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2. FHL5 Controls Vascular Disease-Associated Gene Programs in Smooth Muscle Cells

Author

Doris Wong, Gaëlle Auguste, Christian L. Lino Cardenas, Adam W. Turner, Yixuan Chen, Yipei Song, Lijiang Ma, R. Noah Perry, Redouane Aherrahrou, Maniselvan Kuppusamy, Chaojie Yang, Jose Verdezoto Mosquera, Collin J. Dube, Mohammad Daud Khan, Meredith Palmore, Jaspreet Kalra, Maryam Kavousi, Patricia A. Peyser, Ljubica Matic, Ulf Hedin, Ani Manichaikul, Swapnil K. Sonkusare, Mete Civelek, Jason C. Kovacic, Johan L.M. Björkegren, Rajeev Malhotra, Clint L. Miller, and Epidemiology

Subjects
SDG 3 - Good Health and Well-being, Physiology, Cardiology and Cardiovascular Medicine
Abstract

Background: Genome-wide association studies have identified hundreds of loci associated with common vascular diseases, such as coronary artery disease, myocardial infarction, and hypertension. However, the lack of mechanistic insights for many GWAS loci limits their translation into the clinic. Among these loci with unknown functions is UFL1 –four-and-a-half LIM (LIN-11, Isl-1, MEC-3) domain 5 ( FHL5 ; chr6q16.1), which reached genome-wide significance in a recent coronary artery disease/ myocardial infarction GWAS meta-analysis. UFL1-FHL5 is also associated with several vascular diseases, consistent with the widespread pleiotropy observed for GWAS loci. Methods: We apply a multimodal approach leveraging statistical fine-mapping, epigenomic profiling, and ex vivo analysis of human coronary artery tissues to implicate FHL5 as the top candidate causal gene. We unravel the molecular mechanisms of the cross-phenotype genetic associations through in vitro functional analyses and epigenomic profiling experiments in coronary artery smooth muscle cells. Results: We prioritized FHL5 as the top candidate causal gene at the UFL1-FHL5 locus through expression quantitative trait locus colocalization methods. FHL5 gene expression was enriched in the smooth muscle cells and pericyte population in human artery tissues with coexpression network analyses supporting a functional role in regulating smooth muscle cell contraction. Unexpectedly, under procalcifying conditions, FHL5 overexpression promoted vascular calcification and dysregulated processes related to extracellular matrix organization and calcium handling. Lastly, by mapping FHL5 binding sites and inferring FHL5 target gene function using artery tissue gene regulatory network analyses, we highlight regulatory interactions between FHL5 and downstream coronary artery disease/myocardial infarction loci, such as FOXL1 and FN1 that have roles in vascular remodeling. Conclusions: Taken together, these studies provide mechanistic insights into the pleiotropic genetic associations of UFL1-FHL5. We show that FHL5 mediates vascular disease risk through transcriptional regulation of downstream vascular remodeling gene programs. These transacting mechanisms may explain a portion of the heritable risk for complex vascular diseases.

Published
2023

3. Transcriptomic-based clustering of human atherosclerotic plaques identifies subgroups with different underlying biology and clinical presentation

Author

Michal Mokry, Arjan Boltjes, Lotte Slenders, Gemma Bel-Bordes, Kai Cui, Eli Brouwer, Joost M. Mekke, Marie A. C. Depuydt, Nathalie Timmerman, Farahnaz Waissi, Maarten C. Verwer, Adam W. Turner, Mohammad Daud Khan, Chani J. Hodonsky, Ernest Diez Benavente, Robin J. G. Hartman, Noortje A. M. van den Dungen, Nico Lansu, Emilia Nagyova, Koen H. M. Prange, Jason C. Kovacic, Johan L. M. Björkegren, Eleftherios Pavlos, Evangelos Andreakos, Heribert Schunkert, Gary K. Owens, Claudia Monaco, Aloke V. Finn, Renu Virmani, Nicholas J. Leeper, Menno P. J. de Winther, Johan Kuiper, Gert J. de Borst, Erik S. G. Stroes, Mete Civelek, Dominique P. V. de Kleijn, Hester M. den Ruijter, Folkert W. Asselbergs, Sander W. van der Laan, Clint L. Miller, and Gerard Pasterkamp

Published
2022

4. The Athlete’s Heart—Challenges and Controversies

Author

Andre La Gerche, Meagan M. Wasfy, Maria J. Brosnan, Guido Claessen, Diane Fatkin, Hein Heidbuchel, Aaron L. Baggish, and Jason C. Kovacic

Subjects
Cardiology and Cardiovascular Medicine
Published
2022

7. Exploring the Genetic Architecture of Spontaneous Coronary Artery Dissection Using Whole-Genome Sequencing

Author

Ingrid Tarr, Stephanie Hesselson, Siiri E. Iismaa, Emma Rath, Steven Monger, Michael Troup, Ketan Mishra, Claire M.Y. Wong, Pei-Chen Hsu, Keerat Junday, David T. Humphreys, David Adlam, Tom R. Webb, Anna A. Baranowska-Clarke, Stephen E. Hamby, Keren J. Carss, Nilesh J. Samani, Monique Bax, Lucy McGrath-Cadell, Jason C. Kovacic, Sally L. Dunwoodie, Diane Fatkin, David W.M. Muller, Robert M. Graham, and Eleni Giannoulatou

Subjects
Coronary Vessel Anomalies, Humans, Female, General Medicine, Vascular Diseases, Acute Coronary Syndrome
Abstract

Background: Spontaneous coronary artery dissection (SCAD) is a cause of acute coronary syndrome that predominantly affects women. Its pathophysiology remains unclear but connective tissue disorders (CTD) and other vasculopathies have been observed in many SCAD patients. A genetic component for SCAD is increasingly appreciated, although few genes have been robustly implicated. We sought to clarify the genetic cause of SCAD using targeted and genome-wide methods in a cohort of sporadic cases to identify both common and rare disease-associated variants. Methods: A cohort of 91 unrelated sporadic SCAD cases was investigated for rare, deleterious variants in genes associated with either SCAD or CTD, while new candidate genes were sought using rare variant collapsing analysis and identification of novel loss-of-function variants in genes intolerant to such variation. Finally, 2 SCAD polygenic risk scores were applied to assess the contribution of common variants. Results: We identified 10 cases with at least one rare, likely disease-causing variant in CTD-associated genes, although only one had a CTD phenotype. No genes were significantly associated with SCAD from genome-wide collapsing analysis, however, enrichment for TGF (transforming growth factor)-β signaling pathway genes was found with analysis of 24 genes harboring novel loss-of-function variants. Both polygenic risk scores demonstrated that sporadic SCAD cases have a significantly elevated genetic SCAD risk compared with controls. Conclusions: SCAD shares some genetic overlap with CTD, even in the absence of any major CTD phenotype. Consistent with a complex genetic architecture, SCAD patients also have a higher burden of common variants than controls.

Published
2023

8. Polygenic risk scores point toward potential genetic mechanisms of type 2 myocardial infarction in people with HIV

Author

Won Jun Lee, Haoxiang Cheng, Bridget M. Whitney, Robin M. Nance, Sierra R. Britton, Kristina Jordahl, Sara Lindstrom, Stephanie A. Ruderman, Mari M. Kitahata, Michael S. Saag, Amanda L. Willig, Greer Burkholder, Joseph J. Eron, Jason C. Kovacic, Johan L.M. Björkegren, W. Christopher Mathews, Edward Cachay, Matthew J. Feinstein, Mathew Budoff, Peter W. Hunt, Richard D. Moore, Jeanne Keruly, Mary E. McCaul, Geetanjali Chander, Allison Webel, Kenneth H. Mayer, Joseph A. Delaney, Paul K. Crane, Claudia Martinez, Heidi M. Crane, Ke Hao, and Inga Peter

Subjects
Cardiology and Cardiovascular Medicine
Published
2023

10. Current progress in clinical, molecular, and genetic aspects of adult fibromuscular dysplasia

Author

Alexandre Persu, Tomasz J. Guzik, Pierre Boutouyrie, Marco Pappaccogli, Magdalena Januszewicz, Ewa Warchoł-Celińska, Heather L. Gornik, de Peter Leeuw, Mariusz Kruk, Melanie Perik, Jeffrey W. Olin, Jason C. Kovacic, Emmanuel Touzé, Michel Azizi, Andrzej Januszewicz, Rosa Maria Bruno, Bart Loeys, Santhi K. Ganesh, Aleksander Prejbisz, Patricia Van der Niepen, Marion Boulanger, Daan J.L. van Twist, David Adlam, Piotr Dobrowolski, Jean-Baptiste Demoulin, UCL - SSS/IREC/CARD - Pôle de recherche cardiovasculaire, UCL - (SLuc) Département cardiovasculaire, UCL - SSS/DDUV/MEXP - Médecine expérimentale, Clinical sciences, Clinical Pharmacology and Clinical Pharmacy, and Nephrology

Subjects
Proteomics, Biomedical Research, AFRO-CARIBBEAN PATIENTS, Physiology, Disease, Fibromuscular dysplasia, 030204 cardiovascular system & hematology, Pathogenesis, 0302 clinical medicine, Risk Factors, Epidemiology, OF-FUNCTION MUTATIONS, Subclinical infection, SMOOTH-MUSCLE, Arteries, Prognosis, 3. Good health, Spontaneous dissection, Natural history, Phenotype, Molecular Diagnostic Techniques, Nephrology, Cardiology, cardiovascular system, Cardiology and Cardiovascular Medicine, circulatory and respiratory physiology, Adult, medicine.medical_specialty, RENAL-FUNCTION, Reviews, Vascular Remodeling, Risk Assessment, UNITED-STATES REGISTRY, 03 medical and health sciences, stomatognathic system, Predictive Value of Tests, HIGH PREVALENCE, Physiology (medical), Internal medicine, medicine, CORONARY-ARTERY DISSECTION, Animals, Humans, Genetic Predisposition to Disease, INTRACRANIAL ANEURYSM, cardiovascular diseases, GENOME-WIDE ASSOCIATION, Vascular disease, business.industry, Gene Expression Profiling, Research, Hemodynamics, Proteomic, medicine.disease, Stenosis, Genomic, RISK-FACTORS, Human medicine, business, 030217 neurology & neurosurgery
Abstract

