Paul Muiya

Left ventricular global transcriptional profiling in human end-stage dilated cardiomyopathy

We employed ABI high-density oligonucleotide microarrays containing 31,700 sixty-mer probes (representing 27,868 annotated human genes) to determine differential gene expression in idiopathic dilated cardiomyopathy (DCM). We identified 626 up-regulated and 636 down-regulated genes in DCM compared to controls. Most significant changes occurred in the tricarboxylic acid cycle, angiogenesis, and apoptotic signaling pathways, among which 32 apoptosis- and 13 MAPK activity-related genes were altered. Inorganic cation transporter, catalytic activities, energy metabolism and electron transport-related processes were among the most critically influenced pathways. Among the up-regulated genes were HTRA1 (6.9-fold), PDCD8(AIFM1) (5.2) and PRDX2 (4.4) and the down-regulated genes were NR4A2 (4.8), MX1 (4.3), LGALS9 (4), IFNA13 (4), UNC5D (3.6) and HDAC2 (3) (p<0.05), all of which have no clearly defined cardiac-related function yet. Gene ontology and enrichment analysis also revealed significant alterations in mitochondrial oxidative phosphorylation, metabolism and Alzheimers disease pathways. Concordance was also confirmed for a significant number of genes and pathways in an independent validation microarray dataset. Furthermore, verification by real-time RT-PCR showed a high degree of consistency with the microarray results. Our data demonstrate an association of DCM with alterations in various cellular events and multiple yet undeciphered genes that may contribute to heart muscle disease pathways.

A study of the role of the myocyte-specific enhancer factor-2A gene in coronary artery disease

We evaluated the role of the MEF2A as a risk factor for coronary artery disease (CAD) in 1186 subjects with angiographically documented disease compared with 885 CAD-free individuals in the Saudi population. Screening the gene revealed exon 11 as the most polymorphic of all coding regions, harbouring several substitution polymorphisms and insertion/deletions (indels) at a locus containing an 11 CAG trinucleotide chain and a CCGCCGCCA sequence, which introduced frameshifts and premature stop codons at nt146637 and nt146647, nt146780 or nt146783. While these indels were not significantly associated with CAD, a causative relationship was established for rs1059759 G>C [1.21(1.02-1.43); p=0.029], and a borderline one for rs34851361 A>G [1.22(0.9-1.54); p=0.088]. Importantly, a haplotype 1A-2G-3G-4A-5C-6G-7G-8A constructed from the studied SNPs was also associated with CAD [6.39(0.93-43.75); p=0.0052]. These results identify MEF2A gene as a susceptibility gene for CAD.

Haplotypes encompassing the KIAA0391 and PSMA6 gene cluster confer a genetic link for myocardial infarction and coronary artery disease.

The role of the KIAA0391 and PSMA6 genes in predisposing individuals to disease is still not fully understood. We evaluated by molecular beacon‐based genotyping assays the roles of five single nucleotide polymorphisms (SNPs) in the chromosomal region 14q13.2 harbouring the KIAA0391 and PSMA6 gene cluster in coronary artery disease (CAD) in the Saudi population. Two of the studied SNPs rs8008319 (denoted as 1) and rs7157492 (2), reside in the KIAA0391 locus, two others rs1048990 (3) and rs12878391 (4) are components of the PSMA6, while rs4981283 (5) resides downstream of both genes. In a study involving 1071 patients and 929 controls, none of the studied SNPs showed significant association with CAD. In contrast, two haplotypes consisting of 1A‐2G‐3C‐4A‐5A [O.R.(95% C.I.) = 1.49(0.95–2.35); p = 0.022] and 1A‐2G‐3G‐4A‐5A [2.24(0.84–5.98); p = 0.031] conferred risk for both CAD and myocardial infarction (MI) in a five‐SNP locus model, while another comprising 1A‐2G‐3C‐4A‐5G [2.24(0.84–5.98); p = 0.079] showed a borderline association. One haplotype consisting of 1T‐2G‐3C‐4G‐5A [0.79(0.59–1.05); p = 0.015] exhibited protective properties and another, 1T‐2G‐3C‐4A‐5G [0.20(0.03–139); p = 0.073], showed a similar but weaker trend. Our study identified haplotypes in the chromosomal region encompassing the KIAA0391 and PSMA6 genes as a possible genetic link between CAD and MI. These results also suggest that haplotypes may be more informative than individual SNPs in identifying risk factors for disease.

