Transforming growth factor-β receptor-3 is associated with pulmonary emphysema

Craig P. Hersh; Nadia N. Hansel; Kathleen C. Barnes; David A. Lomas; Sreekumar G. Pillai; Harvey O. Coxson; Rasika A. Mathias; Nicholas M. Rafaels; Robert A. Wise; John E. Connett; Barbara J. Klanderman; Francine L. Jacobson; Ritu Gill; Augusto A. Litonjua; David Sparrow; John J. Reilly; Edwin K. Silverman; Alvar Agusti; Peter M.A. Calverley; Claudio F. Donner; Robert D. Levy; Barry J. Make; Peter D. Paré; Stephen I. Rennard; Jørgen Vestbo; Emiel F.M. Wouters

doi:10.1165/rcmb.2008-0427OC

Transforming growth factor-β receptor-3 is associated with pulmonary emphysema

Craig P. Hersh, Nadia N. Hansel, Kathleen C. Barnes, David A. Lomas, Sreekumar G. Pillai, Harvey O. Coxson, Rasika A. Mathias, Nicholas M. Rafaels, Robert A. Wise, John E. Connett, Barbara J. Klanderman, Francine L. Jacobson, Ritu Gill, Augusto A. Litonjua, David Sparrow, John J. Reilly, Edwin K. Silverman, Alvar Agusti, Peter M.A. Calverley, Claudio F. DonnerRobert D. Levy, Barry J. Make, Peter D. Paré, Stephen I. Rennard, Jørgen Vestbo, Emiel F.M. Wouters

School of Medicine

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

32 Scopus citations

Abstract

Chronic obstructive pulmonary disease (COPD) is a heterogeneous syndrome, including emphysema and airway disease. Phenotypes defined on the basis of chest computed tomography (CT) may decrease disease heterogeneity and aid in the identification of candidate genes for COPD subtypes. To identify these genes, we performed genome-wide linkage analysis in extended pedigrees from the Boston Early-Onset COPD Study, stratified by emphysema status (defined by chest CT scans) of the probands, followed by genetic association analysis of positional candidate genes. A region on chromosome 1p showed strong evidence of linkage to lung function traits in families of emphysema-predominant probands in the stratified analysis (LOD score = 2.99 in families of emphysema-predominant probands versus 1.98 in all families). Association analysis in 949 individuals from 127 early-onset COPD pedigrees revealed association for COPD-related traits with an intronic single-nucleotide polymorphism (SNP) in transforming growth factor-β receptor-3 (TGFBR3) (P = 0.005). This SNP was significantly associated with COPD affection status comparing 389 cases from the National Emphysema Treatment Trial to 472 control smokers (P = 0.04), and with FEV ₁ (P = 0.004) and CT emphysema (P = 0.05) in 3,117 subjects from the International COPD Genetics Network. Gene-level replication of association with lung function was seen in 427 patients with COPD from the Lung Health Study. In conclusion, stratified linkage analysis followed by association testing identified TGFBR3 (betaglycan) as a potential susceptibility gene for COPD. Published human microarray and murine linkage studies have also demonstrated the importance of TGFBR3 in emphysema and lung function, and our group and others have previously found association of COPD-related traits with TGFB1, a ligand for TGFBR3.

Original language	English (US)
Pages (from-to)	324-331
Number of pages	8
Journal	American journal of respiratory cell and molecular biology
Volume	41
Issue number	3
DOIs	https://doi.org/10.1165/rcmb.2008-0427OC
State	Published - Sep 1 2009

Keywords

Betaglycan
Chronic obstructive pulmonary disease
Computed tomography
Linkage
Single nucleotide polymorphism

ASJC Scopus subject areas

Molecular Biology
Pulmonary and Respiratory Medicine
Clinical Biochemistry
Cell Biology