Fibromuscular dysplasia (FMD) is a non-atherosclerotic vascular disease that may involve medium-sized muscular arteries throughout the body. The majority of FMD patients are women. Although a variety of genetic, mechanical, and hormonal factors play a role in the pathogenesis of FMD, overall, its cause remains poorly understood. It is probable that the pathogenesis of FMD is linked to a combination of genetic and environmental factors. Extensive studies have correlated the arterial lesions of FMD to histopathological findings of arterial fibrosis, cellular hyperplasia, and distortion of the abnormal architecture of the arterial wall. More recently, the vascular phenotype of lesions associated with FMD has been expanded to include arterial aneurysms, dissections, and tortuosity. However, in the absence of a string-of-beads or focal stenosis, these lesions do not suffice to establish the diagnosis. While FMD most commonly involves renal and cerebrovascular arteries, involvement of most arteries throughout the body has been reported. Increasing evidence highlights that FMD is a systemic arterial disease and that subclinical alterations can be found in non-affected arterial segments. Recent significant progress in FMD-related research has led to improve our understanding of the disease’s clinical manifestations, natural history, epidemiology, and genetics. Ongoing work continues to focus on FMD genetics and proteomics, physiological effects of FMD on cardiovascular structure and function, and novel imaging modalities and blood-based biomarkers that can be used to identify subclinical FMD. It is also hoped that the next decade will bring the development of multi-centred and potentially international clinical trials to provide comparative effectiveness data to inform the optimal management of patients with FMD.

Published
2022

11. Pulmonary Artery 18F-Fluorodeoxyglucose Uptake by PET/CMR as a Marker of Pulmonary Hypertension in Sarcoidosis

Author

Zahi A. Fayad, Maria G. Trivieri, Vittoria Vergani, Maria Padilla, Alexander Maier, Philip M. Robson, Navneet Narula, Adam Morgenthau, Jagat Narula, Naoki Hirata, Thomas Lescure, Georgios Soultanidis, Steve L. Liao, Jason C. Kovacic, Adam Jacobi, and Samantha Sartori

Subjects
Fluorodeoxyglucose, medicine.medical_specialty, medicine.diagnostic_test, business.industry, Standardized uptake value, medicine.disease, Pulmonary hypertension, Intensity (physics), Positron emission tomography, Internal medicine, medicine.artery, Pulmonary artery, Cohort, Cardiology, medicine, Radiology, Nuclear Medicine and imaging, Sarcoidosis, Cardiology and Cardiovascular Medicine, business, medicine.drug
Abstract

Objectives This study investigated whether pulmonary artery (PA) 18F-FDG uptake is associated with hypertension, and if it correlates to elevated pulmonary pressures. Background 18F-fluorodeoxyglucose (FDG) positron emission tomography (PET) combined with computed tomography or cardiac magnetic resonance (CMR) has been used to assess inflammation mostly in large arteries of the systemic circulation. Much less is known about inflammation of the vasculature of the pulmonary system and its relationship to pulmonary hypertension (PH). Methods In a single-center cohort of 175 patients with suspected cardiac sarcoidosis, who underwent hybrid thoracic PET/CMR, 18F-FDG uptake in the PA was quantified according to maximum standardized uptake value (SUVmax) and target-to-background ratio (TBR) and compared with available results from right heart catheterization (RHC) or transthoracic echocardiography (TTE). Results Thirty-three subjects demonstrated clear 18F-FDG uptake in the PA wall. In the subgroup of patients who underwent RHC (n = 10), the mean PA pressure was significantly higher in the group with PA 18F-FDG uptake compared with the group without uptake (34.4 ± 7.2 mm Hg vs 25.6 ± 9.3 mm Hg; P = 0.003), and 9 (90%) patients with PA 18F-FDG uptake had PH when a mean PA pressure cutoff of 25 mm Hg was used compared with 18 (45%) in the nonuptake group (P Conclusions We demonstrate that 18F-FDG uptake by PET/CMR in the PA is associated with PH and that its intensity correlates with PA pressure.

Published
2022

12. Integrative multi-ancestry genetic analysis of gene regulation in coronary arteries prioritizes disease risk loci

Author

Chani J. Hodonsky, Adam W. Turner, Mohammad Daud Khan, Nelson B. Barrientos, Ruben Methorst, Lijiang Ma, Nicolas G. Lopez, Jose Verdezoto Mosquera, Gaëlle Auguste, Emily Farber, Wei Feng Ma, Doris Wong, Suna Onengut-Gumuscu, Maryam Kavousi, Patricia A. Peyser, Sander W. van der Laan, Nicholas J. Leeper, Jason C. Kovacic, Johan L.M. Björkegren, and Clint L. Miller

Subjects
Article
Abstract

Genome-wide association studies (GWAS) have identified hundreds of genetic risk loci for coronary artery disease (CAD). However, non-European populations are underrepresented in GWAS and the causal gene-regulatory mechanisms of these risk loci during atherosclerosis remain unclear. We incorporated local ancestry and haplotype information to identify quantitative trait loci (QTL) for gene expression and splicing in coronary arteries obtained from 138 ancestrally diverse Americans. Of 2,132 eQTL-associated genes (eGenes), 47% were previously unreported in coronary arteries and 19% exhibited cell-type-specific expression. Colocalization analysis with GWAS identified subgroups of eGenes unique to CAD and blood pressure. Fine-mapping highlighted additional eGenes of interest, includingTBX20andIL5. Splicing (s)QTLs for 1,690 genes were also identified, among whichTOR1AIP1andULK3sQTLs demonstrated the importance of evaluating splicing events to accurately identify disease-relevant gene expression. Our work provides the first human coronary artery eQTL resource from a patient sample and exemplifies the necessity of diverse study populations and multi-omic approaches to characterize gene regulation in critical disease processes.Study Design Overview

Published
2023

13. Integrative Single-Cell Meta-Analysis Reveals Disease-Relevant Vascular Cell States and Markers in Human Atherosclerosis

Author

Jose Verdezoto Mosquera, Gaëlle Auguste, Doris Wong, Adam W. Turner, Chani J. Hodonsky, Christian L. Lino Cardenas, Konstantinos Theofilatos, Maxime Bos, Maryam Kavousi, Patricia A. Peyser, Manuel Mayr, Jason C. Kovacic, Johan L. M. Björkegren, Rajeev Malhotra, Sander W. van der Laan, Chongzhi Zang, Nathan C. Sheffield, and Clint L. Miller

Abstract

Coronary artery disease (CAD) and atherosclerosis are characterized by plaque formation in the arteries wall. CAD progression involves complex interactions and phenotypic plasticity within and between distinct vascular and immune cell lineages. Single-cell RNA-seq (scRNA-seq) studies have highlighted lineage-specific transcriptomic signatures, but the reported cell phenotypes in humans remain controversial. Here, we meta-analyzed four scRNA-seq datasets, creating the first map of human cell diversity in atherosclerosis. We generated an atlas of 118,578 high-quality cells, characterized cell-type diversity and provided insights into smooth muscle cell (SMC) phenotypic modulation, transcription factor activity and cell-cell communication. We integrated genome-wide association study (GWAS) data and uncovered a critical role for modulated SMC phenotypes in CAD and coronary calcification. Finally, we identified candidate markers of fibromyocyte and fibrochondrogenic human SMCs (LTBP1andCRTAC1) that may serve as proxies of atherosclerosis progression. Altogether, we created a unified cellular map of atherosclerosis informing cell state-specific mechanistic and translational studies of cardiovascular diseases.

Published
2023

14. A library of induced pluripotent stem cells from clinically well-characterized, diverse healthy human individuals

Author

Jalaj Garg, Milind Mahajan, Nicole Dubois, Kristin G. Beaumont, Katherine C. Michelis, Marc R. Birtwistle, Seth I. Berger, Joseph Goldfarb, Jason C. Kovacic, David C. Thomas, Marc A. Miller, Bino Mathew, Priyanka Dhanan, Teeya Raghunandan, Evren U. Azeloglu, Ravi Iyengar, Joseph Tripodi, Himali Weerahandi, Christoph Schaniel, Rafael Dariolli, Jens Hansen, Moara Machado, Gomathi Jayaraman, Stephan C. Schürer, Colleen S. Lynch, Bin Hu, David M. Gonzalez, Dusica Vidovic, Sunita L. D’Souza, Vesna Najfeld, Arjun Singh Yadaw, Eric A. Sobie, Neelima C. Tangirala, Eric E. Schadt, Yuguang Xiong, and Robert Sebra

Subjects
Resource, Adult, Male, induced pluripotent stem cells, Heart Ventricles, Cell, Clone (cell biology), similar physiology and transcriptomes, cardiomyocytes, Disease, Computational biology, Biology, Biochemistry, Cell Line, Transcriptome, Young Adult, Risk Factors, Ethnicity, Genetics, medicine, Humans, Genetic Predisposition to Disease, Myocytes, Cardiac, Calcium Signaling, Heart Atria, Induced pluripotent stem cell, Gene, Genetic association, Whole genome sequencing, Gene Expression Profiling, Genetic Variation, Cell Differentiation, Karyotype, clinically well-characterized healthy subjects, Cell Biology, Middle Aged, Clone Cells, genetic variants of mild common disease phenotypes or more severe disease with incomplete penetrance, medicine.anatomical_structure, Gene Expression Regulation, whole-genome sequencing, age- and sex-independent gene signature, Health, Microsatellite, Female, racially/ethnically diverse, Developmental Biology
Abstract

Summary A library of well-characterized human induced pluripotent stem cell (hiPSC) lines from clinically healthy human subjects could serve as a useful resource of normal controls for in vitro human development, disease modeling, genotype-phenotype association studies, and drug response evaluation. We report generation and extensive characterization of a gender-balanced, racially/ethnically diverse library of hiPSC lines from 40 clinically healthy human individuals who range in age from 22 to 61 years. The hiPSCs match the karyotype and short tandem repeat identities of their parental fibroblasts, and have a transcription profile characteristic of pluripotent stem cells. We provide whole-genome sequencing data for one hiPSC clone from each individual, genomic ancestry determination, and analysis of mendelian disease genes and risks. We document similar transcriptomic profiles, single-cell RNA-sequencing-derived cell clusters, and physiology of cardiomyocytes differentiated from multiple independent hiPSC lines. This extensive characterization makes this hiPSC library a valuable resource for many studies on human biology., Highlights • A library of induced pluripotent stem cells from 40 healthy human subjects • Racially/ethnically diverse subjects of clinically well-characterized health • Whole-genome sequencing identifies variants of mild common phenotypes or incomplete penetrance • Similar physiology of cardiomyocytes from independent hiPSC clones and individuals, In this resource, Schaniel et al. report the generation and characterization of a gender-balanced, racially/ethnically diverse library of hiPSC lines from 40 clinically well-characterized healthy human individuals. The authors provide whole-genome sequencing data, ancestry determination, and analysis of mendelian disease genes and risks. Furthermore, similar physiology of cardiomyocytes differentiated from independent hiPSC clones derived from two individuals is documented.