Association of the angiotensinogen gene polymorphism with atherosclerosis and its risk traits in the Saudi population

BackgroundAngiotensinogen (AGT) constitutes a central component of the renin-angiotensin system that controls the systemic blood pressure and several other cardiovascular functions and may play an important role in atherosclerosis pathways. In this study, we employed TaqMan genotyping assays to evaluate the role of 8 AGT variants in primary hypertension (HTN), type 2 diabetes mellitus (T2DM), and obesity as a possible trigger of coronary artery disease (CAD) in a population of 4615 angiographed native Saudi individuals.MethodsLinkage analysis was done by using the Affymetrix Gene Chip array, sequencing by using the MegaBACE DNA analysis system and genotyping accomplished by TaqMan chemistry using the Applied Biosystem real-time Prism 7900HT Sequence Detection System.ResultsSix variants, rs2067853 GG [Odds ratio(95% Confidence Interval) = 1.44(1.17-1.78); p = 0.001], rs7079 [1.49(1.20-1.85); p < 0.0001], rs699 G [1.19(1.08-1.13); p < 0.0001], rs3789679 A [1.51(1.14-1.99); p = 0.004], rs2148582 GG [1.31(1.11-1.55); p = 0.002] and rs5051 TC + CC [1.32(1.13-1.60); p = 0.001] conferred risk for HTN (3521 cases versus 1094 controls). The rs2067853 (p = 0.042), rs699G (p = 0.007) and rs5051 (p = 0.051) also conferred risk for myocardial infarction (MI; 2982 vs 1633), while rs3789679 A (p < 0.0001) and GA + AA (p < 0.0001) as well as rs4762G (p = 0.019) were associated with obesity (1576 vs 2458). However, while these variants appeared to be also associated with CAD (2323 vs 2292), only the rs7079G (p = 0.035) retained its significant relationship. Interestingly, among the haplotypes constructed from these SNPs, the baseline 8-mer haplotype, GGTGGGGT (χ2 = 7.02; p = 0.0081) and another GGCGGAGT (χ2 = 5.10; p = 0.024), together with several of their derivatives were associated with HTN. T2DM was associated with two 8-mer haplotypes, GGTAGGAC (χ2 = 5.66; p = 0.017) and ATTGAGAC (χ2 = 5.93; p = 0.015), obesity with GGCGGAGT (χ2 = 9.49; p = 0.0021) and MI was linked to ATTGGGAC (χ2 = 6.68; p = 0.010) and GGTGGGAT (χ2 = 4.25; p = 0.039). Furthermore, several causative haplotypes were also shared among the risk traits as well as with CAD.ConclusionThese results point to AGT as independently conferring risk for various cardiovascular traits, and possibly interacting with these traits in events leading to atherosclerosis.

The role of CDKN2B in cardiovascular risk in ethnic Saudi Arabs: A validation study

BACKGROUND Genome-wide association studies (GWASs) have yielded a wealth of information furnishing support for the variability in genetic predisposition to disease. However, the actual impact of such findings on any particular ethnic population needs to be validated through replication studies. In the present study, we verified recent findings of a GWAS demonstrating a strong association for the cyclin-dependent kinase 4 inhibitor B (CDKN2B) genomic region with coronary artery disease (CAD)/myocardial infarction (MI) in ethnic Saudi Arabs. METHODOLOGY We genotyped 8 CDKN2B SNPs for cardiovascular risk in 4650 Saudi Arabs, comprising 2429 CAD cases (1860 males; 569 female) and 2221 controls (1189 male; 1032 female) by Taqman assay. RESULTS Four SNPs, rs4977574_A [0.56(0.50-0.63); p < 0.0001], rs10757274_A [0.87(0.77-0.97); p = 0.014], rs10738607_A [0.89(0.80-1.00); p = 0.043] and rs1333045_T [0.54(0.48-0.61); p < 0.0001] residing on the CDKN2B gene were significantly associated with CAD following multivariate adjustments for MI, HTN and DM, while four others were weakly associated with the disease. Likewise, three SNPs, rs1412829_G [0.84(0.72-0.97); p = 0.019], rs564398_C [0.81(0.70-0.94); p = 0.006], rs4977756_G [0.87(0.76-0.99); p = 0.036] were significantly associated with MI after multivariate adjustments for CAD, HTN and DM, while the other five displayed borderline associations. CONCLUSIONS Our findings strongly support the notion of a critical role for the CDKN2B gene locus as a cardiovascular risk in ethnic Arabs. The study also demonstrates the importance of replication studies in ascertaining the role of a genomic sequence in disease.