V. P. Puzyrev

Association between the 1188 A/C polymorphism in the human IL12B gene and Th1-mediated infectious diseases

gene andtuberculosis and salmonellosis in Russians. Both case-control and family-based association studies data suggestthat this gene variant is a risk factor of common suscepti-bility to infection due to intracellular bacteria.Interleukin-12 (IL-12) is the key cytokine of Th1-mediated immunity in humans. It is secreted by antigen-presenting dendritic cells and phagocytes and activatesCD4+ T cells to differentiate to Th1, IFN- γ-secreting cells,associated with cellular immune responses. IL-12 plays acrucial role in immunity to intracellular bacteria, such as

Alu Repeats in the Human Genome

Highly repetitive DNA sequences account for more than 50% of the human genome. The L1 and Alu families harbor the most common mammalian long and short interspersed elements. An Alu element is a dimer of similar, but not identical, fragments of total size about 300 bp, and originates from the 7SL RNA gene. Each element contains a bipartite promoter for RNA polymerase III, a poly(A) tract located between the monomers, a 3-terminal poly(A) tract, and numerous CpG islands, and is flanked by short direct repeats. Alu repeats constitute more than 10% of the human genome and are capable of retroposition. Possibly, these elements played an important part in genome evolution. Insertion of an Alu element into a functionally important genome region or other Alu-dependent alterations of gene functions cause various hereditary disorders and are probably associated with carcinogenesis. In total, 14 Alu families differing in diagnostic mutations are known. Some of these, which are present in the human genome, are polymorphic and relatively recently have been inserted into new loci. Alu copies transposed during ethnic divergence of the human population are useful markers for evolutionary genetic studies.

Association of polymorphisms in the human IL4 and IL5 genes with atopic bronchial asthma and severity of the disease

Two polymorphisms in the IL4 (G/C 3′-UTR) and IL5 (C-703T) genes were studied in a sample of families whose probands had atopic bronchial asthma (BA) (66 families, n = 183) and in a group of non-cognate individuals with the severe form of the disease (n = 34). The samples were collected from the Russian population in the city of Tomsk (Russia). Using the transmission/disequilibrium test (TDT), a significant association of allele C-703 IL5 with BA was established (TDT = 4.923, p = 0.007 ± 0.0007). The analysis of 40 individuals with mild asthma and 49 patients with the severe form of the disease revealed a negative association of genotype GG IL4 (OR = 0.39, 95% CI = 0.15−0.99, p = 0.035), and also a trend towards a positive association of the GC IL4 genotype (OR = 2.52, 95% CI = 0.98−6.57, p = 0.052) with mild BA. There was a concordance of the clinical classification of BA severity with the ‘genotype’ (McNemar’s χ2 test with continuity correction constituted 0.03, d.f. = 1, p = 0.859). These results suggest that polymorphisms in the IL4 and IL5 genes contribute to the susceptibility to atopic BA and could determine the clinical course of the disease.

Methylation profiling of DNA in the area of atherosclerotic plaque in humans

Mutation theory of atherogenesis proved by “loss of heterozygosity” and microsatellite instability in the area of atherosclerotic plaques is complemented by data on epigenetic variability of genetic loci involved in the pathologic process. However, only recently large-scale analysis of epigenetic modifications in the human genome became possible. For the first time, the quantitative microarray-based methylation profiling of 1505 CpG-sites in 807 genes was performed in atherosclerotic plaques of aorta and carotid artery from humans using the GoldenGate Methylation Cancer Panel I (Illumina, United States). One hundred and three (7%) CpG-sites in 90 (11%) genes were differentially methylated between tissue samples. The most pronounced differences in DNA methylation levels were registered for a site located in CpG-island of the imprinted gene H19. By comparing 90 genes that were differentially methylated between tissue samples in our study, 10 genes (ICAM1, GSTM1, IGFBP1, POMC, APOA1, IL1RN, INS, LTA, MMP3, THBS2) were overlapped with data in the Human Genome Epidemiology Network (HuGENet), in which they were identified as candidates for cardiovascular disease continuum.

Evolutionary ontogenetic aspects of pathogenetics of chronic human diseases

This article is a review of scientific publications, in which issues of pathogenetics of multifactorial diseases (MFDs) are considered from the viewpoint of evolution and ontogeny. Concepts explaining significance of evolutionary processes in the formation of genetic architecture of human chronic diseases (“thrifty” genomes and phenotypes, “drifty genes,” decanalization) are analyzed. The roles of natural selection and genetic drift in the formation of hereditary diversity of genes for susceptibility to MFDs are considered. The modern concept of “disease ontogeny” (somatic mosaicism, loss of heterozygosity, paradominant inheritance, epigenetic variability) is discussed. It is demonstrated that the evolutionary and ontogenetic approaches to analysis of genimuc and other “-omic” data are essential for understanding the biology of diseases.

