstract
Background: African ancestry is associated with a higher prevalence and greater severity of asthma than European ancestries, yet genetic studies of the most common locus associated with childhood-onset asthma, 17q12–21, in African Americans have been inconclusive. The aim of this study was to leverage both the phenotyping of the Children's Respiratory and Environmental Workgroup (CREW) birth cohort consortium, and the reduced linkage disequilibrium in African Americans, to fine map the 17q12–21 locus. Methods: We first did a genetic association study and meta-analysis using 17q12–21 tag single-nucleotide polymorphisms (SNPs) for childhood-onset asthma in 1613 European American and 870 African American children from the CREW consortium. Nine tag SNPs were selected based on linkage disequilibrium patterns at 17q12–21 and their association with asthma, considering the effect allele under an additive model (0, 1, or 2 effect alleles). Results were meta-analysed with publicly available summary data from the EVE consortium (on 4303 European American and 3034 African American individuals) for seven of the nine SNPs of interest. Subsequently, we tested for expression quantitative trait loci (eQTLs) among the SNPs associated with childhood-onset asthma and the expression of 17q12–21 genes in resting peripheral blood mononuclear cells (PBMCs) from 85 African American CREW children and in upper airway epithelial cells from 246 African American CREW children; and in lower airway epithelial cells from 44 European American and 72 African American adults from a case-control study of asthma genetic risk in Chicago (IL, USA). Findings: 17q12–21 SNPs were broadly associated with asthma in European Americans. Only two SNPs (rs2305480 in gasdermin-B [GSDMB] and rs8076131 in ORMDL sphingolipid biosynthesis regulator 3 [ORMDL3]) were associated with asthma in African Americans, at a Bonferroni-corrected threshold of p<0·0055 (for rs2305480_G, odds ratio [OR] 1·36 [95% CI 1·12–1·65], p=0·0014; and for rs8076131_A, OR 1·37 [1·13–1·67], p=0·0010). In upper airway epithelial cells from African American children, genotype at rs2305480 was the most significant eQTL for GSDMB (eQTL effect size [β] 1·35 [95% CI 1·25–1·46], p<0·0001), and to a lesser extent showed an eQTL effect for post-GPI attachment to proteins phospholipase 3 (β 1·15 [1·08–1·22], p<0·0001). No SNPs were eQTLs for ORMDL3. By contrast, in PBMCs, the five core SNPs were associated only with expression of GSDMB and ORMDL3. Genotype at rs12936231 (in zona pellucida binding protein 2) showed the strongest associations across both genes (for GSDMB, eQTLβ 1·24 [1·15–1·32], p<0·0001; and for ORMDL3 (β 1·19 [1·12–1·24], p<0·0001). The eQTL effects of rs2305480 on GSDMB expression were replicated in lower airway cells from African American adults (β 1·29 [1·15–1·44], p<0·0001). Interpretation: Our study suggests that SNPs regulating GSDMB expression in airway epithelial cells have a major role in childhood-onset asthma, whereas SNPs regulating the expression levels of 17q12–21 genes in resting blood cells are not central to asthma risk. Our genetic and gene expression data in African Americans and European Americans indicated GSDMB to be the leading candidate gene at this important asthma locus. Funding: National Institutes of Health, Office of the Director.
Original language | English (US) |
---|---|
Pages (from-to) | 482-492 |
Number of pages | 11 |
Journal | The Lancet Respiratory Medicine |
Volume | 8 |
Issue number | 5 |
DOIs | |
State | Published - May 2020 |
ASJC Scopus subject areas
- Pulmonary and Respiratory Medicine
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In: The Lancet Respiratory Medicine, Vol. 8, No. 5, 05.2020, p. 482-492.
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TY - JOUR
T1 - Expression quantitative trait locus fine mapping of the 17q12–21 asthma locus in African American children
T2 - a genetic association and gene expression study
AU - Ober, Carole
AU - McKennan, Chris G.
AU - Magnaye, Kevin M.
AU - Altman, Matthew C.