Published
2021

15. Direct reprogramming induces vascular regeneration post muscle ischemic injury

Author

Jason C. Kovacic, Mohammad Tofael Kabir Sharkar, Yoav Hadas, Roger J. Hajjar, Ann Anu Kurian, Hanna Girard, Seonghun Yoon, Asharee Mahmood, Maria Paola Santini, Dalila Pinto, Djamel Lebeche, Vadim Chepurko, Nishat Sultana, Toshiro Io, Keerat Kaur, Shahin Rafii, Lior Zangi, Anthony S. Fargnoli, Jimeen Yoo, Ajit Magadum, Rinat Komargodski, Elena Chepurko, Efrat Eliyahu, and Magdalena M. Żak

Subjects
Male, Mice, Knockout, ApoE, Genetic enhancement, Myocardial Infarction, Ischemia, Neovascularization, Physiologic, Gene delivery, Transfection, Neovascularization, Mice, Drug Discovery, Genetics, medicine, Animals, Humans, Regeneration, Myocytes, Cardiac, RNA, Messenger, Muscle, Skeletal, Molecular Biology, Cells, Cultured, Pharmacology, business.industry, Regeneration (biology), Mesenchymal stem cell, Genetic Therapy, Fibroblasts, Cellular Reprogramming, medicine.disease, Disease Models, Animal, Animals, Newborn, Cancer research, Molecular Medicine, Female, medicine.symptom, business, Reprogramming
Abstract

Reprogramming non-cardiomyocytes (non-CMs) into cardiomyocyte (CM)-like cells is a promising strategy for cardiac regeneration in conditions such as ischemic heart disease. Here, we used a modified mRNA (modRNA) gene delivery platform to deliver a cocktail, termed 7G-modRNA, of four cardiac-reprogramming genes-Gata4 (G), Mef2c (M), Tbx5 (T), and Hand2 (H)-together with three reprogramming-helper genes-dominant-negative (DN)-TGFβ, DN-Wnt8a, and acid ceramidase (AC)-to induce CM-like cells. We showed that 7G-modRNA reprogrammed 57% of CM-like cells in vitro. Through a lineage-tracing model, we determined that delivering the 7G-modRNA cocktail at the time of myocardial infarction reprogrammed ∼25% of CM-like cells in the scar area and significantly improved cardiac function, scar size, long-term survival, and capillary density. Mechanistically, we determined that while 7G-modRNA cannot create de novo beating CMs in vitro or in vivo, it can significantly upregulate pro-angiogenic mesenchymal stromal cells markers and transcription factors. We also demonstrated that our 7G-modRNA cocktail leads to neovascularization in ischemic-limb injury, indicating CM-like cells importance in other organs besides the heart. modRNA is currently being used around the globe for vaccination against COVID-19, and this study proves this is a safe, highly efficient gene delivery approach with therapeutic potential to treat ischemic diseases.

Published
2021

16. Noninvasive Plaque Imaging to Accelerate Coronary Artery Disease Drug Development

Author

Gemma A. Figtree, Philip D. Adamson, Charalambos Antoniades, Roger S. Blumenthal, Michael Blaha, Matthew Budoff, David S. Celermajer, Mark Y. Chan, Clara K. Chow, Damini Dey, Girish Dwivedi, Nicola Giannotti, Stuart M. Grieve, Christian Hamilton-Craig, Bronwyn A. Kingwell, Jason C. Kovacic, James K. Min, David E. Newby, Sanjay Patel, Karlheinz Peter, Peter J. Psaltis, Stephen T. Vernon, Dennis T. Wong, and Stephen J. Nicholls

Subjects
Drug Development, Physiology (medical), Humans, Heart, Cardiovascular Agents, Coronary Artery Disease, Cardiology and Cardiovascular Medicine, United States, Plaque, Atherosclerotic
Abstract

Coronary artery disease (CAD) remains the leading cause of adult mortality globally. Targeting known modifiable risk factors has had substantial benefit, but there remains a need for new approaches. Improvements in invasive and noninvasive imaging techniques have enabled an increasing recognition of distinct quantitative phenotypes of coronary atherosclerosis that are prognostically relevant. There are marked differences in plaque phenotype, from the high-risk, lipid-rich, thin-capped atheroma to the low-risk, quiescent, eccentric, nonobstructive calcified plaque. Such distinct phenotypes reflect different pathophysiologic pathways and are associated with different risks for acute ischemic events. Noninvasive coronary imaging techniques, such as computed tomography, positron emission tomography, and coronary magnetic resonance imaging, have major potential to accelerate cardiovascular drug development, which has been affected by the high costs and protracted timelines of cardiovascular outcome trials. This may be achieved through enrichment of high-risk phenotypes with higher event rates or as primary end points of drug efficacy, at least in phase 2 trials, in a manner historically performed through intravascular coronary imaging studies. Herein, we provide a comprehensive review of the current technology available and its application in clinical trials, including implications for sample size requirements, as well as potential limitations. In its effort to accelerate drug development, the US Food and Drug Administration has approved surrogate end points for 120 conditions, but not for CAD. There are robust data showing the beneficial effects of drugs, including statins, on CAD progression and plaque stabilization in a manner that correlates with established clinical end points of mortality and major adverse cardiovascular events. This, together with a clear mechanistic rationale for using imaging as a surrogate CAD end point, makes it timely for CAD imaging end points to be considered. We discuss the importance of global consensus on these imaging end points and protocols and partnership with regulatory bodies to build a more informed, sustainable staged pathway for novel therapies.

Published
2022

17. Endothelial to Mesenchymal Transition in Health and Disease

Author

Yang Xu and Jason C. Kovacic

Subjects
Physiology
Abstract

The endothelium is one of the largest organ systems in the body, and data continue to emerge regarding the importance of endothelial cell (EC) dysfunction in vascular aging and a range of cardiovascular diseases (CVDs). Over the last two decades and as a process intimately related to EC dysfunction, an increasing number of studies have also implicated endothelial to mesenchymal transition (EndMT) as a potentially disease-causal pathobiologic process that is involved in a multitude of differing CVDs. However, EndMT is also involved in physiologic processes (e.g., cardiac development), and transient EndMT may contribute to vascular regeneration in certain contexts. Given that EndMT involves a major alteration in the EC-specific molecular program, and that it potentially contributes to CVD pathobiology, the clinical translation opportunities are significant, but further molecular and translational research is needed to see these opportunities realized. Expected final online publication date for the

Published
2022

18. Arterial dissections: Common features and new perspectives

Author

Monique Bax, Valentin Romanov, Keerat Junday, Eleni Giannoulatou, Boris Martinac, Jason C. Kovacic, Renjing Liu, Siiri E. Iismaa, and Robert M. Graham

Subjects
Cardiology and Cardiovascular Medicine
Abstract

Arterial dissections, which involve an abrupt tear in the wall of a major artery resulting in the intramural accumulation of blood, are a family of catastrophic disorders causing major, potentially fatal sequelae. Involving diverse vascular beds, including the aorta or coronary, cervical, pulmonary, and visceral arteries, each type of dissection is devastating in its own way. Traditionally they have been studied in isolation, rather than collectively, owing largely to the distinct clinical consequences of dissections in different anatomical locations – such as stroke, myocardial infarction, and renal failure. Here, we review the shared and unique features of these arteriopathies to provide a better understanding of this family of disorders. Arterial dissections occur commonly in the young to middle-aged, and often in conjunction with hypertension and/or migraine; the latter suggesting they are part of a generalized vasculopathy. Genetic studies as well as cellular and molecular investigations of arterial dissections reveal striking similarities between dissection types, particularly their pathophysiology, which includes the presence or absence of an intimal tear and vasa vasorum dysfunction as a cause of intramural hemorrhage. Pathway perturbations common to all types of dissections include disruption of TGF-β signaling, the extracellular matrix, the cytoskeleton or metabolism, as evidenced by the finding of mutations in critical genes regulating these processes, including LRP1, collagen genes, fibrillin and TGF-β receptors, or their coupled pathways. Perturbances in these connected signaling pathways contribute to phenotype switching in endothelial and vascular smooth muscle cells of the affected artery, in which their physiological quiescent state is lost and replaced by a proliferative activated phenotype. Of interest, dissections in various anatomical locations are associated with distinct sex and age predilections, suggesting involvement of gene and environment interactions in disease pathogenesis. Importantly, these cellular mechanisms are potentially therapeutically targetable. Consideration of arterial dissections as a collective pathology allows insight from the better characterized dissection types, such as that involving the thoracic aorta, to be leveraged to inform the less common forms of dissections, including the potential to apply known therapeutic interventions already clinically available for the former.

