Author
Listed:
- Benjamin B. Sun
(University of Cambridge)
- Joseph C. Maranville
(MRL, Merck & Co., Inc.
Celgene Inc.)
- James E. Peters
(University of Cambridge
Addenbrooke’s Hospital)
- David Stacey
(University of Cambridge)
- James R. Staley
(University of Cambridge)
- James Blackshaw
(University of Cambridge)
- Stephen Burgess
(University of Cambridge
University of Cambridge)
- Tao Jiang
(University of Cambridge)
- Ellie Paige
(University of Cambridge
The Australian National University)
- Praveen Surendran
(University of Cambridge)
- Clare Oliver-Williams
(University of Cambridge
Homerton College)
- Mihir A. Kamat
(University of Cambridge)
- Bram P. Prins
(University of Cambridge)
- Sheri K. Wilcox
(SomaLogic Inc)
- Erik S. Zimmerman
(SomaLogic Inc)
- An Chi
(MRL, Merck & Co., Inc.)
- Narinder Bansal
(University of Cambridge
University of Bristol)
- Sarah L. Spain
(Wellcome Trust Genome Campus, Hinxton)
- Angela M. Wood
(University of Cambridge)
- Nicholas W. Morrell
(Addenbrooke’s Hospital
University of Cambridge)
- John R. Bradley
(Cambridge University Hospitals)
- Nebojsa Janjic
(SomaLogic Inc)
- David J. Roberts
(University of Oxford, John Radcliffe Hospital
Churchill Hospital)
- Willem H. Ouwehand
(Addenbrooke’s Hospital
Cambridge Biomedical Campus
Cambridge Biomedical Campus
Wellcome Trust Genome Campus, Hinxton)
- John A. Todd
(University of Oxford)
- Nicole Soranzo
(Addenbrooke’s Hospital
Cambridge Biomedical Campus
Wellcome Trust Genome Campus, Hinxton
University of Cambridge)
- Karsten Suhre
(Weill Cornell Medicine–Qatar)
- Dirk S. Paul
(University of Cambridge)
- Caroline S. Fox
(MRL, Merck & Co., Inc.)
- Robert M. Plenge
(MRL, Merck & Co., Inc.
Celgene Inc.)
- John Danesh
(University of Cambridge
Addenbrooke’s Hospital
Wellcome Trust Genome Campus, Hinxton
University of Cambridge)
- Heiko Runz
(MRL, Merck & Co., Inc.
Biogen Inc.)
- Adam S. Butterworth
(University of Cambridge
University of Cambridge)
Abstract
Although plasma proteins have important roles in biological processes and are the direct targets of many drugs, the genetic factors that control inter-individual variation in plasma protein levels are not well understood. Here we characterize the genetic architecture of the human plasma proteome in healthy blood donors from the INTERVAL study. We identify 1,927 genetic associations with 1,478 proteins, a fourfold increase on existing knowledge, including trans associations for 1,104 proteins. To understand the consequences of perturbations in plasma protein levels, we apply an integrated approach that links genetic variation with biological pathway, disease, and drug databases. We show that protein quantitative trait loci overlap with gene expression quantitative trait loci, as well as with disease-associated loci, and find evidence that protein biomarkers have causal roles in disease using Mendelian randomization analysis. By linking genetic factors to diseases via specific proteins, our analyses highlight potential therapeutic targets, opportunities for matching existing drugs with new disease indications, and potential safety concerns for drugs under development.
Suggested Citation
Benjamin B. Sun & Joseph C. Maranville & James E. Peters & David Stacey & James R. Staley & James Blackshaw & Stephen Burgess & Tao Jiang & Ellie Paige & Praveen Surendran & Clare Oliver-Williams & Mi, 2018.
"Genomic atlas of the human plasma proteome,"
Nature, Nature, vol. 558(7708), pages 73-79, June.
Handle:
RePEc:nat:nature:v:558:y:2018:i:7708:d:10.1038_s41586-018-0175-2
DOI: 10.1038/s41586-018-0175-2
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