A novel polymorphic purine complex at the 1.5 kb upstream region of the human caveolin-1 gene and risk of Alzheimer's disease; extra-short alleles and accumulated allele homozygosity

Impact of a variable number tandem repeat in the CYP2C9 promoter on warfarin sensitivity and responsiveness in Jordanians with cardiovascular disease

Purpose

The purpose of this study was to investigate the influence of CYP/CYP450 2C9 (CYP2C9) promoter variable number tandem repeat (p-VNTR) polymorphism on susceptibility to cardiovascular disease and on warfarin sensitivity and responsiveness, in Jordanians with cardiovascular disease during initiation and stabilization phases of therapy.

Patients and methods

A total of 211 cardiovascular patients who were being treated with warfarin anticoagulants and 205 healthy individuals were enrolled in this study. PCR-based methods were performed to analyze the effects of CYP2C9 p-VNTR polymorphism on warfarin metabolism. The p-VNTR polymorphism was composed of tandem repeat motifs sorted into three alleles based on the length and structure: short (p-VNTR-S), middle (p-VNTR-M), and long (p-VNTR-L).

Results

We found that the genotypic and allelic frequencies differ significantly between patients and healthy individuals; therefore, our results suggest that this polymorphism is associated with cardiovascular disease in the Jordanian population. Moreover, during the initiation phase of therapy, 20% of warfarin-sensitive patients were homozygous for a short allele (p-VNTR-S), and 12.2% were heterozygous for this allele (p-VNTR-M/p-VNTR-S). During the stabilization phase, no significant differences were found between these groups and their genotypic frequencies. Additionally, we did not confirm any relationship between the CYP2C9 p-VNTR polymorphism and warfarin response during either the initiation or the stabilization phases of therapy.

Conclusion

Our data show a significant difference between the CYP2C9 p-VNTR polymorphism and risk of cardiovascular disease, in addition to significant association between this polymorphism and sensitivity to warfarin at the initiation phase of therapy in a Jordanian population. However, there is no correlation between this polymorphism and warfarin response, international normalized ratio (INR) values, or required warfarin dose to achieve a target INR either at the initiation or stabilization phases of therapy. To further corroborate our results, additional studies are required with a larger number of samples and different ethnic groups.

Association study of cathepsin D gene polymorphism in Iranian patients with sporadic late-onset Alzheimer's disease

One of the most prevalent forms of dementia is Alzheimer's disease (AD). Complex inheritance and multifactorial patterns of late-onset AD (LOAD) along with its heterogeneity are due to the presence of different AD-predisposing genes with different influence on disease development among various populations. A key event in the pathogenesis of AD is the deposition of β-amyloid peptide, which is derived from the amyloid precursor protein by β- and γ-secretases. Cathepsin D (CTSD) is an acid protease with β- and γ-secretase-like features in vitro. An exonic C→T polymorphism at position 224 of the CTSD gene (rs: 17571) has been shown to be associated with the enzyme function of CTSD and with AD. Two studies in the German population reported a strong association of this polymorphism with an increased risk of developing AD, while other studies did not confirm this observation. We tested for this association in a case-control study in 100 Iranian sporadic LOAD patients based on diagnostic criteria of DSM-IV-TR and NINCDS-ADRDA and in 100 normal controls without any personal and family history of AD or other related dementias. Polymerase chain reaction-restriction fragment length polymorphism was set up to detect this polymorphism. Our study demonstrated that T-carrying genotype frequency in AD patients is significantly higher than in controls and there was a 2.5-fold increased risk for developing AD in the T-carrying genotype compared to C/C genotype (odds ratio = 2.5, p = 0.010). The odds ratio for subjects with the apolipoprotein E ε4 (APOE ε4) allele was 2.91 (p = 0.003) and carriers of the CTSD T and APOE ε4 alleles had a 6.25-fold increased risk of the disease (p = 0.0). Our results indicate that CTSD genotype is associated with the disease and a combination of the above risk factors significantly alters the risk for developing AD.

