Design and Implementation of the International Genetics and Translational Research in Transplantation Network

Brendan J. Keating; Jessica van Setten; Pamala A. Jacobson; Michael V. Holmes; Shefali S. Verma; Hareesh R. Chandrupatla; Nikhil Nair; Hui Gao; Yun R. Li; Bao-Li Chang; Chanel Wong; Randy Phillips; Brian S. Cole; Eyas Mukhtar; Weijia Zhang; Hongzhi Cao; Maede Mohebnasab; Cuiping Hou; Takesha Lee; Laura Steel; Oren Shaked; James Garifallou; Michael B. Miller; Konrad J. Karczewski; Abdullah Akdere; Ana Gonzalez; Kelsey M. Lloyd; Daniel McGinn; Zach Michaud; Abigail Colasacco; Monkol Lek; Yao Fu; Mayur Pawashe; Toumy Guettouche; Aubree Himes; Leat Perez; Weihua Guan; Baolin Wu; David Schladt; Madhav Menon; Zhongyang Zhang; Vinicius Tragante; Nicolaas de Jonge; Henny G. Otten; Roel A. de Weger; Harold Snieder; Cisca Wijmenga; Martin H. de Borst; Stephan J. L. Bakker; Folkert W. Asselbergs; Int Genetics & Translational Res T

doi:10.1097/TP.0000000000000913

Design and Implementation of the International Genetics and Translational Research in Transplantation Network

Brendan J. Keating^*, Jessica van Setten, Pamala A. Jacobson, Michael V. Holmes, Shefali S. Verma, Hareesh R. Chandrupatla, Nikhil Nair, Hui Gao, Yun R. Li, Bao-Li Chang, Chanel Wong, Randy Phillips, Brian S. Cole, Eyas Mukhtar, Weijia Zhang, Hongzhi Cao, Maede Mohebnasab, Cuiping Hou, Takesha Lee, Laura SteelOren Shaked, James Garifallou, Michael B. Miller, Konrad J. Karczewski, Abdullah Akdere, Ana Gonzalez, Kelsey M. Lloyd, Daniel McGinn, Zach Michaud, Abigail Colasacco, Monkol Lek, Yao Fu, Mayur Pawashe, Toumy Guettouche, Aubree Himes, Leat Perez, Weihua Guan, Baolin Wu, David Schladt, Madhav Menon, Zhongyang Zhang, Vinicius Tragante, Nicolaas de Jonge, Henny G. Otten, Roel A. de Weger, Harold Snieder, Cisca Wijmenga, Martin H. de Borst, Stephan J. L. Bakker, Folkert W. Asselbergs, Int Genetics & Translational Res T

^*Corresponding author for this work

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Abstract

Background. Genetic association studies of transplantation outcomes have been hampered by small samples and highly complex multifactorial phenotypes, hindering investigations of the genetic architecture of a range of comorbidities which significantly impact graft and recipient life expectancy. We describe here the rationale and design of the International Genetics & Translational Research in Transplantation Network. The network comprises 22 studies to date, including 16 494 transplant recipients and 11 669 donors, of whom more than 5000 are of non-European ancestry, all of whom have existing genomewide genotype data sets. Methods. We describe the rich genetic and phenotypic information available in this consortium comprising heart, kidney, liver, and lung transplant cohorts. Results. We demonstrate significant power in International Genetics & Translational Research in Transplantation Network to detect main effect association signals across regions such as the MHC region as well as genomewide for transplant outcomes that span all solid organs, such as graft survival, acute rejection, new onset of diabetes after transplantation, and for delayed graft function in kidney only. Conclusions. This consortium is designed and statistically powered to deliver pioneering insights into the genetic architecture of transplant-related outcomes across a range of different solid-organ transplant studies. The study design allows a spectrum of analyses to be performed including recipient-only analyses, donor-recipient HLA mismatches with focus on loss-of-function variants and nonsynonymous single nucleotide polymorphisms.

Original language	English
Pages (from-to)	2401-2412
Number of pages	12
Journal	Transplantation
Volume	99
Issue number	11
DOIs	https://doi.org/10.1097/TP.0000000000000913
Publication status	Published - Nov-2015

Keywords

GENOME-WIDE ASSOCIATION
ELECTRONIC MEDICAL-RECORDS
KIDNEY ALLOGRAFT FUNCTION
PRIMARY GRAFT DYSFUNCTION
CARDIAC TRANSPLANTATION
DONOR
POLYMORPHISM
RECIPIENTS
VARIANTS
GENOTYPE

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Keating, B. J., van Setten, J., Jacobson, P. A., Holmes, M. V., Verma, S. S., Chandrupatla, H. R., Nair, N., Gao, H., Li, Y. R., Chang, B.-L., Wong, C., Phillips, R., Cole, B. S., Mukhtar, E., Zhang, W., Cao, H., Mohebnasab, M., Hou, C., Lee, T., ... Int Genetics & Translational Res T (2015). Design and Implementation of the International Genetics and Translational Research in Transplantation Network. Transplantation, 99(11), 2401-2412. https://doi.org/10.1097/TP.0000000000000913