AU - Washington, Charles
AU - Stanhope, Catherine
AU - Naughton, Katherine A.
AU - Rosasco, Mario G.
AU - Bacharier, Leonard B.
AU - Billheimer, Dean
AU - Gold, Diane R.
AU - Gress, Lisa
AU - Hartert, Tina
AU - Havstad, Suzanne
AU - Khurana Hershey, Gurjit K.
AU - Hallmark, Brian
AU - Hogarth, D. Kyle
AU - Jackson, Daniel J.
AU - Johnson, Christine C.
AU - Kattan, Meyer
AU - Lemanske, Robert F.
AU - Lynch, Susan V.
AU - Mendonca, Eneida A.
AU - Miller, Rachel L.
AU - Naureckas, Edward T.
AU - O'Connor, George T.
AU - Seroogy, Christine M.
AU - Wegienka, Ganesa
AU - White, Steven R.
AU - Wood, Robert A.
AU - Wright, Anne L.
AU - Zoratti, Edward M.
AU - Martinez, Fernando D.
AU - Ownby, Dennis
AU - Nicolae, Dan L.
AU - Levin, Albert M.
AU - Gern, James E.
AU - Achten, Niek
AU - Ainsworth, John
AU - Akkerman, Nonna
AU - Anderson, Elizabeth
AU - Anderson, Larry J.
AU - Andrews, Howard
AU - Armagost, Elizabeth
AU - Aubuchon, Mary Ann
AU - Bach, Julia
AU - Barnes, Kathrine L.
AU - Barone, Charles
AU - Bauer, Irma
AU - Beamer, Paloma
AU - Becker, Patrice
AU - Bednarek, Alyssa
AU - Bellemore, Stacey
AU - Bendixsen, Casper G.
AU - Biagini Myers, Jocelyn M.
AU - Billstrand, Christine
AU - Birg, Geraldine
AU - Blocki, Shirley
AU - Bloomberg, Gordon
AU - Bobbitt, Kevin
AU - Bochkov, Yury
AU - Bourgeois, Karen
AU - Boushey, Homer
AU - Brockman-Schneider, Rebecca
AU - Brunwasser, Steven M.
AU - Budrevich, Richard
AU - Burkle, Jeffrey W.
AU - Busse, William
AU - Calatroni, Agustin
AU - Campbell, Janice
AU - Carlson-Dakes, Kirsten
AU - Cassidy-Bushrow, Andrea
AU - Chappell, James D.
AU - Chasman, Deborah
AU - Chipps, Teresa M.
AU - Chirkova, Tatiana
AU - Cole, Deanna
AU - Connolly, Alexandra
AU - Cootauco, Michelle
AU - Cootauco, Michelle
AU - Costello, Kaitlin
AU - Couch, Philip
AU - Coull, Brent
AU - Craven, Mark
AU - Crisafi, Gina
AU - Cruikshank, William
AU - Curtsinger, Kristi
AU - Custovic, Adnan
AU - Das, Suman R.
AU - DaSilva, Douglas
AU - Datta, Soma
AU - Davidson, Brent
AU - De La Ossa, Lydia
AU - DeVries, Mark
AU - Di, Qian
AU - Dixon, Samara
AU - Donnerbauer, Erin
AU - Dorst, Marian
AU - Doyle, Susan
AU - Dresen, Amy
AU - Dupont, William D.
AU - Durrange, Janet
AU - Erickson, Heidi
AU - Evans, Michael D.
AU - Ezell, Jerel
AU - Farnham, Leanna
AU - Filardo-Collins, Roxanne
AU - Finazzo, Salvatore
AU - Flege, Zachary
AU - Fleurat, Conner
AU - Floerke, Heather
AU - Floerke, Dorothy
AU - Foss, Terry
AU - Freie, Angela
AU - Frome, Wayne
AU - Fye, Samantha
AU - Gagalis, Lisa
AU - Gammell, Rebecca
AU - Gangnon, Ronald E.
AU - Ge, James E.
AU - Gebretsadik, Tebeb
AU - Gergen, Peter
AU - Gern, James E.