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Hersh, C. P., Hansel, N. N., Barnes, K. C., Lomas, D. A., Pillai, S. G., Coxson, H. O., Mathias, R. A., Rafaels, N. M., Wise, R. A., Connett, J. E., Klanderman, B. J., Jacobson, F. L., Gill, R., Litonjua, A. A., Sparrow, D., Reilly, J. J., Silverman, E. K., Agusti, A., Calverley, P. M. A., ... Wouters, E. F. M. (2009). Transforming growth factor-β receptor-3 is associated with pulmonary emphysema. American journal of respiratory cell and molecular biology, 41(3), 324-331. https://doi.org/10.1165/rcmb.2008-0427OC

Hersh, CP, Hansel, NN, Barnes, KC, Lomas, DA, Pillai, SG, Coxson, HO, Mathias, RA, Rafaels, NM, Wise, RA, Connett, JE, Klanderman, BJ, Jacobson, FL, Gill, R, Litonjua, AA, Sparrow, D, Reilly, JJ, Silverman, EK, Agusti, A, Calverley, PMA, Donner, CF, Levy, RD, Make, BJ, Paré, PD, Rennard, SI, Vestbo, J & Wouters, EFM 2009, 'Transforming growth factor-β receptor-3 is associated with pulmonary emphysema', American journal of respiratory cell and molecular biology, vol. 41, no. 3, pp. 324-331. https://doi.org/10.1165/rcmb.2008-0427OC

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title = "Transforming growth factor-β receptor-3 is associated with pulmonary emphysema",

abstract = "Chronic obstructive pulmonary disease (COPD) is a heterogeneous syndrome, including emphysema and airway disease. Phenotypes defined on the basis of chest computed tomography (CT) may decrease disease heterogeneity and aid in the identification of candidate genes for COPD subtypes. To identify these genes, we performed genome-wide linkage analysis in extended pedigrees from the Boston Early-Onset COPD Study, stratified by emphysema status (defined by chest CT scans) of the probands, followed by genetic association analysis of positional candidate genes. A region on chromosome 1p showed strong evidence of linkage to lung function traits in families of emphysema-predominant probands in the stratified analysis (LOD score = 2.99 in families of emphysema-predominant probands versus 1.98 in all families). Association analysis in 949 individuals from 127 early-onset COPD pedigrees revealed association for COPD-related traits with an intronic single-nucleotide polymorphism (SNP) in transforming growth factor-β receptor-3 (TGFBR3) (P = 0.005). This SNP was significantly associated with COPD affection status comparing 389 cases from the National Emphysema Treatment Trial to 472 control smokers (P = 0.04), and with FEV 1 (P = 0.004) and CT emphysema (P = 0.05) in 3,117 subjects from the International COPD Genetics Network. Gene-level replication of association with lung function was seen in 427 patients with COPD from the Lung Health Study. In conclusion, stratified linkage analysis followed by association testing identified TGFBR3 (betaglycan) as a potential susceptibility gene for COPD. Published human microarray and murine linkage studies have also demonstrated the importance of TGFBR3 in emphysema and lung function, and our group and others have previously found association of COPD-related traits with TGFB1, a ligand for TGFBR3.",

keywords = "Betaglycan, Chronic obstructive pulmonary disease, Computed tomography, Linkage, Single nucleotide polymorphism",

author = "Hersh, {Craig P.} and Hansel, {Nadia N.} and Barnes, {Kathleen C.} and Lomas, {David A.} and Pillai, {Sreekumar G.} and Coxson, {Harvey O.} and Mathias, {Rasika A.} and Rafaels, {Nicholas M.} and Wise, {Robert A.} and Connett, {John E.} and Klanderman, {Barbara J.} and Jacobson, {Francine L.} and Ritu Gill and Litonjua, {Augusto A.} and David Sparrow and Reilly, {John J.} and Silverman, {Edwin K.} and Alvar Agusti and Calverley, {Peter M.A.} and Donner, {Claudio F.} and Levy, {Robert D.} and Make, {Barry J.} and Par{\'e}, {Peter D.} and Rennard, {Stephen I.} and J{\o}rgen Vestbo and Wouters, {Emiel F.M.}",

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AU - Hersh, Craig P.

AU - Hansel, Nadia N.

AU - Barnes, Kathleen C.

AU - Lomas, David A.

AU - Pillai, Sreekumar G.

AU - Coxson, Harvey O.

AU - Mathias, Rasika A.

