Abstract
Genome-wide association studies have identified several genetic loci linked to coronary artery disease (CAD) most of them located in non-protein coding regions of the genome. One such locus is the CAD Associated Region between MFGE8 and ABHD2 (CARMA), a ∼18 kb haplotype that was recently shown to regulate vicinal protein coding genes. Here, we further investigate the region by examining a long non-coding RNA gene locus (CARMAL/RP11-326A19.4/AC013565) abutting the CARMA region. Expression-genotype correlation analyses of public databases indicate that CARMAL levels are influenced by CAD associated variants suggesting that it might have cardioprotective functions. We found CARMAL to be stably expressed at relatively low levels and enriched in the cytosol. CARMAL function was investigated by several gene targeting approaches in HEK293T: inactive CRISPR fusion proteins, antisense, overexpression and inactivation by CRISPR-mediated knock-out. Modest increases in CARMAL (3–4×) obtained via CRISPRa using distinct single-guided RNAs did not result in consistent transcriptome effects. By contrast, CARMAL deletion or reduced CARMAL expression via CRISPRi increased MFGE8 levels, suggesting that CARMAL is contributing to reduce MFGE8 expression under basal conditions. While future investigations are required to clarify the mechanism(s) by which CARMAL acts on MFGE8, integrative bioinformatic analyses of the transcriptome of CARMAL deleted cells suggest that this locus may also be involved in leucine metabolism, splicing, transcriptional regulation and Shwachman-Bodian-Diamond syndrome protein function.
Highlights
Genome-Wide Association Studies (GWAS) have identified genomic variants that statistically partition with numerous diseases
We previously demonstrated that a KRAB derivatized inactive version had no measurable impact on local gene expression when targeted to the promoter region of CARMAL, despite achieving a ∼30% reduction in CARMAL expression (Soubeyrand et al, 2019a)
We previously demonstrated that a mild (∼4 X) upregulation of CARMAL via CRISPRa (VP160) had no effects on local gene expression, including HAPLN3 and MFGE8 (Soubeyrand et al, 2019a)
Summary
Genome-Wide Association Studies (GWAS) have identified genomic variants that statistically partition with numerous diseases. With regard to cardiovascular disease (CAD) more than 160 loci tagged by distinct single nucleotide polymorphisms (SNPs) distributed throughout the genome have been shown to associate with CAD risk (p < 10−8). Since the vast majority of these SNPs are situated in regions distant from genes, understanding of their role in disease processes will necessitate extensive follow-up mechanistic inquiries. We examined the role of a specific CAD associated 18 kb region in HuH-7 hepatoma cells and showed that it could regulate 2 distinct genes situated ∼150 kb away (MFGE8 and HAPLN3) (Soubeyrand et al, 2019b). The physiological role of HAPLN3 (hyaluronan and proteoglycan link protein 3) is less clear, it has been linked to height (UK Biobank data) and cancer (Møller et al, 2017)
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