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Whole-genome sequencing uncovers two loci for coronary artery calcification and identifies ARSE as a regulator of vascular calcification.

Authors :
de Vries, Paul
de Vries, Paul
Conomos, Matthew
Singh, Kuldeep
Nicholson, Christopher
Jain, Deepti
Hasbani, Natalie
Jiang, Wanlin
Lee, Sujin
Cardenas, Christian
Lutz, Sharon
Wong, Doris
Guo, Xiuqing
Yao, Jie
Young, Erica
Tcheandjieu, Catherine
Hilliard, Austin
Bis, Joshua
Bielak, Lawrence
Brown, Michael
Musharoff, Shaila
Clarke, Shoa
Terry, James
Palmer, Nicholette
Yanek, Lisa
Xu, Huichun
Heard-Costa, Nancy
Wessel, Jennifer
Selvaraj, Margaret
Li, Rebecca
Sun, Xiao
Turner, Adam
Stilp, Adrienne
Khan, Alyna
Newman, Anne
Rasheed, Asif
Freedman, Barry
Kral, Brian
McHugh, Caitlin
Hodonsky, Chani
Saleheen, Danish
Herrington, David
Jacobs, David
Nickerson, Deborah
Boerwinkle, Eric
Wang, Fei
Heiss, Gerardo
Jun, Goo
Kinney, Greg
Sigurslid, Haakon
Doddapaneni, HarshaVardhan
Hall, Ira
Bensenor, Isabela
Broome, Jai
Crapo, James
Wilson, James
Smith, Jennifer
Blangero, John
Vargas, Jose
Mosquera, Jose
Smith, Joshua
Viaud-Martinez, Karine
Ryan, Kathleen
Young, Kendra
Taylor, Kent
Lange, Leslie
Emery, Leslie
Bittencourt, Marcio
Montasser, May
Yu, Miao
Mahaney, Michael
Mahamdeh, Mohammed
Fornage, Myriam
Franceschini, Nora
Lotufo, Paulo
Natarajan, Pradeep
Wong, Quenna
Mathias, Rasika
Gibbs, Richard
Do, Ron
Mehran, Roxana
Tracy, Russell
Kim, Ryan
Nelson, Sarah
Damrauer, Scott
Kardia, Sharon
Rich, Stephen
Fuster, Valentin
Napolioni, Valerio
Zhao, Wei
Tian, Wenjie
Yin, Xianyong
Min, Yuan-I
Manning, Alisa
Peloso, Gina
Kelly, Tanika
ODonnell, Christopher
Morrison, Alanna
Curran, Joanne
Zapol, Warren
Bowden, Donald
de Vries, Paul
de Vries, Paul
Conomos, Matthew
Singh, Kuldeep
Nicholson, Christopher
Jain, Deepti
Hasbani, Natalie
Jiang, Wanlin
Lee, Sujin
Cardenas, Christian
Lutz, Sharon
Wong, Doris
Guo, Xiuqing
Yao, Jie
Young, Erica
Tcheandjieu, Catherine
Hilliard, Austin
Bis, Joshua
Bielak, Lawrence
Brown, Michael
Musharoff, Shaila
Clarke, Shoa
Terry, James
Palmer, Nicholette
Yanek, Lisa
Xu, Huichun
Heard-Costa, Nancy
Wessel, Jennifer
Selvaraj, Margaret
Li, Rebecca
Sun, Xiao
Turner, Adam
Stilp, Adrienne
Khan, Alyna
Newman, Anne
Rasheed, Asif
Freedman, Barry
Kral, Brian
McHugh, Caitlin
Hodonsky, Chani
Saleheen, Danish
Herrington, David
Jacobs, David
Nickerson, Deborah
Boerwinkle, Eric
Wang, Fei
Heiss, Gerardo
Jun, Goo
Kinney, Greg
Sigurslid, Haakon
Doddapaneni, HarshaVardhan
Hall, Ira
Bensenor, Isabela
Broome, Jai
Crapo, James
Wilson, James
Smith, Jennifer
Blangero, John
Vargas, Jose
Mosquera, Jose
Smith, Joshua
Viaud-Martinez, Karine
Ryan, Kathleen
Young, Kendra
Taylor, Kent
Lange, Leslie
Emery, Leslie
Bittencourt, Marcio
Montasser, May
Yu, Miao
Mahaney, Michael
Mahamdeh, Mohammed
Fornage, Myriam
Franceschini, Nora
Lotufo, Paulo
Natarajan, Pradeep
Wong, Quenna
Mathias, Rasika
Gibbs, Richard
Do, Ron
Mehran, Roxana
Tracy, Russell
Kim, Ryan
Nelson, Sarah
Damrauer, Scott
Kardia, Sharon
Rich, Stephen
Fuster, Valentin
Napolioni, Valerio
Zhao, Wei
Tian, Wenjie
Yin, Xianyong
Min, Yuan-I
Manning, Alisa
Peloso, Gina
Kelly, Tanika
ODonnell, Christopher
Morrison, Alanna
Curran, Joanne
Zapol, Warren
Bowden, Donald
Source :
Nature Cardiovascular Research; vol 2, iss 12
Publication Year :
2023

Abstract

Coronary artery calcification (CAC) is a measure of atherosclerosis and a well-established predictor of coronary artery disease (CAD) events. Here we describe a genome-wide association study (GWAS) of CAC in 22,400 participants from multiple ancestral groups. We confirmed associations with four known loci and identified two additional loci associated with CAC (ARSE and MMP16), with evidence of significant associations in replication analyses for both novel loci. Functional assays of ARSE and MMP16 in human vascular smooth muscle cells (VSMCs) demonstrate that ARSE is a promoter of VSMC calcification and VSMC phenotype switching from a contractile to a calcifying or osteogenic phenotype. Furthermore, we show that the association of variants near ARSE with reduced CAC is likely explained by reduced ARSE expression with the G allele of enhancer variant rs5982944. Our study highlights ARSE as an important contributor to atherosclerotic vascular calcification, and a potential drug target for vascular calcific disease.

Details

Database :
OAIster
Journal :
Nature Cardiovascular Research; vol 2, iss 12
Notes :
application/pdf, Nature Cardiovascular Research vol 2, iss 12
Publication Type :
Electronic Resource
Accession number :
edsoai.on1449591589
Document Type :
Electronic Resource

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