Violeta Popendikyte scite author profile

The goal of this pilot study was to explore the putative molecular mechanisms underlying the phenotypic discordance of monozygotic (MZ) twins. Thus, patterns of epigenetic DNA modification were investigated in the 5'-regulatory region of the dopamine D2 receptor gene (DRD2) in two pairs of monozygotic twins, one concordant and one discordant for schizophrenia. The bisulfite DNA modification-based approach was used to fine-map methylated cytosines in DRD2 in genomic DNA extracted from lymphocytes. Numerous DNA methylation differences were identified in the analyzed region both within and between the pairs of MZ twins. "Epigenetic distances" between MZ twins were calculated and used for the comparison of twin DRD2 methylation profiles. It was detected that the affected twin from the pair discordant for schizophrenia was epigenetically "closer" to the affected concordant twins than to his unaffected MZ co-twin. Although the epigenetic analysis was conducted for only several hundred base pairs of DRD2, the fact that numerous studies identified nonuniform methylation patterns across the clones of bisulfite-modified DNA from the same individual, as well as nonuniform patterns across different individuals, argues for the universality of intra- and interindividual epigenetic variation. Epigenetic studies should provide insight into the molecular causes of differential susceptibility to a disease in genetically identical organisms that may generalize to singletons.

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Intra- and Interindividual Epigenetic Variation in Human Germ Cells

Flanagan

Popendikyte²,

Pozdniakovaite³

et al. 2006

The American Journal of Human Genetics

219

145

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Epigenetics represents a secondary inheritance system that has been poorly investigated in human biology. The objective of this study was to perform a comprehensive analysis of DNA methylation variation between and within the germlines of normal males. First, methylated cytosines were mapped using bisulphite modification-based sequencing in the promoter regions of the following disease genes: presenilins (PSEN1 and PSEN2), breast cancer (BRCA1 and BRCA2), myotonic dystrophy (DM1), and Huntington disease (HD). Major epigenetic variation was detected within samples, since the majority of sperm cells of the same individual exhibited unique DNA methylation profiles. In the interindividual analysis, 41 of 61 pairwise comparisons revealed distinct DNA methylation profiles (P=.036 to 6.8 x 10(-14)). Second, a microarray-based epigenetic profiling of the same sperm samples was performed using a 12,198-feature CpG island microarray. The microarray analysis has identified numerous DNA methylation-variable positions in the germ cell genome. The largest degree of variation was detected within the promoter CpG islands and pericentromeric satellites among the single-copy DNA fragments and repetitive elements, respectively. A number of genes, such as EED, CTNNA2, CALM1, CDH13, and STMN2, exhibited age-related DNA methylation changes. Finally, allele-specific methylation patterns in CDH13 were detected. This study provides evidence for significant epigenetic variability in human germ cells, which warrants further research to determine whether such epigenetic patterns can be efficiently transmitted across generations and what impact inherited epigenetic individuality may have on phenotypic outcomes in health and disease.

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DNA methylation at the putative promoter region of the human dopamine D2 receptor gene

Popendikyte

Laurinavičius²,

Paterson³

et al. 1999

NeuroReport

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DNA methylation was investigated in the putative promoter region of the human dopamine D2 receptor gene (DRD2). Twenty-two DNA samples from two types of cells differentially expressing D2 receptors, striatum and lymphocytes, were subjected to bisulphite modification-based mapping of methylated cytosines. In the tested region, the DNA from lymphocytes exhibited a significantly higher degree of methylation than that from striata. In addition, a significantly higher proportion of methylated to unmethylated cytosines was detected in DRD2 from the right than the left striatum, and a trend towards a greater degree of methylation was detected in older than in younger individuals. These DRD2 methylation findings are consistent with dopamine D2 receptor binding data from the literature which support the idea that DNA methylation plays a role in regulation of DRD2 expression.

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Different DNA methylation pattern of HPV16, HPV18 and HPV51 genomes in asymptomatic HPV infection as compared to cervical neoplasia

et al. 2015

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Epigenetic alterations of human papillomavirus (HPV) genome play an important role in virus life cycle and carcinogenic progression. The aim of the current study was to investigate the correlation between the grade of cervical pathology and DNA methylation status within the L1 gene and the long control region (LCR) of HPV16, HPV18 and HPV51. HPV genomes were analyzed using bisulfite DNA modification procedure with the subsequent amplification of target DNA regions and sequencing. A collection of 202 cervical specimens was analyzed: 157 HPV16-positive specimens, 21 HPV18-positive specimens and 24 HPV51-positive specimens. This study revealed that methylation of CpG was significantly more prevalent in L1 gene as compared to LCR region of all three studied HPV types and the degree of DNA methylation level correlated with the severity of cervical neoplasia. An increased DNA methylation level of HPV16 promoter region in case of cervical cancer was determined.

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