Exome sequencing of 20,791 cases of type 2 diabetes and 24,440 controls

Broad Genomics Platform; DiscovEHR Collaboration; CHARGE; LuCamp; ProDiGY; GoT2D; ESP; SIGMA-T2D; T2D-GENES; AMP-T2D-GENES

doi:10.1038/s41586-019-1231-2

Exome sequencing of 20,791 cases of type 2 diabetes and 24,440 controls

Broad Genomics Platform, DiscovEHR Collaboration, CHARGE, LuCamp, ProDiGY, GoT2D, ESP, SIGMA-T2D, T2D-GENES, AMP-T2D-GENES

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

188 Scopus citations

Abstract

Protein-coding genetic variants that strongly affect disease risk can yield relevant clues to disease pathogenesis. Here we report exome-sequencing analyses of 20,791 individuals with type 2 diabetes (T2D) and 24,440 non-diabetic control participants from 5 ancestries. We identify gene-level associations of rare variants (with minor allele frequencies of less than 0.5%) in 4 genes at exome-wide significance, including a series of more than 30 SLC30A8 alleles that conveys protection against T2D, and in 12 gene sets, including those corresponding to T2D drug targets (P = 6.1 × 10⁻³) and candidate genes from knockout mice (P = 5.2 × 10⁻³). Within our study, the strongest T2D gene-level signals for rare variants explain at most 25% of the heritability of the strongest common single-variant signals, and the gene-level effect sizes of the rare variants that we observed in established T2D drug targets will require 75,000–185,000 sequenced cases to achieve exome-wide significance. We propose a method to interpret these modest rare-variant associations and to incorporate these associations into future target or gene prioritization efforts.

Original language	English (US)
Pages (from-to)	71-76
Number of pages	6
Journal	Nature
Volume	570
Issue number	7759
DOIs	https://doi.org/10.1038/s41586-019-1231-2
State	Published - Jun 6 2019

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Publisher Copyright:
© 2019, The Author(s), under exclusive licence to Springer Nature Limited.

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@article{64411b22718740f2b53043884428a3e9,

title = "Exome sequencing of 20,791 cases of type 2 diabetes and 24,440 controls",

abstract = "Protein-coding genetic variants that strongly affect disease risk can yield relevant clues to disease pathogenesis. Here we report exome-sequencing analyses of 20,791 individuals with type 2 diabetes (T2D) and 24,440 non-diabetic control participants from 5 ancestries. We identify gene-level associations of rare variants (with minor allele frequencies of less than 0.5%) in 4 genes at exome-wide significance, including a series of more than 30 SLC30A8 alleles that conveys protection against T2D, and in 12 gene sets, including those corresponding to T2D drug targets (P = 6.1 × 10−3) and candidate genes from knockout mice (P = 5.2 × 10−3). Within our study, the strongest T2D gene-level signals for rare variants explain at most 25% of the heritability of the strongest common single-variant signals, and the gene-level effect sizes of the rare variants that we observed in established T2D drug targets will require 75,000–185,000 sequenced cases to achieve exome-wide significance. We propose a method to interpret these modest rare-variant associations and to incorporate these associations into future target or gene prioritization efforts.",

author = "{Broad Genomics Platform} and {DiscovEHR Collaboration} and CHARGE and LuCamp and ProDiGY and GoT2D and ESP and SIGMA-T2D and T2D-GENES and AMP-T2D-GENES and Jason Flannick and Mercader, {Josep M.} and Christian Fuchsberger and Udler, {Miriam S.} and Anubha Mahajan and Jennifer Wessel and Teslovich, {Tanya M.} and Lizz Caulkins and Ryan Koesterer and Francisco Barajas-Olmos and Blackwell, {Thomas W.} and Eric Boerwinkle and Brody, {Jennifer A.} and Federico Centeno-Cruz and Ling Chen and Siying Chen and Cecilia Contreras-Cubas and Emilio C{\'o}rdova and Adolfo Correa and Maria Cortes and DeFronzo, {Ralph A.} and Lawrence Dolan and Drews, {Kimberly L.} and Amanda Elliott and Floyd, {James S.} and Stacey Gabriel and Garay-Sevilla, {Maria Eugenia} and Humberto Garc{\'i}a-Ortiz and Myron Gross and Sohee Han and Heard-Costa, {Nancy L.} and Jackson, {Anne U.} and J{\o}rgensen, {Marit E.} and Kang, {Hyun Min} and Megan Kelsey and Kim, {Bong Jo} and Koistinen, {Heikki A.} and Johanna Kuusisto and Leader, {Joseph B.} and Allan Linneberg and Liu, {Ching Ti} and Jianjun Liu and Valeriya Lyssenko and Manning, {Alisa K.} and Anthony Marcketta and Malacara-Hernandez, {Juan Manuel} and Ang{\'e}lica Mart{\'i}nez-Hern{\'a}ndez and Karen Matsuo and Gross, {Myron D} and Jim Pankow",

note = "Publisher Copyright: {\textcopyright} 2019, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2019",

month = jun,

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doi = "10.1038/s41586-019-1231-2",

language = "English (US)",

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T1 - Exome sequencing of 20,791 cases of type 2 diabetes and 24,440 controls