@article{f89dd7bc767a428e87a757b783c89360,

title = "Design and Implementation of the International Genetics and Translational Research in Transplantation Network",

abstract = "Background. Genetic association studies of transplantation outcomes have been hampered by small samples and highly complex multifactorial phenotypes, hindering investigations of the genetic architecture of a range of comorbidities which significantly impact graft and recipient life expectancy. We describe here the rationale and design of the International Genetics & Translational Research in Transplantation Network. The network comprises 22 studies to date, including 16 494 transplant recipients and 11 669 donors, of whom more than 5000 are of non-European ancestry, all of whom have existing genomewide genotype data sets. Methods. We describe the rich genetic and phenotypic information available in this consortium comprising heart, kidney, liver, and lung transplant cohorts. Results. We demonstrate significant power in International Genetics & Translational Research in Transplantation Network to detect main effect association signals across regions such as the MHC region as well as genomewide for transplant outcomes that span all solid organs, such as graft survival, acute rejection, new onset of diabetes after transplantation, and for delayed graft function in kidney only. Conclusions. This consortium is designed and statistically powered to deliver pioneering insights into the genetic architecture of transplant-related outcomes across a range of different solid-organ transplant studies. The study design allows a spectrum of analyses to be performed including recipient-only analyses, donor-recipient HLA mismatches with focus on loss-of-function variants and nonsynonymous single nucleotide polymorphisms.",

keywords = "GENOME-WIDE ASSOCIATION, ELECTRONIC MEDICAL-RECORDS, KIDNEY ALLOGRAFT FUNCTION, PRIMARY GRAFT DYSFUNCTION, CARDIAC TRANSPLANTATION, DONOR, POLYMORPHISM, RECIPIENTS, VARIANTS, GENOTYPE",

author = "Keating, {Brendan J.} and {van Setten}, Jessica and Jacobson, {Pamala A.} and Holmes, {Michael V.} and Verma, {Shefali S.} and Chandrupatla, {Hareesh R.} and Nikhil Nair and Hui Gao and Li, {Yun R.} and Bao-Li Chang and Chanel Wong and Randy Phillips and Cole, {Brian S.} and Eyas Mukhtar and Weijia Zhang and Hongzhi Cao and Maede Mohebnasab and Cuiping Hou and Takesha Lee and Laura Steel and Oren Shaked and James Garifallou and Miller, {Michael B.} and Karczewski, {Konrad J.} and Abdullah Akdere and Ana Gonzalez and Lloyd, {Kelsey M.} and Daniel McGinn and Zach Michaud and Abigail Colasacco and Monkol Lek and Yao Fu and Mayur Pawashe and Toumy Guettouche and Aubree Himes and Leat Perez and Weihua Guan and Baolin Wu and David Schladt and Madhav Menon and Zhongyang Zhang and Vinicius Tragante and {de Jonge}, Nicolaas and Otten, {Henny G.} and {de Weger}, {Roel A.} and Harold Snieder and Cisca Wijmenga and {de Borst}, {Martin H.} and Bakker, {Stephan J. L.} and Asselbergs, {Folkert W.} and {Int Genetics & Translational Res T}",

year = "2015",

month = nov,

doi = "10.1097/TP.0000000000000913",

language = "English",

volume = "99",

pages = "2401--2412",

journal = "Transplantation",

issn = "0041-1337",

publisher = "Lippincott Williams and Wilkins",

number = "11",

}

Keating, BJ, van Setten, J, Jacobson, PA, Holmes, MV, Verma, SS, Chandrupatla, HR, Nair, N, Gao, H, Li, YR, Chang, B-L, Wong, C, Phillips, R, Cole, BS, Mukhtar, E, Zhang, W, Cao, H, Mohebnasab, M, Hou, C, Lee, T, Steel, L, Shaked, O, Garifallou, J, Miller, MB, Karczewski, KJ, Akdere, A, Gonzalez, A, Lloyd, KM, McGinn, D, Michaud, Z, Colasacco, A, Lek, M, Fu, Y, Pawashe, M, Guettouche, T, Himes, A, Perez, L, Guan, W, Wu, B, Schladt, D, Menon, M, Zhang, Z, Tragante, V, de Jonge, N, Otten, HG, de Weger, RA, Snieder, H , Wijmenga, C , de Borst, MH , Bakker, SJL, Asselbergs, FW & Int Genetics & Translational Res T 2015, 'Design and Implementation of the International Genetics and Translational Research in Transplantation Network', Transplantation, vol. 99, no. 11, pp. 2401-2412. https://doi.org/10.1097/TP.0000000000000913

TY - JOUR

T1 - Design and Implementation of the International Genetics and Translational Research in Transplantation Network

AU - Keating, Brendan J.

AU - van Setten, Jessica

AU - Jacobson, Pamala A.