Published
2022

20. Athletic Activity for Patients With Hypertrophic Cardiomyopathy and Other Inherited Cardiovascular Diseases: JACC Focus Seminar 3/4

Author

Christopher, Semsarian, Belinda, Gray, Kristina H, Haugaa, Rachel, Lampert, Sanjay, Sharma, and Jason C, Kovacic

Subjects
Death, Sudden, Cardiac, Cardiovascular Diseases, Humans, Heart, Cardiomyopathy, Hypertrophic, Sports
Abstract

As explored throughout this JACC Focus Seminar series, participation in regular exercise offers significant positive benefits for cardiovascular health. However, patients with underlying inherited cardiovascular diseases, such as hypertrophic cardiomyopathy, have historically been restricted from sports participation because of the risk of sudden cardiac death. Over the last decade, new data has challenged this restrictive approach. Today, the notion of individualized, patient-centered shared decision-making is being progressively adopted to guide patients with an inherited cardiovascular disease to decide if they can undertake regular exercise, or even if they can participate in competitive sports. Here in this part 3 of a 4-part seminar series, we focus on these concepts and recent data with respect to exercise and the heart in patients with hypertrophic cardiomyopathy and other inherited cardiovascular diseases, with particular emphasis on participation in recreational and competitive sports for these individuals.

Published
2022

21. FHL5 controls vascular disease-associated gene programs in smooth muscle cells

Author

Doris Wong, Gaëlle Auguste, Christian L. Lino Cardenas, Adam W. Turner, Yixuan Chen, Lijiang Ma, R. Noah Perry, Redouane Aherrahrou, Maniselvan Kuppusamy, Chaojie Yang, Jose Verdezoto Mosquera, Collin J. Dube, Mohammad Daud Khan, Meredith Palmore, Maryam Kavousi, Patricia A. Peyser, Ljubica Matic, Ulf Hedin, Ani Manichaikul, Swapnil K. Sonkusare, Mete Civelek, Jason C. Kovacic, Johan L.M. Björkegren, Rajeev Malhotra, and Clint L. Miller

Abstract

BackgroundGenome-wide association studies (GWAS) have identified hundreds of loci associated with common vascular diseases such as coronary artery disease (CAD), myocardial infarction (MI), and hypertension. However, the lack of mechanistic insights for a majority of these loci limits translation of these findings into the clinic. Among these loci with unknown functions is UFL1-FHL5 (chr6q16.1), a locus that reached genome-wide significance in a recent CAD/MI GWAS meta-analysis. In addition to CAD/MI, UFL1-FHL5 is also implicated to coronary calcium, intracranial aneurysm, and migraine risk, consistent with the widespread pleiotropy observed among other GWAS loci.MethodsWe apply a multimodal approach leveraging statistical fine-mapping, epigenomic profiling, and imaging of human coronary artery tissues to implicate Four-and-a-half LIM domain 5 (FHL5) as the top candidate causal gene. We unravel the molecular mechanisms of the cross-phenotype genetic associations through in vitro functional analyses and epigenomic profiling experiments.ResultsWe prioritized FHL5 as the top candidate causal gene at the UFL1-FHL5 locus through eQTL colocalization methods. FHL5 gene expression was enriched in the SMC and pericyte population in human artery tissues with coexpression network analyses supporting a functional role in regulating SMC contraction. Unexpectedly, under procalcifying conditions, FHL5 overexpression promoted vascular calcification and dysregulated processes related to extracellular matrix organization and calcium handling. Lastly, by mapping FHL5 binding sites and inferring FHL5 target gene function using artery tissue gene regulatory network analyses, we highlight regulatory interactions between FHL5 and downstream CAD/MI loci, such as FOXL1 and FN1 that have roles in vascular remodeling.ConclusionTaken together, these studies provide mechanistic insights into the pleiotropic genetic associations of UFL1-FHL5. We show that FHL5 mediates vascular disease risk through transcriptional regulation of downstream vascular remodeling loci. These trans-acting mechanisms may account for a portion of the heritable risk for complex vascular diseases.

Published
2022

23. Precision Medicine Approaches to Vascular Disease

Author

Ke Hao, Conrad Iyegbe, Lijiang Ma, Johan L.M. Björkegren, Clint L. Miller, Jason C. Kovacic, and Amy R Kontorovich

Subjects
business.industry, Vascular disease, Context (language use), Single-nucleotide polymorphism, Disease, 030204 cardiovascular system & hematology, Precision medicine, medicine.disease, Bioinformatics, Coronary artery disease, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, medicine, Mendelian inheritance, symbols, 030212 general & internal medicine, Genetic Change, Cardiology and Cardiovascular Medicine, business
Abstract

In this second of a 5-part Focus Seminar series, we focus on precision medicine in the context of vascular disease. The most common vascular disease worldwide is atherosclerosis, which is the primary cause of coronary artery disease, peripheral vascular disease, and a large proportion of strokes and other disorders. Atherosclerosis is a complex genetic disease that likely involves many hundreds to thousands of single nucleotide polymorphisms, each with a relatively modest effect for causing disease. Conversely, although less prevalent, there are many vascular disorders that typically involve only a single genetic change, but these changes can often have a profound effect that is sufficient to cause disease. These are termed "Mendelian vascular diseases," which include Marfan and Loeys-Dietz syndromes. Given the very different genetic basis of atherosclerosis versus Mendelian vascular diseases, this article was divided into 2 parts to cover the most promising precision medicine approaches for these disease types.

Published
2021

24. Precision Medicine in Cardiovascular Disease: Genetics and Impact on Phenotypes

Author

Jodie Ingles, Jason C. Kovacic, Samantha Barratt Ross, Sally L. Dunwoodie, Christopher Semsarian, and Richard D. Bagnall

Subjects
business.industry, Computational biology, Disease, 030204 cardiovascular system & hematology, Precision medicine, Phenotype, 03 medical and health sciences, 0302 clinical medicine, Genome editing, Risk stratification, Medicine, Polygenic risk score, 030212 general & internal medicine, Cardiology and Cardiovascular Medicine, business
Abstract

Our understanding of the genetic basis of cardiovascular diseases (CVDs) has evolved rapidly. This has resulted from a combination of dedicated research in well phenotyped CVD patients, the sequencing of the human genome, and the ready accessibility and decreasing cost of next-generation sequencing technologies. This increased knowledge of the genetic basis of CVDs has heralded the era of precision medicine. This encompasses many elements including improved diagnosis, family screening, assistance with reproductive decisions, targeted therapeutics guided by both phenotype and genotype, and providing important insights into risk stratification and prognosis. Furthermore, novel insights into genetic mechanisms, clinical rollout of polygenic risk scores for common CVDs, and the promise of genome editing approaches to effectively cure disease represent some of the exciting future endeavors that will change established clinical approaches. This Part 1 of a 5-part series focuses on the underpinnings and fundamental aspects of precision medicine.

Published
2021

25. Contemporary and Future Approaches to Precision Medicine in Inherited Cardiomyopathies

Author

Hugh Calkins, Cynthia A. James, Stacey Peters, Jason C. Kovacic, Diane Fatkin, and Perry M. Elliott

Subjects
medicine.medical_specialty, business.industry, Cardiomyopathy, Psychological intervention, Myocardial Disorder, 030204 cardiovascular system & hematology, Gene mutation, Precision medicine, medicine.disease, 03 medical and health sciences, 0302 clinical medicine, medicine, 030212 general & internal medicine, Cardiology and Cardiovascular Medicine, Intensive care medicine, business
Abstract

Inherited cardiomyopathies are commonly occurring myocardial disorders that are associated with substantial morbidity and mortality. Clinical management strategies have focused on treatment of heart failure and arrhythmic complications in symptomatic patients according to standardized guidelines. Clinicians are now being urged to implement precision medicine, but what does this involve? Advances in understanding of the genetic underpinnings of inherited cardiomyopathies have brought new possibilities for interventions that are tailored to genes, specific variants, or downstream mechanisms. However, the phenotypic variability that can occur with any given pathogenic variant suggests that factors other than single driver gene mutations are often involved. This is propelling a new imperative to elucidate the nuanced ways in which individual combinations of genetic variation, comorbidities, and lifestyle may influence cardiomyopathy phenotypes. Here, Part 3 of a 5-part precision medicine Focus Seminar series reviews the current status and future opportunities for precision medicine in the inherited cardiomyopathies.

Published
2021

26. Precision Medicine Approaches to Cardiac Arrhythmias

Author

Jason C. Kovacic, Michael J. Ackerman, Diane Fatkin, and John R. Giudicessi

Subjects
medicine.medical_specialty, medicine.diagnostic_test, business.industry, Long QT syndrome, Cardiomyopathy, Context (language use), 030204 cardiovascular system & hematology, medicine.disease, Precision medicine, Catecholaminergic polymorphic ventricular tachycardia, Sudden cardiac death, 03 medical and health sciences, 0302 clinical medicine, medicine, cardiovascular diseases, 030212 general & internal medicine, Cardiology and Cardiovascular Medicine, Intensive care medicine, business, Genetic testing, Brugada syndrome
Abstract

In the initial 3 papers in this Focus Seminar series, the fundamentals and key concepts of precision medicine were reviewed, followed by a focus on precision medicine in the context of vascular disease and cardiomyopathy. For the remaining 2 papers, we focus on precision medicine in the context of arrhythmias. Specifically, in this fourth paper we focus on long QT syndrome, Brugada syndrome, and atrial fibrillation. The final (fifth) paper will deal with catecholaminergic polymorphic ventricular tachycardia. These arrhythmias represent a spectrum of disease ranging from common to relatively rare, with very different genetic and environmental causative factors, and with differing clinical manifestations that range from almost no consequences to lethality in childhood or adolescence if untreated. Accordingly, the emerging precision medicine approaches to these arrhythmias vary significantly, but several common themes include increased use of genetic testing, avoidance of triggers, and personalized risk stratification to guide the use of arrhythmia-specific therapies.