AU - Gibson, Heike
AU - Gjerasi, Edlira
AU - Gold, Diane R.
AU - Gonzalez, Nicole
AU - Goodman, Kayla
AU - Grindle, Kristine
AU - Groeschen, Taylor
AU - Halonen, Marilyn
AU - Hart, Jaime
AU - Hartert, Tina V.
AU - Heinritz, Patrick
AU - Hensley Alford, Sharon
AU - Herbstman, Julie
AU - Hernandez, Kellie
AU - Hoepner, Lori
AU - Jackson, Daniel J.
AU - Jadhao, Samadhan J.
AU - Jaffee, Katy
AU - James, Peter
AU - Jezioro, Jacqueline
AU - Jimenez Pescador, Marcia
AU - Johnson, Christine C.
AU - Johnson, Tara
AU - Johnson, Camille
AU - Jones, Amelia
AU - Jones, Kyra
AU - Jones, Paul
AU - Jordan, Carolina
AU - Joseph, Christine LM
AU - Keidel, Kristina
AU - Keifer, Matthew C.
AU - Kelley, Rick
AU - Khurana Hershey, Gurgit K.
AU - Kim, Haejin
AU - Kloog, Itai
AU - Koepel, Tammy Kronenwetter
AU - Koerkenmeier, Clint
AU - Ladick, Laura
AU - Lamm, Carin
AU - Larkin, Emma
AU - Lederman, Howard
AU - Lee-Parritz, Aviva
AU - Leimenstoll, Stephanie
AU - Lemanske, Robert F.
AU - LeMasters, Grace K.
AU - Levin, Albert M.
AU - Levine, Jessica
AU - Liu, Xinhua
AU - Liu, Zhouwen
AU - Lopez, Silvia
AU - Lothrop, Nathan
AU - Lovinsky-Desir, Stephanie
AU - Lukacs, Nicholas
AU - Lynch, Susan
AU - Lynch, Christian
AU - Mann, Erik
AU - Martin, Jennifer
AU - Martin, Lisa
AU - Martinez, Fernando D.
AU - Matsui, Elizabeth
AU - McCauley, Katherine
AU - Mccollum, Megan
AU - McCullough, Judith
AU - McKennon, Chris G.
AU - Meece, Jennifer
AU - Mendonca, Eneida
AU - Mikus, Lance
AU - Miller, Rachel L.
AU - Minton, Patricia
AU - Mitchell, Herman
AU - Moon, Vicki
AU - Moore, Paul E.
AU - Morgan, Wayne
AU - Morgan, Valerie
AU - Morgan, David
AU - Murrison, Liza
AU - Nicholas, Charlotte
AU - Nicolae, Daniel
AU - Nunez, Adam
AU - O'Connor, George
AU - O'Toole, Sharon
AU - Olson, Brent F.
AU - Ong, Irene
AU - Osmundson, Sarah
AU - Pappas, Tressa
AU - Perera, Frederica
AU - Perzanowski, Matthew
AU - Peterson, Edward
AU - Pierce, Marcela
AU - Price-Johnson, Penny
AU - Rajamanickam, Victoria
AU - Ramirez, Judyth
AU - Ray, Kimberly
AU - Renneberg, Megan
AU - Requia, Weeberb
AU - Riley, Kylie
AU - Rivera, Janelle
AU - Rivers, Neisha
AU - Roberg, Kathy
AU - Rogers, Theresa
AU - Rosas-Salazar, Christian
AU - Russell, Pat
AU - Ryan, Patrick H.
AU - Sadovsky, Yoel
AU - Salazar, Lisa
AU - Sampson, Hugh
AU - Sandel, Megan
AU - Schoettler, Nathan
AU - Schwartz, Joel
AU - Scott, Dena
AU - Seroogy, Christine M.
AU - Sharp, Renee
AU - Shilts, Meghan H.