AU - Holmes, Michael V.

AU - Verma, Shefali S.

AU - Chandrupatla, Hareesh R.

AU - Nair, Nikhil

AU - Gao, Hui

AU - Li, Yun R.

AU - Chang, Bao-Li

AU - Wong, Chanel

AU - Phillips, Randy

AU - Cole, Brian S.

AU - Mukhtar, Eyas

AU - Zhang, Weijia

AU - Cao, Hongzhi

AU - Mohebnasab, Maede

AU - Hou, Cuiping

AU - Lee, Takesha

AU - Steel, Laura

AU - Shaked, Oren

AU - Garifallou, James

AU - Miller, Michael B.

AU - Karczewski, Konrad J.

AU - Akdere, Abdullah

AU - Gonzalez, Ana

AU - Lloyd, Kelsey M.

AU - McGinn, Daniel

AU - Michaud, Zach

AU - Colasacco, Abigail

AU - Lek, Monkol

AU - Fu, Yao

AU - Pawashe, Mayur

AU - Guettouche, Toumy

AU - Himes, Aubree

AU - Perez, Leat

AU - Guan, Weihua

AU - Wu, Baolin

AU - Schladt, David

AU - Menon, Madhav

AU - Zhang, Zhongyang

AU - Tragante, Vinicius

AU - de Jonge, Nicolaas

AU - Otten, Henny G.

AU - de Weger, Roel A.

AU - Snieder, Harold

AU - Wijmenga, Cisca

AU - de Borst, Martin H.

AU - Bakker, Stephan J. L.

AU - Asselbergs, Folkert W.

AU - Int Genetics & Translational Res T

PY - 2015/11

Y1 - 2015/11

N2 - Background. Genetic association studies of transplantation outcomes have been hampered by small samples and highly complex multifactorial phenotypes, hindering investigations of the genetic architecture of a range of comorbidities which significantly impact graft and recipient life expectancy. We describe here the rationale and design of the International Genetics & Translational Research in Transplantation Network. The network comprises 22 studies to date, including 16 494 transplant recipients and 11 669 donors, of whom more than 5000 are of non-European ancestry, all of whom have existing genomewide genotype data sets. Methods. We describe the rich genetic and phenotypic information available in this consortium comprising heart, kidney, liver, and lung transplant cohorts. Results. We demonstrate significant power in International Genetics & Translational Research in Transplantation Network to detect main effect association signals across regions such as the MHC region as well as genomewide for transplant outcomes that span all solid organs, such as graft survival, acute rejection, new onset of diabetes after transplantation, and for delayed graft function in kidney only. Conclusions. This consortium is designed and statistically powered to deliver pioneering insights into the genetic architecture of transplant-related outcomes across a range of different solid-organ transplant studies. The study design allows a spectrum of analyses to be performed including recipient-only analyses, donor-recipient HLA mismatches with focus on loss-of-function variants and nonsynonymous single nucleotide polymorphisms.

AB - Background. Genetic association studies of transplantation outcomes have been hampered by small samples and highly complex multifactorial phenotypes, hindering investigations of the genetic architecture of a range of comorbidities which significantly impact graft and recipient life expectancy. We describe here the rationale and design of the International Genetics & Translational Research in Transplantation Network. The network comprises 22 studies to date, including 16 494 transplant recipients and 11 669 donors, of whom more than 5000 are of non-European ancestry, all of whom have existing genomewide genotype data sets. Methods. We describe the rich genetic and phenotypic information available in this consortium comprising heart, kidney, liver, and lung transplant cohorts. Results. We demonstrate significant power in International Genetics & Translational Research in Transplantation Network to detect main effect association signals across regions such as the MHC region as well as genomewide for transplant outcomes that span all solid organs, such as graft survival, acute rejection, new onset of diabetes after transplantation, and for delayed graft function in kidney only. Conclusions. This consortium is designed and statistically powered to deliver pioneering insights into the genetic architecture of transplant-related outcomes across a range of different solid-organ transplant studies. The study design allows a spectrum of analyses to be performed including recipient-only analyses, donor-recipient HLA mismatches with focus on loss-of-function variants and nonsynonymous single nucleotide polymorphisms.

KW - GENOME-WIDE ASSOCIATION

KW - ELECTRONIC MEDICAL-RECORDS

KW - KIDNEY ALLOGRAFT FUNCTION

KW - PRIMARY GRAFT DYSFUNCTION

KW - CARDIAC TRANSPLANTATION

KW - DONOR

KW - POLYMORPHISM

KW - RECIPIENTS

KW - VARIANTS

KW - GENOTYPE

U2 - 10.1097/TP.0000000000000913

DO - 10.1097/TP.0000000000000913

M3 - Article

SN - 0041-1337

VL - 99

SP - 2401

EP - 2412

JO - Transplantation

JF - Transplantation

IS - 11

ER -

Design and Implementation of the International Genetics and Translational Research in Transplantation Network

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Keywords

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