Genome-wide association study of allergic diseases in Russians of West Siberia

Genome-wide association studies are currently considered as one of the most powerful tools for establishing the genetic basis of complex diseases. A number of such studies have been carried out for allergic diseases; however, in the Russian population, this analysis has not been performed so far. For the first time, we performed a genome-wide association study of allergic diseases in Russian residents of West Siberia. Two new loci associated with childhood bronchial asthma (20q13.12, rs2425656, P = 1.99 × 10−7; 1q32.1, rs3817222, rs12734001, P = 2.18 × 10−7 and 2.79 × 10−7, respectively) as well as one locus associated with allergic rhinitis (2q36.1, rs1597167, P = 3.69 × 10−7) were identified. Genes located in these loci, YWHAB and PPP1R12B for asthma and KCNE4 for allergic rhinitis, are suggested as new candidate genes for these diseases. It was also found that BAT1 (6p21.33), MAGI2 (7q21.11), and ACPL2 (3q23) are probably common (syntropic) genes of allergic disease and atopic sensitization. It was shown that RIT2 (18q12.3) and FSTL4 (5q31.1) genes can be involved in the control of lung function. The results of the study contribute to the body of data on genetic factors of allergy and expand the list of genes underlying these diseases.

Opisthorchis felineus liver fluke invasion is an environmental factor modifying genetic risk of atopic bronchial asthma

According to epidemiological observations, Opisthorchis felineus liver fluke invasion is negatively associated with the development and severity of allergic diseases in endemic regions of Russia. We hypothesized that the invasion is an important factor in gene-environmental interactions (GEI) underlying allergy. To prove this, we tested 10 single nucleotide polymorphisms of immune response modifying genes in 428 individuals stratified by atopic bronchial asthma presence and O. felineus invasion. Using regression models, a statistically significant interaction between the rs6737848 polymorphism of SOCS5 gene and O. felineus invasion was observed (pint=0.001, OR=5.66, 95% CI 1.96-16.31 for dominant model; pint=0.003; OR=4.38, 95% CI 1.68-11.45 for additive model). The interaction is based on the statistically significant association between the SOCS5 gene and atopic bronchial asthma in patients without O. felineus infection, while no such association is seen in patients infected by the helminth. These data confirm for the first time the importance of the helminth invasion as an environmental factor influencing the association between genetic factors and atopic bronchial asthma. In particular, O. felineus diminishes the risk of atopic bronchial asthma associated with the SOCS5 gene polymorphism.

DNA methylation profiling of the vascular tissues in the setting of atherosclerosis

Currently, the question of epigenetic mechanisms of gene regulation in the context of cardiovascular diseases is of considerable interest. Here, DNA methylation profiles of vascular tissues of atherosclerotic patients have been analyzed for the first time using the Infinium Human Methylation27 BeadChip microarray (Illumina, United States). As the result, within 286 genes, 314 CpG sites that varied significantly in the level of DNA methylation between the tissue samples of carotid (in the area of atherosclerotic plaques and nearby macroscopically intact tissues of the vascular wall) and mammary arteries, as well as saphenous veins have been identified. The most pronounced differences in the methylation level was registered for CpG sites of homeobox genes HOXA2 and HOXD4, as well as the imprinted MEST gene. In particular, these genes were found to be hypomethylated in the carotid atherosclerotic plaques compared to their methylation patterns in intact tissues of internal mammary arteries and saphenous veins.

Mutations in genes underlying atypical familial mycobacteriosis are not found in tuberculosis patients from Siberian populations

OBJECTIVESnAtypical familial mycobacteriosis (AFM, OMIM #209950) is caused by mutations in genes regulating IL12/IFNG pathway. Some of the mutations exhibit incomplete penetrance, and they have been proposed to be involved in the common (polygenic) predisposition to tuberculosis (TB). We set out to test this hypothesis in two populations from Siberian region of Russia with high prevalence of TB.nnnMATERIAL AND METHODSnThe prevalence of twelve mutations in IL12/IFNG pathway genes of were analysed in 331 Russians and 238 Tuvinians TB patients and in 279 healthy Russians and 265 healthy Tuvinians. A screening for new mutations and rare polymorphisms was carried out in 10 children with severe generalized TB and severe BCG-vaccine complications using Sangers bidirectional sequencing.nnnRESULTSnTwelve mutations most commonly identified in AFM patients appeared to be wild-type monomorphic in the studied groups. No new mutations or rare polymorphisms were identified by sequencing. However, 15 common single nucleotide polymorphisms were found, none of which was associated with TB after correction for multiple testing.nnnCONCLUSIONnThe results of the study contradict with a hypothesis that mutations underlying AFM syndrome are involved in the predisposition to TB.

Somatic genome variations in vascular tissues and peripheral blood leukocytes in patients with atherosclerosis

The first data on the existence of multiple genomic rearrangements, such as copy number variation (CNV) and copy neutral loss of heterozygosity, in vascular tissues and peripheral blood leukocytes from patients with atherosclerosis, are presented. Compared to internal mammary arteries and peripheral blood leukocytes, right coronary arteries in the atherosclerotic plaque area presented with a higher CNV length and number of genes located in their vicinity. In each of the patients, 6–16% of CNVs were common to the three types of tissues examined. Therefore, most of the copy number variations in the tissues affected by atherosclerosis (from 68 to 91% in each of the patients) were of somatic origin. The gains in 3p21.31 (CACNA2D2), 7q32.1 (FLNC), 19p13.3 (C19orf29, PIP5K1C), and 21q22.3 (COL6A1) were detected in vascular tissues but not in peripheral blood leukocytes. Moreover, the gain in 7p15.2 (SKAP2), detected in the patients with atherosclerosis, did not overlap with any CNV regions currently reported in The Database of Genomic Variants. The loss of heterozygosity in 12 out of 13 chromosomal regions was copy neutral and covered tumor suppressor genes (SFRP1, CEBPD, RB1CC1, DIRAS3, TUSC3, and ZDHHC2).