Published
2021

27. Prognostic Impact of High-Sensitivity C-Reactive Protein in Patients Undergoing Percutaneous Coronary Intervention According to BMI

Author

Samin K. Sharma, George Dangas, Zhongjie Zhang, Niklas Beyhoff, Anastasios Roumeliotis, Vishal Kapur, Samantha Sartori, Prakash Krishnan, Moritz Blum, Davide Cao, Ridhima Goel, Joseph Sweeny, Rishi Chandiramani, Jason C. Kovacic, Nitin Barman, Roxana Mehran, Usman Baber, and Annapoorna Kini

Subjects
medicine.medical_specialty, medicine.medical_treatment, Population, 030204 cardiovascular system & hematology, Overweight, Body Mass Index, 03 medical and health sciences, Percutaneous Coronary Intervention, 0302 clinical medicine, Risk Factors, Internal medicine, medicine, Humans, cardiovascular diseases, 030212 general & internal medicine, Myocardial infarction, education, education.field_of_study, biology, business.industry, C-reactive protein, nutritional and metabolic diseases, Percutaneous coronary intervention, Prognosis, medicine.disease, C-Reactive Protein, Treatment Outcome, Conventional PCI, biology.protein, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Body mass index, Mace
Abstract

The aim of this study was to determine the prevalence and prognostic implications of elevated high-sensitivity C-reactive protein (hsCRP) in patients undergoing percutaneous coronary intervention (PCI) according to body mass index (BMI).Whereas elevated hsCRP predicts adverse clinical outcome after PCI in the general population, the impact of BMI on its prognostic utility remains unclear.Data from 14,140 patients who underwent PCI between January 2009 and June 2017 at a large tertiary care center were analyzed. Patients were divided into 4 BMI categories: normal (BMI 18.5 to 25 kg/mElevated hsCRP was present in 18.9%, 23.6%, 33.3%, and 47.7% of the normal, overweight, obese, and severely obese groups, respectively. MACE rates were consistently higher in patients with elevated hsCRP across all BMI categories (normal, 13.4% vs. 8.3%; overweight, 11.2% vs. 7.2%; obese, 10.6% vs. 7.5%; severely obese, 11.9% vs. 6.5%; p 0.01 for all). After multivariate adjustment, hsCRP elevation remained significantly associated with MACE independent of BMI (hazard ratios: normal, 1.43 [95% confidence interval: 1.04 to 1.95]; overweight, 1.56 [95% confidence interval: 1.21 to 1.88]; obese, 1.40 [95% confidence interval: 1.06 to 1.84]; severely obese, 1.92 [95% confidence interval: 1.35 to 2.75]; p 0.05 for all).Among patients undergoing PCI, the prevalence of hsCRP elevation progressively increased with higher BMI. Measurement of hsCRP facilitates prognostic risk assessment for adverse outcome after PCI across a broad range of BMI.

Published
2020

28. Abstract 468: Expression Qtl Analysis And Fine-mapping In Human Coronary Artery Prioritize Candidate Genes For Functional Characterization

Author

Chani J Hodonsky, Adam Turner, Nelson Barrientos, Nicolas Lopez, Jason C Kovacic, Johan Bjorkegren, Nicholas Leeper, and Clint Miller

Subjects
Cardiology and Cardiovascular Medicine
Abstract

Background: Atherosclerotic plaque progression to coronary artery disease is the leading cause of death worldwide. The basic pathophysiology of atherosclerosis is well described, but underlying genetic mechanisms of contributing cell types remain incompletely characterized. We utilized human coronary artery RNA sequencing data to identify differentially expressed genes and genetic variants that affect expression. Methods: We used bulk RNA sequencing data from coronary artery samples from 138 American adults (30% female) representing a broad phenotypic range of atherosclerosis. To account for ancestral diversity, we incorporated local ancestry into permutation-based eQTL analyses using a combination of published methods. We also used mixQTL to evaluate the contribution of allele-specific expression to identifying eQTLs. All analyses adjusted for age, sex, and ancestry. We utilized CAD GWAS summary statistics, coronary artery ENCODE annotations, and activity-by-contact (ABC) scores to fine-map eGenes. Results: In local-ancestry eQTL analyses, we report 467 eGenes (FDR Conclusion: Understanding changes in the gene expression program at all disease stages will help characterize coronary artery disease processes as well as identify potential therapeutic targets for functional examination. This work represents a step toward characterizing CAD-related gene expression programs and highlight the importance of inclusive, deliberate study design.

Published
2022

29. Exercise for Primary and Secondary Prevention of Cardiovascular Disease: JACC Focus Seminar 1/4

Author

Wesley J, Tucker, Isabel, Fegers-Wustrow, Martin, Halle, Mark J, Haykowsky, Eugene H, Chung, and Jason C, Kovacic

Subjects
Cardiorespiratory Fitness, Cardiovascular Diseases, Secondary Prevention, Humans, Exercise, Exercise Therapy
Abstract

Regular exercise that meets or exceeds the current physical activity guidelines is associated with a reduced risk of cardiovascular disease (CVD) and mortality. Therefore, exercise training plays an important role in primary and secondary prevention of CVD. In this part 1 of a 4-part focus seminar series, we highlight the mechanisms and physiological adaptations responsible for the cardioprotective effects of exercise. This includes an increase in cardiorespiratory fitness secondary to cardiac, vascular, and skeletal muscle adaptations and an improvement in traditional and nontraditional CVD risk factors by exercise training. This extends to the role of exercise and its prescription in patients with CVDs (eg, coronary artery disease, chronic heart failure, peripheral artery disease, or atrial fibrillation) with special focus on the optimal mode, dosage, duration, and intensity of exercise to reduce CVD risk and improve clinical outcomes in these patients.

Published
2022

30. Heart Failure With Preserved Ejection Fraction as an Exercise Deficiency Syndrome: JACC Focus Seminar 2/4

Author

Andre, La Gerche, Erin J, Howden, Mark J, Haykowsky, Gregory D, Lewis, Benjamin D, Levine, and Jason C, Kovacic

Subjects
Heart Failure, Exercise Tolerance, Oxygen Consumption, Exercise Test, Quality of Life, Humans, Stroke Volume, Exercise, Ventricular Function, Left
Abstract

Across differing spectrums of cardiac function and cardiac pathologies, there are strong associations between measures of cardiorespiratory fitness and burden of symptoms, quality of life, and prognosis. In this part 2 of a 4-part series, we contend that there is a strong association among physical activity, cardiorespiratory fitness, and cardiac function. We argue that a chronic lack of exercise is a major risk factor for heart failure with preserved ejection fraction in some patients. In support of this hypothesis, increasing physical activity is associated with greater cardiac mass, greater stroke volumes, greater cardiac output and peak oxygen consumption, and fewer clinical events. Conversely, physical inactivity results in cardiac atrophy, reduced output, reduced chamber size, and decreased ability to augment cardiac performance with exercise. Moreover, physical inactivity is a strong predictor of heart failure risk and death. In sum, exercise deficiency should be considered part of the broad heart failure with preserved ejection fraction phenotype.

Published
2022

31. The Athlete's Heart-Challenges and Controversies: JACC Focus Seminar 4/4

Author

Andre, La Gerche, Meagan M, Wasfy, Maria J, Brosnan, Guido, Claessen, Diane, Fatkin, Hein, Heidbuchel, Aaron L, Baggish, and Jason C, Kovacic

Subjects
Ventricular Remodeling, Athletes, Atrial Fibrillation, Humans, Cardiomegaly, Exercise-Induced, Sports
Abstract

Regular exercise promotes structural, functional, and electrical remodeling of the heart, often referred to as the "athlete's heart," with intense endurance sports being associated with the greatest degree of cardiac remodeling. However, the extremes of exercise-induced cardiac remodeling are potentially associated with uncommon side effects. Atrial fibrillation is more common among endurance athletes and there is speculation that other arrhythmias may also be more prevalent. It is yet to be determined whether this arrhythmic susceptibility is a result of extreme exercise remodeling, genetic predisposition, or other factors. Gender may have the greatest influence on the cardiac response to exercise, but there has been far too little research directed at understanding differences in the sportsman's vs sportswoman's heart. Here in part 4 of a 4-part seminar series, the controversies and ambiguities regarding the athlete's heart, and in particular, its arrhythmic predisposition, genetic, and gender influences are reviewed in depth.

Published
2022

32. Publisher Correction: Transcriptome-wide association study of coronary artery disease identifies novel susceptibility genes

Author

Ling Li, Zhifen Chen, Moritz von Scheidt, Shuangyue Li, Andrea Steiner, Ulrich Güldener, Simon Koplev, Angela Ma, Ke Hao, Calvin Pan, Aldons J. Lusis, Shichao Pang, Thorsten Kessler, Raili Ermel, Katyayani Sukhavasi, Arno Ruusalepp, Julien Gagneur, Jeanette Erdmann, Jason C. Kovacic, Johan L. M. Björkegren, and Heribert Schunkert

Subjects
Physiology, Physiology (medical), Cardiology and Cardiovascular Medicine
Published
2022

33. Challenges in Cardiac and Pulmonary Sarcoidosis

Author

Marc A. Judson, Zahi A. Fayad, Maria G. Trivieri, Wonder P. Drake, Robert P. Baughman, Peter Liu, David H. Birnie, Jason C. Kovacic, and Paolo Spagnolo

Subjects
medicine.medical_specialty, Lung, business.industry, Disease, 030204 cardiovascular system & hematology, medicine.disease, Asymptomatic, Transplantation, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Pharmacotherapy, Internal medicine, Heart failure, medicine, Cardiology, 030212 general & internal medicine, Sarcoidosis, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Cardiac imaging
Abstract

Sarcoidosis is a complex disease with heterogeneous clinical presentations that can affect virtually any organ. Although the lung is typically the most common organ involved, combined pulmonary and cardiac sarcoidosis (CS) account for most of the morbidity and mortality associated with this disease. Pulmonary sarcoidosis can be asymptomatic or result in impairment in quality of life and end-stage, severe, and/or life-threatening disease. The latter outcome is seen almost exclusively in those with fibrotic pulmonary sarcoidosis, which accounts for 10% to 20% of pulmonary sarcoidosis patients. CS is problematic to diagnose and may cause significant morbidity and death from heart failure or ventricular arrhythmias. The diagnosis of CS usually requires surrogate cardiac imaging biomarkers, as endomyocardial biopsy has relatively low yield, even with directed electrophysiological mapping. Treatment of CS is often multifactorial, involving a combination of antigranulomatous therapy and pharmacotherapy for cardiac arrhythmias and/or heart failure in addition to device placement and cardiac transplantation.