Association between upstream purine complexes of human caveolin-1 gene and schizophrenia in qazvin province of iran

Background:

Caveolin is a multifunctional and scaffolding membrane protein, which involves cholesterol trafficking to plasma lipid microdomain. It organizes and targets synaptic parts of the neurotransmitter and neurotrophic receptor signaling pathways. Caveolins are encoded by CAV-1, 2 and 3 genes. Disruption of the CAV1 would likely ruin the neuronal signaling, which leads to symptoms of schizophrenia in predisposed individuals.

Objectives:

The upper area of CAV-1 gene is highly conserved and can have a regulatory role in neurodegenerative diseases. This study was designed to find out the possible association of polymorphisms of this area and schizophrenia.

Patients and Methods:

In a case-control study, 254 blood samples were obtained from 127 patients with schizophrenia and 127 well matched controls referred to 22 Bahman Hospital of Qazvin University of Medical Sciences (QUMS) in Qazvin province, Iran, using simple random sampling method. After extracting DNA, the upper region of the human CAV1- gene was amplified by PCR in all collected samples. The products were visualized by silver staining in 10% polyacrylamide gel and then sequenced.

Results:

We detected nine homozygotes in patients and 15 in control subjects. Homozygosity was 7.08% and 11.8% in cases and control, respectively. Nine types homozygote haplotype were detected in upper region of the CAV1 gene in cases and controls. Three haplotypes were common in cases and controls; four haplotypes were seen in controls only and two in cases.

Conclusions:

Our findings implied a significant correlation between some haplotypes of upper region of CAV1 gene and schizophrenia. Existence of some haplotypes and lack of another in CAV1 upstream can suggest a significant correlation between schizophrenia and some haplotypes.

Biased homozygous haplotypes across the human caveolin 1 upstream purine complex in Parkinson's disease

The alpha-synuclein-caveolin 1 axis is suggested to be of role in the pathogenesis of Parkinson's disease in cell line models. The objective of this study was to analyze the homozygous haplotype compartment of the human caveolin 1 gene upstream purine complex in patients afflicted with Parkinson's disease. This complex was screened in patients with Parkinson's disease (n = 141) and compared with a group of controls (n = 760) using polymerase chain reaction and sequencing. The expression activity of the homozygous haplotypes was then examined using luciferase Dual-Glo system in human neuronal cell line, LAN-5. Six haplotypes were found to be homozygous in the patients, and not in the control pool (Fisher exact p < 1 × 10(-6)). Three of those haplotypes were specific to Parkinson's disease (Fisher exact p < 0.002), and the remaining three overlapped with homozygous haplotypes in Alzheimer's disease and multiple sclerosis (Fisher exact p < 0.002). The disease haplotypes contained motif lengths that were nonexistent in the control homozygous haplotype pool and significantly increased gene expression (p < 9 × 10(-6)). We conclude that skew in the caveolin 1 purine complex homozygous haplotype compartment and an additive effect of those haplotypes may be linked with Parkinson's disease.

Haplotypes across the human caveolin 1 gene upstream purine complex significantly alter gene expression: implication in neurodegenerative disorders

We have previously reported a polymorphic purine complex at the 1.5 kb upstream region of the human caveolin 1 (CAV1) gene that is conserved across several species in respect with sequence motifs and the location of the complex. The IRF and Ets transcription factors have common binding sites for this region across those species. We have also shown skew in the homozygote haplotype compartment of this complex in two neurodegenerative disorders, sporadic late-onset Alzheimer's disease (AD), and multiple sclerosis (MS), versus disease-free controls (p<0.0000001). In the current study, we analyze the functional implication of the disease homozygote haplotypes (i.e. 102-bp and 142-bp) vs. control homozygote haplotype (110-bp) in three neuronal cell lines, LAN-5, U-87 MG, and N2A, using dual luciferase reporter system. A significant increase in gene expression was observed in the cell lines with the disease haplotype constructs vs. control haplotype in the three cell lines (t-test p<4 × 10(-4), 1 × 10(-6), and 3 × 10(-4)), respectively. We conclude that the human CAV1 upstream purine complex modifies gene expression. An additive effect of the haplotypes in the homozygous status is speculated based on the skew in the homozygote haplotypes in neurodegenerative disorders.

