Dynamic effects of genetic variation on gene expression revealed following hypoxic stress in cardiomyocytes
0301 basic medicine
QH301-705.5
Science
Quantitative Trait Loci
Myocardial Infarction
cardiomyocytes
eQTL
Cell Line
03 medical and health sciences
Stress, Physiological
Humans
Myocytes, Cardiac
Biology (General)
Hypoxia
hypoxia
Q
R
Genetic Variation
stress response
Chromosomes and Gene Expression
3. Good health
Oxygen
Gene Expression Regulation
genetic variation
Medicine
Female
gene regulation
DOI:
10.7554/elife.57345
Publication Date:
2021-02-08T13:00:22Z
AUTHORS (5)
ABSTRACT
One life-threatening outcome of cardiovascular disease is myocardial infarction, where cardiomyocytes are deprived of oxygen. To study inter-individual differences in response to hypoxia, we established an in vitro model of induced pluripotent stem cell-derived cardiomyocytes from 15 individuals. We measured gene expression levels, chromatin accessibility, and methylation levels in four culturing conditions that correspond to normoxia, hypoxia, and short- or long-term re-oxygenation. We characterized thousands of gene regulatory changes as the cells transition between conditions. Using available genotypes, we identified 1,573 genes with a cis expression quantitative locus (eQTL) in at least one condition, as well as 367 dynamic eQTLs, which are classified as eQTLs in at least one, but not in all conditions. A subset of genes with dynamic eQTLs is associated with complex traits and disease. Our data demonstrate how dynamic genetic effects on gene expression, which are likely relevant for disease, can be uncovered under stress.
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