Published
2020

34. 4-Dimensional Transesophageal Echocardiographic Guidance During TAVR With BASILICA

Author

Gilbert H.L. Tang, Jason C. Kovacic, Stamatios Lerakis, Jaffar M. Khan, and Annapoorna Kini

Subjects
medicine.medical_specialty, Transcatheter aortic, business.industry, medicine.medical_treatment, Aortic Valve Stenosis, 030204 cardiovascular system & hematology, 030218 nuclear medicine & medical imaging, Transcatheter Aortic Valve Replacement, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Valve replacement, Predictive Value of Tests, Internal medicine, cardiovascular system, medicine, Cardiology, Humans, Radiology, Nuclear Medicine and imaging, Cardiology and Cardiovascular Medicine, business, Echocardiography, Transesophageal, Artery
Abstract

BASILICA (Bioprosthetic or Native Aortic Scallop Intentional Laceration to Prevent Iatrogenic Coronary Artery Obstruction) is an emerging technique to avoid coronary obstruction during transcatheter aortic valve replacement (TAVR) ([1][1]). Although fluoroscopic visualization during BASILICA is

Published
2020

35. Extracellular Matrix in Ischemic Heart Disease, Part 4/4

Author

Nikolaos G. Frangogiannis and Jason C. Kovacic

Subjects
medicine.medical_specialty, Myocardial ischemia, business.industry, Infarction, Disease, 030204 cardiovascular system & hematology, medicine.disease, Biomarker (cell), Extracellular matrix, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Heart failure, cardiovascular system, medicine, Cardiology, 030212 general & internal medicine, Cardiology and Cardiovascular Medicine, Ischemic heart, business
Abstract

Myocardial ischemia and infarction, both in the acute and chronic phases, are associated with cardiomyocyte loss and dramatic changes in the cardiac extracellular matrix (ECM). It has long been appreciated that these changes in the cardiac ECM result in altered mechanical properties of ischemic or infarcted myocardial segments. However, a growing body of evidence now clearly demonstrates that these alterations of the ECM not only affect the structural properties of the ischemic and post-infarct heart, but they also play a crucial and sometimes direct role in mediating a range of biological pathways, including the orchestration of inflammatory and reparative processes, as well as the pathogenesis of adverse remodeling. This final part of a 4-part JACC Focus Seminar reviews the evidence on the role of the ECM in relation to the ischemic and infarcted heart, as well as its contribution to cardiac dysfunction and adverse clinical outcomes.

Published
2020

36. Basic Biology of Extracellular Matrix in the Cardiovascular System, Part 1/4

Author

Richard P. Harvey, Daniel J. Gorski, Jason C. Kovacic, Gonzalo del Monte-Nieto, and Jens W. Fischer

Subjects
Extracellular matrix, 03 medical and health sciences, 0302 clinical medicine, 030212 general & internal medicine, 030204 cardiovascular system & hematology, Matrix (biology), Biology, Cardiology and Cardiovascular Medicine, Proteomics, Neuroscience
Abstract

Highlights •The ECM is the noncellular component of tissues throughout the body and is formed of filamentous proteins, proteoglycans, and glycosaminoglycans, which extensively interact and whose structure and dynamics are modified by cross-linking. •Whereas historically ECM was thought to be static, thereby providing the “mortar” for cells, on the contrary, it is now recognized that the ECM is highly dynamic during development and in response to physiologic and pathophysiologic stimuli, conferring very specific signaling and mechanical functions. •By leveraging novel tools such as scRNAseq and high-throughput proteomics, it is anticipated that a great deal more remains to be discovered, which may lead to future novel therapeutic opportunities.

Published
2020

37. Novel Anatomic Predictors of New Persistent Left Bundle Branch Block After Evolut Transcatheter Aortic Valve Implantation

Author

Gilbert H.L. Tang, Aditya Sengupta, Melissa Tsoi, Syed Zaid, Anna Rozenshtein, Cenap Undemir, Muhammad Khan, Steven L. Lansman, Samin Sharma, G. Dangas, Joshua Goldberg, Asaad Khan, Nish Patel, Hasan Ahmad, Eisha Gupta, Jason C. Kovacic, Annapoorna Kini, and Kimberly Okoli

Subjects
Male, medicine.medical_specialty, Heart Ventricles, Bundle-Branch Block, Clinical Decision-Making, Ventricular Septum, 030204 cardiovascular system & hematology, Transcatheter Aortic Valve Replacement, Perimeter, 03 medical and health sciences, Postoperative Complications, 0302 clinical medicine, Risk Factors, Internal medicine, Multidetector Computed Tomography, medicine, Humans, Ventricular outflow tract, 030212 general & internal medicine, Aged, Aged, 80 and over, Left bundle branch block, business.industry, Aortic Valve Stenosis, Organ Size, Odds ratio, medicine.disease, Confidence interval, Stenosis, Echocardiography, Aortic Valve, Heart Valve Prosthesis, Coronal plane, Cardiology, Female, Implant, Cardiology and Cardiovascular Medicine, business
Abstract

New persistent left bundle branch block (NP-LBBB) has been associated with adverse outcomes after TAVI but few predictors thus far reported. We sought to identify predictors of NP-LBBB after TAVI with EvolutR/PRO (ER/EP). From 1/2016 to 4/2019, 544 patients from 2 centers underwent TAVI with Evolut (54% ER, 46% EP) for severe native aortic stenosis. Patients with previous LBBB and pacemaker were excluded. Aortic root analysis was performed using 3Mensio Valves Software and membranous septal length (MSL) was determined using the standard coronal view. Clinical, anatomic and procedural characteristics of 396 Evolut were analyzed and predictors of NP-LBBB were identified. Valve Academic Research Consortium-2 outcomes were reported. At discharge, NP-LBBB was seen in 76(19.2%) patients. NP-LBBB in Evolut was associated with implant depth at left coronary cusp (p = 0.004) and 34 mm ER (p = 0.026). Independent predictors of NP-LBBB in Evolut were shorter MSL (odds ratio [OR] = 0.82 per mm septum, 95% confidence interval [CI] = 0.68 to 0.98,p = 0.030), left ventricular outflow tract (LVOT) eccentricity (OR = 1.04 per %, 95% CI = 1.01 to 1.06,p = 0.002), implant depth at noncoronary cusp (NCC) (OR = 1.28 per mm ventricular, 95% CI = 1.11 to 1.48,p = 0.001) and annular perimeter oversizing ≥20% (OR = 2.38, 95% CI = 1.20 to 4.72, p = 0.013). On ROC curve analysis, MSL ≤6.5 mm, NCC depth ≥3 mm and LVOT eccentricity ≥35% were optimal threshold values to predict NP-LBBB. In Conclusion, shorter MSL, LVOT eccentricity, annular oversizing and deeper implant depth are novel predictors of NP-LBBB in Evolut TAVI. Preprocedural CT assessment of aortic root anatomy may help identify patients at risk for NP-LBBB. In such patients, modifying procedural factors such as higher implant and less annular oversizing may reduce the risk of NP-LBBB. Further evaluation of our hypothesis is warranted.

Published
2020

38. Assessing the qualitative and quantitative impacts of simple two-class vs multiple tissue-class MR-based attenuation correction for cardiac PET/MR

Author

Marc R. Dweck, Zahi A. Fayad, Nicolas A. Karakatsanis, Pedro R. Moreno, Kai Tobias Block, Ronan Abgral, Philip M. Robson, Maria G. Trivieri, Vittoria Vergani, Thomas Benkert, and Jason C. Kovacic

Subjects
Male, Cardiac sarcoidosis, 030204 cardiovascular system & hematology, Subcutaneous fat, Article, 030218 nuclear medicine & medical imaging, Cohort Studies, 03 medical and health sciences, 0302 clinical medicine, Fluorodeoxyglucose F18, Positron Emission Tomography Computed Tomography, Humans, Medicine, Radiology, Nuclear Medicine and imaging, Segmentation, Aged, business.industry, Soft tissue, Heart, Pet imaging, Middle Aged, Mr imaging, Cardiac PET, Female, Radiopharmaceuticals, Cardiology and Cardiovascular Medicine, business, Nuclear medicine, Correction for attenuation, Magnetic Resonance Angiography
Abstract

BACKGROUND: Hybrid PET/MR imaging has significant potential in cardiology due to its combination of molecular PET imaging and cardiac MR. Multi-tissue-class MR-based attenuation correction (MRAC) is necessary for accurate PET quantification. Moreover, for thoracic PET imaging, respiration is known to lead to misalignments of MRAC and PET data that result in PET artifacts. These factors can be addressed by using multi-echo MR for tissue segmentation and motion-robust or gated acquisitions. However, the combination of these strategies is not routinely available and can be prone to errors. In this study we examine the qualitative and quantitative impacts of multi-class MRAC compared to a more widely available, simple two-class MRAC for cardiac PET/MR. METHODS AND RESULTS: In a cohort of patients with cardiac sarcoidosis, we acquired MRAC data using multi-echo radial gradient-echo MR imaging. Water-fat separation was used to produce attenuation maps with up to 4 tissue classes including water-based soft tissue, fat, lung, and background air. Simultaneously acquired 18F-fluorodeoxyglucose PET data were subsequently reconstructed using each attenuation map separately. PET uptake values were measured in the myocardium and compared between different PET images. The inclusion of lung and subcutaneous fat in the MRAC maps significantly affected the quantification of 18F-fluorodeoxyglucose activity in the myocardium but only moderately altered the appearance of the PET image without introduction of image artifacts. CONCLUSIONS: Optimal MRAC for cardiac PET/MR applications should include segmentation of all tissues in combination with compensation for the respiratory-related motion of the heart. Simple two-class MRAC is adequate for qualitative clinical assessment.