CYP2C9 promoter variable number tandem repeat polymorphism regulates mRNA expression in human livers

CYP2C9 is involved in metabolism of nearly 25% of clinically used drugs. Coding region polymorphisms CYP2C9*2 and *3 contribute to interperson variability in drug dosage and clinical outcomes, whereas the role of a regulatory polymorphism remains uncertain. Measuring allelic RNA expression in 87 human liver samples, combined with genotyping, sequencing, and reporter gene assays, we identified a promoter variable number tandem repeat polymorphism (pVNTR) that fully accounted for allelic CYP2C9 mRNA expression differences. Present in three different variant forms [short (pVNTR-S), medium (pVNTR-M), and long (pVNTR-L)], only the pVNTR-S allele reduced the CYP2C9 mRNA level compared with the pVNTR-M (reference) allele. pVNTR-S is in linkage disequilibrium with *3, with linkage disequilibrium r(2) of 0.53 to 0.75 in different populations. In patients who were taking a maintenance dose of warfarin, the mean warfarin dose was associated with the copies of pVNTR-S (p = 0.0001). However, in multivariate regression models that included the CYP2C9*3, pVNTR-S was no longer a significant predictor of the warfarin dose (p = 0.60). These results indicate that although pVNTR-S reduced CYP2C9 mRNA expression, the in vivo effects of pVNTR-S on warfarin metabolism cannot be separated from the effects of *3. Therefore, it is not necessary to consider pVNTR-S as an additional biomarker for warfarin dosing. Larger clinical studies are needed to define whether the pVNTR-S has a minimal effect in vivo, or whether the effect attributed to *3 is really a combination of effects on expression by the pVNTR-S along with effects on catalytic activity from the nonsynonymous *3 variant.

Core promoter STRs: novel mechanism for inter-individual variation in gene expression in humans

In a genome-scale analysis of the composition of core promoter sequences, we have recently shown that approximately 25% of the human protein-coding genes have at least one short tandem repeat (STR) of 3-repeats in their core promoters (i.e. the interval between -120 to +1). Through their nucleosome processing effect, GA-repeats play a crucial role in the regulation of gene transcription. In this study, we chose the human SRY (sex determining region Y)-box 5 (SOX5) gene as a prototype of the GA-rich core promoters to investigate the role of core promoter GA-STRs in gene expression. The human SOX5 gene is indispensable for diverse embryonic developmental processes, ranging from oligodendrocyte development and corticogenesis to chondrogenesis, and regulation of the cell cycle. Whereas the absolute ratio of 99% of the genes range between 0.2 and 2, the composition of the core promoter of the two most ubiquitously expressed mRNAs of the human SOX5 gene (transcripts ID: ENST00000451604 and ENST00000309359) is exceptionally rich in purine nucleotides (purine/pyrimidine ratio: 61.5). Indeed, this core promoter is an island of four tandem GA-STRs, and lacks the known TATA and TATA-less elements for gene transcription. Evolutionary conservation of this region between human and mouse (75% homology) supports important functional role for this promoter. In this study, we show that this nucleotide composition is indeed a potent promoter (p<1×10(-10)), and different haplotypes across the region result in significant difference in gene expression (p<1×10(-6)). To our knowledge, this is the first report of functional STRs in a human gene core promoter. Based on our search on the core promoters of the entire human protein-coding genes annotated in the GeneCards database (19,927genes) for the presence of pure GA-STRs, 429 genes contain at least one GA(3)-repeat in their core promoter. Core promoters with pure GA-STRs of GA(4) and above were observed in 61 genes. Our data unravel a novel mechanism for inter-individual variation in gene expression and complex traits/phenotypes through core promoter GA-STRs.