AU - Broad Genomics Platform

AU - DiscovEHR Collaboration

AU - CHARGE

AU - LuCamp

AU - ProDiGY

AU - GoT2D

AU - ESP

AU - SIGMA-T2D

AU - T2D-GENES

AU - AMP-T2D-GENES

AU - Flannick, Jason

AU - Mercader, Josep M.

AU - Fuchsberger, Christian

AU - Udler, Miriam S.

AU - Mahajan, Anubha

AU - Wessel, Jennifer

AU - Teslovich, Tanya M.

AU - Caulkins, Lizz

AU - Koesterer, Ryan

AU - Barajas-Olmos, Francisco

AU - Blackwell, Thomas W.

AU - Boerwinkle, Eric

AU - Brody, Jennifer A.

AU - Centeno-Cruz, Federico

AU - Chen, Ling

AU - Chen, Siying

AU - Contreras-Cubas, Cecilia

AU - Córdova, Emilio

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AU - Cortes, Maria

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AU - Dolan, Lawrence

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AU - Elliott, Amanda

AU - Floyd, James S.

AU - Gabriel, Stacey

AU - Garay-Sevilla, Maria Eugenia

AU - García-Ortiz, Humberto

AU - Gross, Myron

AU - Han, Sohee

AU - Heard-Costa, Nancy L.

AU - Jackson, Anne U.

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AU - Kang, Hyun Min

AU - Kelsey, Megan

AU - Kim, Bong Jo

AU - Koistinen, Heikki A.

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AU - Linneberg, Allan

AU - Liu, Ching Ti

AU - Liu, Jianjun

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AU - Manning, Alisa K.

AU - Marcketta, Anthony

AU - Malacara-Hernandez, Juan Manuel

AU - Martínez-Hernández, Angélica

AU - Matsuo, Karen

AU - Gross, Myron D

AU - Pankow, Jim

PY - 2019/6/6

Y1 - 2019/6/6

N2 - Protein-coding genetic variants that strongly affect disease risk can yield relevant clues to disease pathogenesis. Here we report exome-sequencing analyses of 20,791 individuals with type 2 diabetes (T2D) and 24,440 non-diabetic control participants from 5 ancestries. We identify gene-level associations of rare variants (with minor allele frequencies of less than 0.5%) in 4 genes at exome-wide significance, including a series of more than 30 SLC30A8 alleles that conveys protection against T2D, and in 12 gene sets, including those corresponding to T2D drug targets (P = 6.1 × 10−3) and candidate genes from knockout mice (P = 5.2 × 10−3). Within our study, the strongest T2D gene-level signals for rare variants explain at most 25% of the heritability of the strongest common single-variant signals, and the gene-level effect sizes of the rare variants that we observed in established T2D drug targets will require 75,000–185,000 sequenced cases to achieve exome-wide significance. We propose a method to interpret these modest rare-variant associations and to incorporate these associations into future target or gene prioritization efforts.

AB - Protein-coding genetic variants that strongly affect disease risk can yield relevant clues to disease pathogenesis. Here we report exome-sequencing analyses of 20,791 individuals with type 2 diabetes (T2D) and 24,440 non-diabetic control participants from 5 ancestries. We identify gene-level associations of rare variants (with minor allele frequencies of less than 0.5%) in 4 genes at exome-wide significance, including a series of more than 30 SLC30A8 alleles that conveys protection against T2D, and in 12 gene sets, including those corresponding to T2D drug targets (P = 6.1 × 10−3) and candidate genes from knockout mice (P = 5.2 × 10−3). Within our study, the strongest T2D gene-level signals for rare variants explain at most 25% of the heritability of the strongest common single-variant signals, and the gene-level effect sizes of the rare variants that we observed in established T2D drug targets will require 75,000–185,000 sequenced cases to achieve exome-wide significance. We propose a method to interpret these modest rare-variant associations and to incorporate these associations into future target or gene prioritization efforts.

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