Published
2020

39. Tissue-Resident PDGFRα+ Progenitor Cells Contribute to Fibrosis versus Healing in a Context- and Spatiotemporally Dependent Manner

Author

Toren Finkel, Hiroshi Kataoka, Daniela Malide, Jason C. Kovacic, Maria Paola Santini, Gaurav Pandey, Ilsa I. Rovira, Valentina d'Escamard, Aya Nomura-Kitabayashi, Richard P. Harvey, Gabriel E. Hoffman, and Jordi Ochando

Subjects
0301 basic medicine, Stromal cell, Regeneration (biology), Mesenchymal stem cell, Context (language use), Biology, medicine.disease, General Biochemistry, Genetics and Molecular Biology, Cell biology, Extracellular matrix, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, lcsh:Biology (General), Fibrosis, medicine, Progenitor cell, lcsh:QH301-705.5, 030217 neurology & neurosurgery, Homeostasis
Abstract

Summary: PDGFRα+ mesenchymal progenitor cells are associated with pathological fibro-adipogenic processes. Conversely, a beneficial role for these cells during homeostasis or in response to revascularization and regeneration stimuli is suggested, but remains to be defined. We studied the molecular profile and function of PDGFRα+ cells in order to understand the mechanisms underlying their role in fibrosis versus regeneration. We show that PDGFRα+ cells are essential for tissue revascularization and restructuring through injury-stimulated remodeling of stromal and vascular components, context-dependent clonal expansion, and ultimate removal of pro-fibrotic PDGFRα+-derived cells. Tissue ischemia modulates the PDGFRα+ phenotype toward cells capable of remodeling the extracellular matrix and inducing cell-cell and cell-matrix adhesion, likely favoring tissue repair. Conversely, pathological healing occurs if PDGFRα+-derived cells persist as terminally differentiated mesenchymal cells. These studies support a context-dependent “yin-yang” biology of tissue-resident mesenchymal progenitor cells, which possess an innate ability to limit injury expansion while also promoting fibrosis in an unfavorable environment. : Santini et al. show that progenitor PDGFRα+ cells residing in skeletal muscle are mesenchymal stromal cells with a dual function, which on the one hand can stabilize newly formed blood vessels and limit injury expansion after ischemia, but on the other hand are also capable of promoting fibrosis in an unfavorable environment. Keywords: platelet-derived growth factor receptor α, revascularization, regeneration, fibrosis, hindlimb ischemia, RNA sequencing, Brainbow

Published
2020

40. Integrative Prioritization of Causal Genes for Coronary Artery Disease

Author

Ke Hao, Raili Ermel, Katyayani Sukhavasi, Haoxiang Cheng, Lijiang Ma, Ling Li, Letizia Amadori, Simon Koplev, Oscar Franzén, Valentina d’Escamard, Nirupama Chandel, Kathryn Wolhuter, Nicole S. Bryce, Vamsidhar R.M. Venkata, Clint L. Miller, Arno Ruusalepp, Heribert Schunkert, Johan L.M. Björkegren, and Jason C. Kovacic

Subjects
Quantitative Trait Loci, Humans, Gene Regulatory Networks, Coronary Artery Disease, Genomics, General Medicine, Atherosclerosis, Article, Genome-Wide Association Study
Abstract

Background: Hundreds of candidate genes have been associated with coronary artery disease (CAD) through genome-wide association studies. However, a systematic way to understand the causal mechanism(s) of these genes, and a means to prioritize them for further study, has been lacking. This represents a major roadblock for developing novel disease- and gene-specific therapies for patients with CAD. Recently, powerful integrative genomics analyses pipelines have emerged to identify and prioritize candidate causal genes by integrating tissue/cell-specific gene expression data with genome-wide association study data sets. Methods: We aimed to develop a comprehensive integrative genomics analyses pipeline for CAD and to provide a prioritized list of causal CAD genes. To this end, we leveraged several complimentary informatics approaches to integrate summary statistics from CAD genome-wide association studies (from UK Biobank and CARDIoGRAMplusC4D) with transcriptomic and expression quantitative trait loci data from 9 cardiometabolic tissue/cell types in the STARNET study (Stockholm-Tartu Atherosclerosis Reverse Network Engineering Task). Results: We identified 162 unique candidate causal CAD genes, which exerted their effect from between one and up to 7 disease-relevant tissues/cell types, including the arterial wall, blood, liver, skeletal muscle, adipose, foam cells, and macrophages. When their causal effect was ranked, the top candidate causal CAD genes were CDKN2B (associated with the 9p21.3 risk locus) and PHACTR1 ; both exerting their causal effect in the arterial wall. A majority of candidate causal genes were represented in cross-tissue gene regulatory co-expression networks that are involved with CAD, with 22/162 being key drivers in those networks. Conclusions: We identified and prioritized candidate causal CAD genes, also localizing their tissue(s) of causal effect. These results should serve as a resource and facilitate targeted studies to identify the functional impact of top causal CAD genes.

Published
2022

41. Evaluating the association between hybrid magnetic resonance positron emission tomography and cardiac-related outcomes in cardiac sarcoidosis

Author

Maria Giovanna Trivieri, Philip M. Robson, Vittoria Vergani, Gina LaRocca, Angelica M. Romero-Daza, Ronan Abgral, Nicolas A. Karakatsanis, Aditya Parikh, Christia Panagiota, Anna Palmisano, Louis DePalo, Helena L. Chang, Joseph H. Rothstein, Rima A. Fayad, Marc A. Miller, Valentin Fuster, Jagat Narula, Marc R. Dweck, Adam Jacobi, Maria Padilla, Jason C. Kovacic, and Zahi A. Fayad

Abstract

ObjectivesTo evaluate an extended hybrid MR/PET imaging strategy in cardiac sarcoidosis (CS) employing qualitative and quantitative assessment of PET tracer uptake, and to evaluate its association with cardiac-related outcomes.BackgroundInvasive endomyocardial biopsy is the gold standard to diagnose CS, but it has poor sensitivity due to the patchy distribution of disease. Imaging with hybrid late gadolinium enhancement (LGE) MR and 18F-fluorodexyglucose (18F-FDG) PET allows simultaneous assessment of myocardial injury and disease activity and has shown promise for improved diagnosis of active CS based on the combined positive imaging outcome, MR(+)PET(+).Methods148 patients with suspected CS were enrolled for hybrid MR/PET imaging. Patients were classified based on presence/absence of LGE (MR+/MR-), presence/absence of 18F-FDG (PET+/PET-), and pattern of 18F-FDG uptake (focal/diffuse) into the following categories: MR(+)PET(+)FOCAL, MR(+)PET(+)DIFFUSE, MR(+)PET(-), MR(-)PET(+)FOCAL, MR(-)PET(+)DIFFUSE, MR(-)PET(-). Patients classified as MR(+)PET(+)FOCAL were designated as having active CS [aCS(+)], while all others were considered as having inactive or absent CS and designated aCS(-). Quantitative values of standard uptake value (SUVmax), target-to-background ratio (TBRmax), target-to-normal-myocardium ratio (TNMRmax) and T2 were measured. Occurrence of a cardiac-related clinical outcome was defined as any of the following during the 6-month period after imaging: cardiac arrest, ventricular arrhythmia, complete heart block, need for cardiac resynchronization/defibrillator/pacemaker/monitoring device (CRT-D, ICD/WCD, or ILR). MR/PET imaging results were compared to the presence of the composite clinical outcome.ResultsPatients designated aCS(+) had more than 4-fold increased odds of meeting the clinical endpoint compared to aCS(-) (unadjusted odds ratio 4.8; 95% CI 2.0-11.4; pConclusionsHybrid MR/PET imaging with an extended image-based classification of CS was statistically associated with clinical outcomes in CS. TNMRmax had high sensitivity and excellent specificity for quantifying the imaging-based classification of active CS.Condensed AbstractImaging with hybrid late gadolinium enhancement (LGE) MR and 18F-fluorodexyglucose (18F-FDG) PET allows simultaneous assessment of myocardial injury and disease activity and has shown promise for improved diagnosis of active cardiac sarcoidosis (CS). In this study, 148 patients with suspected CS were enrolled for hybrid MR/PET imaging. Patients were classified based on presence/absence of LGE (MR+/MR-), presence/absence of 18F-FDG (PET+/PET-), and pattern of 18F-FDG uptake (focal/diffuse). Patients classified as MR(+)PET(+)FOCAL were designated as having active CS and, compared to patients with any other imaging pattern, they had more than 4-fold increased odds of cardiac-related outcome at 6 months from imaging.

Published
2022

42. A mechanistic framework for cardiometabolic and coronary artery diseases

Author

Simon Koplev, Marcus Seldin, Katyayani Sukhavasi, Raili Ermel, Shichao Pang, Lingyao Zeng, Sean Bankier, Antonio Di Narzo, Haoxiang Cheng, Vamsidhar Meda, Angela Ma, Husain Talukdar, Ariella Cohain, Letizia Amadori, Carmen Argmann, Sander M. Houten, Oscar Franzén, Giuseppe Mocci, Omar A. Meelu, Kiyotake Ishikawa, Carl Whatling, Anamika Jain, Rajeev Kumar Jain, Li-Ming Gan, Chiara Giannarelli, Panos Roussos, Ke Hao, Heribert Schunkert, Tom Michoel, Arno Ruusalepp, Eric E. Schadt, Jason C. Kovacic, Aldon J. Lusis, and Johan L. M. Björkegren

Subjects
Article
Abstract

Coronary atherosclerosis results from the delicate interplay of genetic and exogenous risk factors, principally taking place in metabolic organs and the arterial wall. Here we show that 224 gene-regulatory coexpression networks (GRNs) identified by integrating genetic and clinical data from patients with (n = 600) and without (n = 250) coronary artery disease (CAD) with RNA-seq data from seven disease-relevant tissues in the Stockholm–Tartu Atherosclerosis Reverse Network Engineering Task (STARNET) study largely capture this delicate interplay, explaining >54% of CAD heritability. Within 89 cross-tissue GRNs associated with clinical severity of CAD, 374 endocrine factors facilitated inter-organ interactions, primarily along an axis from adipose tissue to the liver (n = 152). This axis was independently replicated in genetically diverse mouse strains and by injection of recombinant forms of adipose endocrine factors (EPDR1, FCN2, FSTL3 and LBP) that markedly altered blood lipid and glucose levels in mice. Altogether, the STARNET database and the associated GRN browser (http://starnet.mssm.edu) provide a multiorgan framework for exploration of the molecular interplay between cardiometabolic disorders and CAD.