Caveolin-1 deletion reduces early brain injury after experimental intracerebral hemorrhage

Intracerebral hemorrhage (ICH) is a subtype of stroke with high rates of morbidity and mortality. Caveolin-1 (Cav-1) is the main structural protein of caveolae and is involved in regulating signal transduction and cholesterol trafficking in cells. Although a recent study suggests a protective role of Cav-1 in cerebral ischemia, its function in ICH remains unknown. In this study, we examined the role of Cav-1 and in a model of collagenase-induced ICH and in neuronal cultures. Our results indicate that Cav-1 was up-regulated in the perihematomal area predominantly in endothelial cells. Cav-1 knockout mice had smaller injury volumes, milder neurologic deficits, less brain edema, and neuronal death 1 day after ICH than wild-type mice. The protective mechanism in Cav-1 knockout mice was associated with marked reduction in leukocyte infiltration, decreased expression of inflammatory mediators, including macrophage inflammatory protein (MIP)-2 and cyclooxygenase (COX)-2, and reduced matrix metalloproteinase-9 activity. Deletion of Cav-1 also suppressed heme oxygenase-1 expression and attenuated reactive oxygen species production after ICH. Moreover, deletion or knockdown of Cav-1 decreased neuronal vulnerability to hemin-induced toxicity and reduced heme oxygenase (HO)-1 induction in vitro. These data suggest that Cav-1 plays a deleterious role in early brain injury after ICH. Inhibition of Cav-1 may provide a novel therapeutic approach for the treatment of hemorrhagic stroke.

Exceptional human core promoter nucleotide compositions

The proximal promoter sequences contain basic motifs for the expression of the downstream genes. We present genome-scale computational analyses of the 120-bp immediate upstream sequences to the +1 transcription start sites (TSSs) of 10,117 human protein-coding genes, and unravel exceptional genes in respect with the core promoter nucleotide composition. Our data reveal that while in 99% of the genes the absolute purine/pyrimidine ratio ranges between 0.2 and 2.5, certain genes show exceptional skew in this balance (e.g. ratios of 82.3 in VWA3A, 61.5 in Sox5, and 24.0 in BRWD3), and consist of islands of purines or pyrimidines. Furthermore, while over 95% of the genes lack more than one short tandem repeat (STR) in their core promoters, certain gene promoters are exceptionally rich in multiple STRs (e.g. eight consecutive STRs in UBE2QL1, and six STRs in GRIA2). We found sequence bias for the majority of those promoters across species, supporting functional roles for them in gene expression. Genes downstream to those promoters were also found to be of ontologic importance (i.e. we were able to track the majority of those genes to the lower species such as Saccharomyces cerevisiae and Caenorhabditis elegans). The exceptional promoters presented in this study lack the conventional motifs for the TATA, and TATA-less promoters, hence offering novel mechanisms for gene expression. They may also provide potential mechanisms for inter-individual variations in gene expression, and complex traits/disorders.

Novel extreme homozygote haplotypes at the human caveolin 1 gene upstream purine complex in sporadic Alzheimer's disease

Aberrant expression of the caveolin-1 (CAV1) gene is associated with Alzheimer's disease (AD) brain. We have recently reported a polymorphic purine stretch located at between 1.8 and 1.5 kb flanking the CAV1 gene, whose alleles and genotypes are associated with late-onset AD. Extra-short homozygote haplotypes were observed that were present only in the AD cases. Following an independent case/control study, we report alleles at the other extreme of the allele range, haplotypes of which were observed to be homozygous across the region in the AD cases. We propose that there is a window for the length of motifs and haplotypes in the controls. Homozygosity for shorter and longer motifs and haplotypes was linked with AD in our study. Our findings elucidate novel predisposing haplotypes at the CAV1 gene purine complex, and confirm the role of this region in the etiopathophysiology of late-onset AD.