Association between Coronary Artery Disease and rs10757278 and rs1333049 Polymorphisms in 9p21 Locus in Iran
Association between Coronary Artery Disease and rs10757278 and rs1333049 Polymorphisms in 9p21 Locus in Iran
Farbod Yaghoubi Hariri,1 Iman Salahshourifar,2,* Shohreh Zare Karizi,3
1. Department of biology Science and Research Branch Islamic Azad University 2. Department of biology Science and Research Branch Islamic Azad University 3. Department of Genetics and Biotechnology School of Biological Science Varamin-Pishva Branch,
Introduction: Coronary artery disease is one of the most common causes of death worldwide. An estimated 3.8 million men and 3.4 million women die each year from CAD .The prevalence of CAD in the Iranian population is responsible for almost 50 percent of all deaths each year.Hence, detecting high-risk patients is important. Fortunately, CAD risk can be predicted based on family history, the level of adipose cells, blood pressure, and smoking status. Of these, family history is most important. Recent studies have identified a major role for genetic factors. Hence, more than 100 genes are effective in the emergence of CAD by producing atherosclerosis plaques. Correlation studies have identified several genetic variants that are effective in the emergence of multifactorial diseases such as CAD. One of the loci identified as a hotspot for CAD is 9p21.3 in various populations .
The 9p21.3 locus has been found to be associated with CAD in Caucasian, Italian, American, Spanish, Southeast Asian, Indian, and Pakistani populations . No protein-coding gene has been thus far detected in the 9p21.3 locus, however this 58 kb region harbors the CDKN2B-AS (inhibitor 2B antisense RNA cyclin-dependent kinase) gene, which encodes an antisense noncoding RNA . CDKN2B-AS is located near the CDK inhibitor genes CDKN2A (cyclin dependent kinase inhibitor 2A), and CDKN2B, which both inhibit CDK4 and regulate cell growth. It has been reported that the rs1333049 variant in the INK4 locus (ANRIL), near the cell cycle regulating genes, plays a role in CAD risk.
In addition, it has been documented that the rs10757278 variant is located in one of the identified enhancers in the 9p21 locus. The risk allele of this variant disrupts the binding site of STAT1 protein and alters the cellular response to inflammation, angiogenesis, and atherogenesis .
Methods: Two hundred blood samples from Iranian CAD patients and normal healthy controls were collected. CAD and the 9p21 locus variants rs1333049 and rs10757278 were analyzed for potential associations. Three ml of peripheral blood were collected from each subject and stored in EDTA-containing tubes. Genomic DNA was extracted from peripheral blood cells according to the manufacturer's instructions. Specific tetra-ARMS PCR primers were designed for genotyping of each variant using Primer1 software . PCR products were then electrophoresed on 3% agarose gels and stained with green viewer dye. To optimize the tetra-ARMS PCR, each genotype of both variants for a few samples was directly sequenced. Sequences were analyzed using BioEdit software .For genotyping, in each PCR run, three control samples with known genotypes were amplified alongside the unknown samples.
The FAMHAP software program was used for Hardy-Weinberg testing, genotype and allele frequency calculation, and haplotype/diplotype analysis.
Results: The PCR product for each variant was visualized using agarose gel electrophoresis. Sample genotypes were determined by amplifying them alongside control samples of known genotype.Neither variant was in Hardy-Weinberg equilibrium in either the case or control groups. Allele and genotype analyses found no significant association between either variant and CAD risk .Haplotypes differed significantly between then the two groups (X2= 8.7836, df= 3, p= 0.0323), with the CG haplotype more frequent in the control than in the CAD group, indicating a protective role for this haplotype against CAD.In diplotype analysis which is the combination of haplotypes on each chromosome, combination of CA haplotype of rs1333049-rs10757278 variants and GA haplotypes of rs1333049-rs10757278 variants showed increased the risk of CAD (CI= 1.13-5.69, OR= 2.53). While in contrast, combination of CA haplotype of rs1333049-rs10757278 variants and CA haplotypes of rs1333049-rs10757278 variants showed a protective role (CI= 0.13-1.14, OR= 0.386)
Conclusion: In this study, the rs10757278 and rs1333049 polymorphisms in the 9p21 locus were analyzed for their association with CAD. No significant associations were found between the two polymorphic genotypes and CAD risk (p> 0.05).The above findings can be explained by different allelic distributions in various populations or low frequencies of some alleles in the target population. Additionally, a variety of ethnic groups live in Iran, each of which can have a specific allelic frequency, affecting the results of such studies. In addition, CAD is a multifactorial disease influenced by environmental factors. Ultimately, SNPs create a genetic potential for an individual, the expression of which depends on one’s genetic background, interactions between other genes, and the environment. Future studies are recommended.