AU - Rafaels, Nicholas M.

AU - Wise, Robert A.

AU - Connett, John E.

AU - Klanderman, Barbara J.

AU - Jacobson, Francine L.

AU - Gill, Ritu

AU - Litonjua, Augusto A.

AU - Sparrow, David

AU - Reilly, John J.

AU - Silverman, Edwin K.

AU - Agusti, Alvar

AU - Calverley, Peter M.A.

AU - Donner, Claudio F.

AU - Levy, Robert D.

AU - Make, Barry J.

AU - Paré, Peter D.

AU - Rennard, Stephen I.

AU - Vestbo, Jørgen

AU - Wouters, Emiel F.M.

PY - 2009/9/1

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N2 - Chronic obstructive pulmonary disease (COPD) is a heterogeneous syndrome, including emphysema and airway disease. Phenotypes defined on the basis of chest computed tomography (CT) may decrease disease heterogeneity and aid in the identification of candidate genes for COPD subtypes. To identify these genes, we performed genome-wide linkage analysis in extended pedigrees from the Boston Early-Onset COPD Study, stratified by emphysema status (defined by chest CT scans) of the probands, followed by genetic association analysis of positional candidate genes. A region on chromosome 1p showed strong evidence of linkage to lung function traits in families of emphysema-predominant probands in the stratified analysis (LOD score = 2.99 in families of emphysema-predominant probands versus 1.98 in all families). Association analysis in 949 individuals from 127 early-onset COPD pedigrees revealed association for COPD-related traits with an intronic single-nucleotide polymorphism (SNP) in transforming growth factor-β receptor-3 (TGFBR3) (P = 0.005). This SNP was significantly associated with COPD affection status comparing 389 cases from the National Emphysema Treatment Trial to 472 control smokers (P = 0.04), and with FEV 1 (P = 0.004) and CT emphysema (P = 0.05) in 3,117 subjects from the International COPD Genetics Network. Gene-level replication of association with lung function was seen in 427 patients with COPD from the Lung Health Study. In conclusion, stratified linkage analysis followed by association testing identified TGFBR3 (betaglycan) as a potential susceptibility gene for COPD. Published human microarray and murine linkage studies have also demonstrated the importance of TGFBR3 in emphysema and lung function, and our group and others have previously found association of COPD-related traits with TGFB1, a ligand for TGFBR3.

AB - Chronic obstructive pulmonary disease (COPD) is a heterogeneous syndrome, including emphysema and airway disease. Phenotypes defined on the basis of chest computed tomography (CT) may decrease disease heterogeneity and aid in the identification of candidate genes for COPD subtypes. To identify these genes, we performed genome-wide linkage analysis in extended pedigrees from the Boston Early-Onset COPD Study, stratified by emphysema status (defined by chest CT scans) of the probands, followed by genetic association analysis of positional candidate genes. A region on chromosome 1p showed strong evidence of linkage to lung function traits in families of emphysema-predominant probands in the stratified analysis (LOD score = 2.99 in families of emphysema-predominant probands versus 1.98 in all families). Association analysis in 949 individuals from 127 early-onset COPD pedigrees revealed association for COPD-related traits with an intronic single-nucleotide polymorphism (SNP) in transforming growth factor-β receptor-3 (TGFBR3) (P = 0.005). This SNP was significantly associated with COPD affection status comparing 389 cases from the National Emphysema Treatment Trial to 472 control smokers (P = 0.04), and with FEV 1 (P = 0.004) and CT emphysema (P = 0.05) in 3,117 subjects from the International COPD Genetics Network. Gene-level replication of association with lung function was seen in 427 patients with COPD from the Lung Health Study. In conclusion, stratified linkage analysis followed by association testing identified TGFBR3 (betaglycan) as a potential susceptibility gene for COPD. Published human microarray and murine linkage studies have also demonstrated the importance of TGFBR3 in emphysema and lung function, and our group and others have previously found association of COPD-related traits with TGFB1, a ligand for TGFBR3.

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Transforming growth factor-β receptor-3 is associated with pulmonary emphysema

Abstract

Keywords

ASJC Scopus subject areas

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