AU - Sigelman, Steve
AU - Singh, Anne Marie
AU - Sitarik, Alexandra
AU - Smartt, Ernestine
AU - Sorkness, Ronald
AU - Sorkness, Christine
AU - Spangenberg, Amber
AU - Sperling, Rhoda
AU - Spies, David
AU - Stern, Debra A.
AU - Stoffel, Brandy
AU - Peebles, R. Stokes
AU - Stouffer, Gina
AU - Strauchman Boyer, Cathey
AU - Suddeuth, Caitlin
AU - Tachinardi, Umberto
AU - Tang, Deliang
AU - Tang, Zhengzheng
AU - Tate, Jena
AU - Taylor, William
AU - Tensing, Krista
AU - Tesson, Elizabeth
AU - Thompson, Kathy
AU - Thompson, Emma
AU - Tisler, Christopher
AU - Togias, Alkis
AU - Turi, Kedir
AU - Turner, Victoria
AU - Tuzova, Marina
AU - VanWormer, Jeffrey J.
AU - Visness, Cynthia M.
AU - Vrtis, Rose
AU - Wahlman, Anthony
AU - Wang, Lena
AU - Wells, Karen
AU - Wentworth-Sheilds, William
AU - Wheatley, Lisa
AU - Whitney, Nitsa
AU - Williams, L. Keoki
AU - Witter, Frank
AU - Wolfe, Christopher
AU - Wood, Robert A.
AU - Woodcroft, Kimberley
AU - Woodward, Kim B.
AU - Wright, Anne L.
AU - Wright, Rosalind
AU - Wu, Pingsheng
AU - Yaeger, Melissa
AU - Yaniv, Perri
AU - Zanobetti, Antonella
AU - Zhang, Shirley
AU - Zook, Patricia
AU - Zoratti, Edward M.
N1 - Funding Information: This work was supported by the US National Institutes of Health (NIH), Office of the Director ( UG3 OD023282 , UL1 TR002373 , UM1 AI114271 , and U19 AI095230 ). Members of the Children's Respiratory Research Workgroup have also received NIH grant support: for the Childhood Asthma Study, R01 AI024156, R03 HL067427, and R01 AI051598; for the Cincinnati Childhood Allergy and Air Pollution Study, R01 ES11170 and R01 ES019890; for the Columbia Center for Children's Environmental Health study, P01 ES09600, R01 ES008977, P30ES09089, R01 ES013163, and EPA R827027; for the Childhood Origins of Asthma study, P01 HL070831, U10 HL064305, and R01 HL061879; for the Epidemiology of Home Allergens and Asthma Study, R01 AI035786; for the Infant Immune Study, HL56177; for the Tucson Children's Respiratory Study, R01 HL132523; for the Urban Environment and Childhood Asthma study, NO1 AI25496, NO1 AI25482, HHS N272200900052C, HHS N272201000052I, NCRR/NIH RR00052, M01 RR00533, UL1 RR025771, M01 RR00071, UL1 RR024156, UL1 TR001079, UL1 RR024992, and NCATS/NIH UL1TR000040; and for the Wayne County Health, Environment, Allergy, and Asthma Longitudinal Study, R01 AI050681, R56 AI050681, R01 AI061774, R21 AI059415, K01 AI070606, R21 AI069271, R01 HL113010, R21 ES022321, P01 AI089473, R21 AI080066, R01 AI110450, and R01 HD082147. Members of the Children's Respiratory Research Workgroup have also been supported by the Fund for Henry Ford Health System. Funding Information: This work was supported by the US National Institutes of Health (NIH), Office of the Director (UG3 OD023282, UL1 TR002373, UM1 AI114271, and U19 AI095230). Members of the Children's Respiratory Research Workgroup have also received NIH grant support: for the Childhood Asthma Study, R01 AI024156, R03 HL067427, and R01 AI051598; for the Cincinnati Childhood Allergy and Air Pollution Study, R01 ES11170 and R01 ES019890; for the Columbia Center for Children's Environmental Health study, P01 ES09600, R01 ES008977, P30ES09089, R01 ES013163, and EPA R827027; for the Childhood Origins of Asthma study, P01 HL070831, U10 HL064305, and R01 HL061879; for the Epidemiology of Home Allergens and Asthma Study, R01 AI035786; for the Infant Immune Study, HL56177; for the Tucson Children's Respiratory Study, R01 HL132523; for the Urban Environment and Childhood Asthma study, NO1 AI25496, NO1 AI25482, HHS N272200900052C, HHS N272201000052I, NCRR/NIH RR00052, M01 RR00533, UL1 RR025771, M01 RR00071, UL1 RR024156, UL1 TR001079, UL1 RR024992, and NCATS/NIH UL1TR000040; and for the Wayne County Health, Environment, Allergy, and Asthma Longitudinal Study, R01 AI050681, R56 AI050681, R01 AI061774, R21 AI059415, K01 AI070606, R21 AI069271, R01 HL113010, R21 ES022321, P01 AI089473, R21 AI080066, R01 AI110450, and R01 HD082147. Members of the Children's Respiratory Research Workgroup have also been supported by the Fund for Henry Ford Health System. Publisher Copyright: © 2020 Elsevier Ltd