Published
2022

43. S-22-4: GENOME WIDE ASSOCIATION STUDY OF FIBROMUSCULAR DYSPLASIA REVEALS MECHANISTIC LINKS WITH BLOOD PRESSURE REGULATION AND OTHER VASCULAR DISEASES

Author

Adrien Georges, Min Lee Yang, Takiy Eddine Berrandou, Lu Liu, Ines Sadoug Sayed, Ozan Dikilitas, Mikka Vikkula, Andrzej Januszewicz, Iftikhar J Kullo, Michel Azizi, Xavier Jeunemaitre, Alexandre Persu, Jason C Kovacic, Santhi K Ganesh, and Nabila Bouatia Naji

Subjects
Physiology, Internal Medicine, Cardiology and Cardiovascular Medicine
Published
2023

44. Precision Medicine in the Management of Dilated Cardiomyopathy

Author

Jason C. Kovacic, Diane Fatkin, Christine E. Seidman, Inken G. Huttner, and Jonathan G. Seidman

Subjects
medicine.medical_specialty, business.industry, Dilated cardiomyopathy, State of the art review, 030204 cardiovascular system & hematology, medicine.disease, Precision medicine, Patient management, 03 medical and health sciences, 0302 clinical medicine, Unknown Significance, Health care, medicine, Genomic information, 030212 general & internal medicine, Cardiology and Cardiovascular Medicine, business, Intensive care medicine, Disease treatment
Abstract

Precision medicine promises to dramatically improve patient outcomes and reduce health care costs through a shift in focus from disease treatment to prevention and individualized therapies. For families with inherited cardiomyopathies, efforts to date have been directed toward discovery and functional characterization of single disease-causing variants. With advances in sequencing, the cataloging of personal genetic variation has been expedited, providing improved insights into the key importance of the genes in which variants occur. These advances have propelled seminal opportunities for successful variant-targeted disease-reversing therapy. New challenges have also emerged-particularly interpretation of the rapidly rising numbers of "variants of unknown significance." For treatments based on patient genotype to be feasible on a wider scale, these obstacles need to be overcome. Here the authors focus on genetics of dilated cardiomyopathy and provide a roadmap for implementing genomic information into future patient management.

Published
2019

47. Identification of the Transcription Factor ATF3 as a Direct and Indirect Regulator of the LDLR

Author

Sabine Bauer, Jana Eigenmann, Yuqi Zhao, Julia Fleig, Johann S. Hawe, Calvin Pan, Dario Bongiovanni, Simon Wengert, Angela Ma, Aldons J. Lusis, Jason C. Kovacic, Johan L. M. Björkegren, Lars Maegdefessel, Heribert Schunkert, and Moritz von Scheidt

Subjects
ATF3, atherosclerosis, cardiovascular disease, coronary artery disease, gene expression, inflammation, LDLR, lipid metabolism, liver metabolism, LPS, MAFF, transcription factor, Article, Endocrinology, Diabetes and Metabolism, Atf3, Atherosclerosis, Cardiovascular Disease, Coronary Artery Disease, Gene Expression, Inflammation, Ldlr, Lipid Metabolism, Liver Metabolism, Lps, Maff, Transcription Factor, Molecular Biology, Biochemistry, ddc
Abstract

Coronary artery disease (CAD) is a complex, multifactorial disease caused, in particular, by inflammation and cholesterol metabolism. At the molecular level, the role of tissue-specific signaling pathways leading to CAD is still largely unexplored. This study relied on two main resources: (1) genes with impact on atherosclerosis/CAD, and (2) liver-specific transcriptome analyses from human and mouse studies. The transcription factor activating transcription factor 3 (ATF3) was identified as a key regulator of a liver network relevant to atherosclerosis and linked to inflammation and cholesterol metabolism. ATF3 was predicted to be a direct and indirect (via MAF BZIP Transcription Factor F (MAFF)) regulator of low-density lipoprotein receptor (LDLR). Chromatin immunoprecipitation DNA sequencing (ChIP-seq) data from human liver cells revealed an ATF3 binding motif in the promoter regions of MAFF and LDLR. siRNA knockdown of ATF3 in human Hep3B liver cells significantly upregulated LDLR expression (p < 0.01). Inflammation induced by lipopolysaccharide (LPS) stimulation resulted in significant upregulation of ATF3 (p < 0.01) and subsequent downregulation of LDLR (p < 0.001). Liver-specific expression data from human CAD patients undergoing coronary artery bypass grafting (CABG) surgery (STARNET) and mouse models (HMDP) confirmed the regulatory role of ATF3 in the homeostasis of cholesterol metabolism. This study suggests that ATF3 might be a promising treatment candidate for lowering LDL cholesterol and reducing cardiovascular risk.

Published
2021

49. Transcriptome-wide association study of coronary artery disease identifies novel susceptibility genes

Author

Ling Li, Zhifen Chen, Moritz von Scheidt, Shuangyue Li, Andrea Steiner, Ulrich Güldener, Simon Koplev, Angela Ma, Ke Hao, Calvin Pan, Aldons J. Lusis, Shichao Pang, Thorsten Kessler, Raili Ermel, Katyayani Sukhavasi, Arno Ruusalepp, Julien Gagneur, Jeanette Erdmann, Jason C. Kovacic, Johan L. M. Björkegren, and Heribert Schunkert

Subjects
Mice, Physiology, Physiology (medical), Animals, Genetic Predisposition to Disease, Coronary Artery Disease, Cardiology and Cardiovascular Medicine, Transcriptome, Polymorphism, Single Nucleotide, Genome-Wide Association Study
Abstract

The majority of risk loci identified by genome-wide association studies (GWAS) are in non-coding regions, hampering their functional interpretation. Instead, transcriptome-wide association studies (TWAS) identify gene-trait associations, which can be used to prioritize candidate genes in disease-relevant tissue(s). Here, we aimed to systematically identify susceptibility genes for coronary artery disease (CAD) by TWAS. We trained prediction models of nine CAD-relevant tissues using EpiXcan based on two genetics-of-gene-expression panels, the Stockholm-Tartu Atherosclerosis Reverse Network Engineering Task (STARNET) and the Genotype-Tissue Expression (GTEx). Based on these prediction models, we imputed gene expression of respective tissues from individual-level genotype data on 37,997 CAD cases and 42,854 controls for the subsequent gene-trait association analysis. Transcriptome-wide significant association (i.e. P RGS19 and KPTN, in a human hepatocyte cell line resulted in reduced secretion of APOB100 and lipids in the cell culture medium. Our CAD TWAS work (i) prioritized candidate causal genes at known GWAS loci, (ii) identified 18 novel genes to be associated with CAD, and iii) suggested potential tissues and pathways of action for these TWAS CAD genes.

Published
2021

50. Spontaneous Coronary Artery Dissection (SCAD) and a family history of aortic artery dissection, a case series

Author

K. Junday, Diane Fatkin, S. Hesselson, Siiri E. Iismaa, Jason C. Kovacic, Lucy McGrath-Cadell, Eleni Giannoulatou, Ingrid S. Tarr, B. Graham, Sally L. Dunwoodie, M. Bax, and David W.M. Muller

Subjects
Pulmonary and Respiratory Medicine, medicine.medical_specialty, business.industry, Internal medicine, medicine, Cardiology, Spontaneous coronary artery dissection (SCAD), Family history, Cardiology and Cardiovascular Medicine, medicine.disease, business, Artery dissection
Abstract

Background/Introduction SCAD typically affects women in their fifth or sixth decade with a paucity of cardiovascular risk factors.(1) It is caused by a coronary artery intramural haematoma with or without intimal tear. Resultant luminal occlusion manifests as myocardial ischaemia/infarction or death. There are two published sporadic cases of SCAD who developed iatrogenic aortic dissection with coronary angiography.(2, 3) We are not aware of any SCAD cases with intercurrent or historical spontaneous aortic dissection. There is a published SCAD case with a familial history of aortic dissection, in her mother.(4) None of these cases reported a connective tissue disorder. Methods We searched our database of 338 SCAD cases, recruited via social media or cardiologist referral, for cases with a family history of aortic dissection. SCAD diagnosis was confirmed by review of coronary angiogram images by an expert interventional cardiologist blinded to the genetic analysis. Genomic DNA was extracted from buccal cells collected using a cheek swab or mouthwash sample. Whole genome sequencing was performed using the Illumina HiSeq X Ten platform with 30x coverage. These data are being analysed for rare variants in genes associated with familial aortopathies or connective tissue disorders (e.g. FBN1, COL3A1, TGFbR-1/2, SMAD3), as well as for novel gene associations with aortic dissection and/or SCAD. Results We identified 12 cases with a first- or second-degree relative with aortic dissection. Of these SCAD cases, 11 were female whereas 10 of 12 relatives with aortic dissection were male. In one instance, a maternal uncle, but not the index SCAD case, had Marfan's syndrome. Whole genome sequencing has been performed on the 12 SCAD cases, 2 living relatives with aortic dissection and 2 relatives linking the SCAD and aortic dissection cases. Conclusions Coronary and aortic dissections have serious consequences and in some families there may be a genetic association between the two conditions. Early identification of variant carriers is critical for disease prevention. Funding Acknowledgement Type of funding sources: Foundation. Main funding source(s): This work was supported in part by grants from the Cardiac Society of Australia and New Zealand, the National Health and Medical Research Council, Australia (APP1161200), the St Vincent's Clinic Foundation, the Catholic Archdiocese of Sydney, Perpetual Philanthropy, NSW Health and SCAD Research Inc. LMC is funded by a University Postgraduate Scholarship through University of NSW and a grant from the Avant Foundation.

Published
2021

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