Rare damaging CCR2 variants are associated with lower lifetime cardiovascular risk

Marios K. Georgakis; Rainer Malik; Omar El Bounkari; Natalie R. Hasbani; Jiang Li; Jennifer E. Huffman; Gabrielle Shakt; Reinier W. P. Tack; Tamara N. Kimball; Yaw Asare; Alanna C. Morrison; Noah L. Tsao; Renae Judy; Braxton D. Mitchell; Huichun Xu; May E. Montasser; Ron Do; Eimear E. Kenny; Ruth J. F. Loos; James G. Terry; J. Jeffrey Carr; Joshua C. Bis; Bruce M. Psaty; W. T. Longstreth; Kendra A. Young; Sharon M. Lutz; Michael Cho; Jai Broome; Alyna Khan; Fei Fei Wang; Nancy L. Heard‐Costa; Sudha Seshadri; Ramachandran S. Vasan; Nicholette D. Allred; B. I. Freedman; Donald W. Bowden; Lisa R. Yanek; Brian G. Kral; Lewis C. Becker; Patricia A. Peyser; Lawrence F. Bielak; Farah Ammous; April P. Carson; Michael E. Hall; Laura M. Raffield; Stephen S. Rich; Wendy S. Post; Russell P. Tracy; Kent D. Taylor; Xiuqing Guo; Michael C. Mahaney; Joanne E. Curran; John Blangero; Shoa L. Clarke; Jeffrey Haessler; Yao Hu; Themistocles L. Assimes; Charles Kooperberg; Jürgen Bernhagen; Christopher D. Anderson; Scott M. Damrauer; Ramin Zand; Jerome I. Rotter; Paul S. de Vries; Martin Dichgans

doi:10.1186/s13073-025-01456-2

Rare damaging CCR2 variants are associated with lower lifetime cardiovascular risk

Marios K. Georgakis(Broad Institute), Rainer Malik(Ludwig-Maximilians-Universität München), Omar El Bounkari(Ludwig-Maximilians-Universität München), Natalie R. Hasbani(The University of Texas Health Science Center at Houston), Jiang Li(Geisinger Health System), Jennifer E. Huffman, Gabrielle Shakt(Philadelphia VA Medical Center), Reinier W. P. Tack(Broad Institute), Tamara N. Kimball(Broad Institute), Yaw Asare(Ludwig-Maximilians-Universität München), Alanna C. Morrison(The University of Texas Health Science Center at Houston), Noah L. Tsao(Philadelphia VA Medical Center), Renae Judy(Philadelphia VA Medical Center), Braxton D. Mitchell(University of Maryland, Baltimore), Huichun Xu(University of Maryland, Baltimore), May E. Montasser(University of Maryland, Baltimore), Ron Do(Icahn School of Medicine at Mount Sinai), Eimear E. Kenny(Genomic Health (United States)), Ruth J. F. Loos(Icahn School of Medicine at Mount Sinai), James G. Terry(Vanderbilt University Medical Center), J. Jeffrey Carr(Vanderbilt University Medical Center), Joshua C. Bis(University of Washington), Bruce M. Psaty(University of Washington), W. T. Longstreth(University of Washington), Kendra A. Young(University of Colorado Anschutz Medical Campus), Sharon M. Lutz(Harvard University), Michael Cho(Brigham and Women's Hospital), Jai Broome(University of Washington), Alyna Khan(University of Washington), Fei Fei Wang(University of Washington), Nancy L. Heard‐Costa(Boston University), Sudha Seshadri(The University of Texas at San Antonio Health Science Center), Ramachandran S. Vasan(Boston University), Nicholette D. Allred(Wake Forest University), B. I. Freedman(Wake Forest University), Donald W. Bowden(Wake Forest University), Lisa R. Yanek(Johns Hopkins University), Brian G. Kral(Johns Hopkins University), Lewis C. Becker(Johns Hopkins University), Patricia A. Peyser(University of Michigan), Lawrence F. Bielak(University of Michigan), Farah Ammous(University of Michigan), April P. Carson(Jackson Memorial Hospital), Michael E. Hall(Jackson Memorial Hospital), Laura M. Raffield(University of North Carolina at Chapel Hill), Stephen S. Rich(University of Virginia), Wendy S. Post(Johns Hopkins University), Russell P. Tracy(University of Vermont), Kent D. Taylor(UCLA Medical Center), Xiuqing Guo(UCLA Medical Center), Michael C. Mahaney(The University of Texas Rio Grande Valley), Joanne E. Curran(The University of Texas Rio Grande Valley), John Blangero(The University of Texas Rio Grande Valley), Shoa L. Clarke(VA Palo Alto Health Care System), Jeffrey Haessler(Fred Hutch Cancer Center), Yao Hu(Fred Hutch Cancer Center), Themistocles L. Assimes(VA Palo Alto Health Care System), Charles Kooperberg(Fred Hutch Cancer Center), Jürgen Bernhagen(Munich Cluster for Systems Neurology), Christopher D. Anderson(Broad Institute), Scott M. Damrauer(Philadelphia VA Medical Center), Ramin Zand(Pennsylvania State University), Jerome I. Rotter(UCLA Medical Center), Paul S. de Vries(The University of Texas Health Science Center at Houston), Martin Dichgans(German Center for Neurodegenerative Diseases)

Genome Medicine

March 21, 2025

10.1186/s13073-025-01456-2

Cited by 7Open Access

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Abstract

Abstract Background Previous work has shown a role of CCL2, a key chemokine governing monocyte trafficking, in atherosclerosis. However, it remains unknown whether targeting CCR2, the cognate receptor of CCL2, provides protection against human atherosclerotic cardiovascular disease. Methods Computationally predicted damaging or loss-of-function (REVEL > 0.5) variants within CCR2 were detected in whole-exome-sequencing data from 454,775 UK Biobank participants and tested for association with cardiovascular endpoints in gene-burden tests. Given the key role of CCR2 in monocyte mobilization, variants associated with lower monocyte count were prioritized for experimental validation. The response to CCL2 of human cells transfected with these variants was tested in migration and cAMP assays. Validated damaging variants were tested for association with cardiovascular endpoints, atherosclerosis burden, and vascular risk factors. Significant associations were replicated in six independent datasets ( n = 1,062,595). Results Carriers of 45 predicted damaging or loss-of-function CCR2 variants ( n = 787 individuals) were at lower risk of myocardial infarction and coronary artery disease. One of these variants (M249K, n = 585, 0.15% of European ancestry individuals) was associated with lower monocyte count and with both decreased downstream signaling and chemoattraction in response to CCL2. While M249K showed no association with conventional vascular risk factors, it was consistently associated with a lower risk of myocardial infarction (odds ratio [OR]: 0.66, 95% confidence interval [CI]: 0.54–0.81, p = 6.1 × 10 −5 ) and coronary artery disease (OR: 0.74, 95%CI: 0.63–0.87, p = 2.9 × 10 −4 ) in the UK Biobank and in six replication cohorts. In a phenome-wide association study, there was no evidence of a higher risk of infections among M249K carriers. Conclusions Carriers of an experimentally confirmed damaging CCR2 variant are at a lower lifetime risk of myocardial infarction and coronary artery disease without carrying a higher risk of infections. Our findings provide genetic support for the translational potential of CCR2-targeting as an atheroprotective approach.

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