PY - 2020/5
Y1 - 2020/5
N2 - Background: African ancestry is associated with a higher prevalence and greater severity of asthma than European ancestries, yet genetic studies of the most common locus associated with childhood-onset asthma, 17q12–21, in African Americans have been inconclusive. The aim of this study was to leverage both the phenotyping of the Children's Respiratory and Environmental Workgroup (CREW) birth cohort consortium, and the reduced linkage disequilibrium in African Americans, to fine map the 17q12–21 locus. Methods: We first did a genetic association study and meta-analysis using 17q12–21 tag single-nucleotide polymorphisms (SNPs) for childhood-onset asthma in 1613 European American and 870 African American children from the CREW consortium. Nine tag SNPs were selected based on linkage disequilibrium patterns at 17q12–21 and their association with asthma, considering the effect allele under an additive model (0, 1, or 2 effect alleles). Results were meta-analysed with publicly available summary data from the EVE consortium (on 4303 European American and 3034 African American individuals) for seven of the nine SNPs of interest. Subsequently, we tested for expression quantitative trait loci (eQTLs) among the SNPs associated with childhood-onset asthma and the expression of 17q12–21 genes in resting peripheral blood mononuclear cells (PBMCs) from 85 African American CREW children and in upper airway epithelial cells from 246 African American CREW children; and in lower airway epithelial cells from 44 European American and 72 African American adults from a case-control study of asthma genetic risk in Chicago (IL, USA). Findings: 17q12–21 SNPs were broadly associated with asthma in European Americans. Only two SNPs (rs2305480 in gasdermin-B [GSDMB] and rs8076131 in ORMDL sphingolipid biosynthesis regulator 3 [ORMDL3]) were associated with asthma in African Americans, at a Bonferroni-corrected threshold of p<0·0055 (for rs2305480_G, odds ratio [OR] 1·36 [95% CI 1·12–1·65], p=0·0014; and for rs8076131_A, OR 1·37 [1·13–1·67], p=0·0010). In upper airway epithelial cells from African American children, genotype at rs2305480 was the most significant eQTL for GSDMB (eQTL effect size [β] 1·35 [95% CI 1·25–1·46], p<0·0001), and to a lesser extent showed an eQTL effect for post-GPI attachment to proteins phospholipase 3 (β 1·15 [1·08–1·22], p<0·0001). No SNPs were eQTLs for ORMDL3. By contrast, in PBMCs, the five core SNPs were associated only with expression of GSDMB and ORMDL3. Genotype at rs12936231 (in zona pellucida binding protein 2) showed the strongest associations across both genes (for GSDMB, eQTLβ 1·24 [1·15–1·32], p<0·0001; and for ORMDL3 (β 1·19 [1·12–1·24], p<0·0001). The eQTL effects of rs2305480 on GSDMB expression were replicated in lower airway cells from African American adults (β 1·29 [1·15–1·44], p<0·0001). Interpretation: Our study suggests that SNPs regulating GSDMB expression in airway epithelial cells have a major role in childhood-onset asthma, whereas SNPs regulating the expression levels of 17q12–21 genes in resting blood cells are not central to asthma risk. Our genetic and gene expression data in African Americans and European Americans indicated GSDMB to be the leading candidate gene at this important asthma locus. Funding: National Institutes of Health, Office of the Director.
AB - Background: African ancestry is associated with a higher prevalence and greater severity of asthma than European ancestries, yet genetic studies of the most common locus associated with childhood-onset asthma, 17q12–21, in African Americans have been inconclusive. The aim of this study was to leverage both the phenotyping of the Children's Respiratory and Environmental Workgroup (CREW) birth cohort consortium, and the reduced linkage disequilibrium in African Americans, to fine map the 17q12–21 locus. Methods: We first did a genetic association study and meta-analysis using 17q12–21 tag single-nucleotide polymorphisms (SNPs) for childhood-onset asthma in 1613 European American and 870 African American children from the CREW consortium. Nine tag SNPs were selected based on linkage disequilibrium patterns at 17q12–21 and their association with asthma, considering the effect allele under an additive model (0, 1, or 2 effect alleles). Results were meta-analysed with publicly available summary data from the EVE consortium (on 4303 European American and 3034 African American individuals) for seven of the nine SNPs of interest. Subsequently, we tested for expression quantitative trait loci (eQTLs) among the SNPs associated with childhood-onset asthma and the expression of 17q12–21 genes in resting peripheral blood mononuclear cells (PBMCs) from 85 African American CREW children and in upper airway epithelial cells from 246 African American CREW children; and in lower airway epithelial cells from 44 European American and 72 African American adults from a case-control study of asthma genetic risk in Chicago (IL, USA). Findings: 17q12–21 SNPs were broadly associated with asthma in European Americans. Only two SNPs (rs2305480 in gasdermin-B [GSDMB] and rs8076131 in ORMDL sphingolipid biosynthesis regulator 3 [ORMDL3]) were associated with asthma in African Americans, at a Bonferroni-corrected threshold of p<0·0055 (for rs2305480_G, odds ratio [OR] 1·36 [95% CI 1·12–1·65], p=0·0014; and for rs8076131_A, OR 1·37 [1·13–1·67], p=0·0010). In upper airway epithelial cells from African American children, genotype at rs2305480 was the most significant eQTL for GSDMB (eQTL effect size [β] 1·35 [95% CI 1·25–1·46], p<0·0001), and to a lesser extent showed an eQTL effect for post-GPI attachment to proteins phospholipase 3 (β 1·15 [1·08–1·22], p<0·0001). No SNPs were eQTLs for ORMDL3. By contrast, in PBMCs, the five core SNPs were associated only with expression of GSDMB and ORMDL3. Genotype at rs12936231 (in zona pellucida binding protein 2) showed the strongest associations across both genes (for GSDMB, eQTLβ 1·24 [1·15–1·32], p<0·0001; and for ORMDL3 (β 1·19 [1·12–1·24], p<0·0001). The eQTL effects of rs2305480 on GSDMB expression were replicated in lower airway cells from African American adults (β 1·29 [1·15–1·44], p<0·0001). Interpretation: Our study suggests that SNPs regulating GSDMB expression in airway epithelial cells have a major role in childhood-onset asthma, whereas SNPs regulating the expression levels of 17q12–21 genes in resting blood cells are not central to asthma risk. Our genetic and gene expression data in African Americans and European Americans indicated GSDMB to be the leading candidate gene at this important asthma locus. Funding: National Institutes of Health, Office of the Director.
UR - http://www.scopus.com/inward/record.url?scp=85084083177&partnerID=8YFLogxK
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U2 - 10.1016/S2213-2600(20)30011-4
DO - 10.1016/S2213-2600(20)30011-4
M3 - Article
C2 - 32380068
SN - 2213-2600
VL - 8
SP - 482
EP - 492
JO - The Lancet Respiratory Medicine
JF - The Lancet Respiratory Medicine
IS - 5
ER -