Aida G. Romaschenko

Association of single nucleotide polymorphism rs3775291 in the coding region of the TLR3 gene with predisposition to tick-borne encephalitis in a Russian population.

Tick-borne encephalitis (TBE) is a central nervous system (CNS) disease caused by the neurotropic, positive-sense RNA virus, tick-borne encephalitis virus (TBEV). A possible association between predisposition to TBE in a Russian population and two polymorphisms, a 32bp deletion in the coding region of the chemokine receptor CCR5 gene and the rs3775291 single nucleotide polymorphism (SNP) (G/A, Leu412Phe) in exon 4 of the toll-like receptor TLR3 gene, was investigated. The genotypic and allelic frequencies of these polymorphisms were analyzed in 137 non-immunized TBE patients with different clinical manifestations, including fever (35), meningitis (62), and severe CNS disease (40), as well as in a control population (269 randomly selected Novosibirsk citizens). The frequencies of the TLR3 G allele and G/G homozygotes were significantly higher among the patients with TBE compared with the control group (P=0.029 and 0.037, respectively), especially among patients with severe disease (P=0.018 and 0.017, respectively). These results indicate that the G allele (within the G/G homozygous genotype) of the TLR3 rs3775291 SNP is associated with predisposition to TBE in the Russian population.

Distribution of CCR5-delta 32 gene deletion across the Russian part of Eurasia.

Abstract 32-bp inactivating deletion in the β-chemokine receptor 5 (CCR5) gene, common in Nothern European populations, is associated with reduced HIV-1 transmission risk and delayed disease progression. We have studied the deletion distribution in many populations in Eurasia by polymerase chain reaction analysis of 531 DNA samples representing West and East Siberian, Central Asian, and Far Eastern parts of Russia. An unusually high frequency (11.1%) of the deleted variant in natives of West Siberia, of Finno-Ugrian descent, was observed. Furthermore, the deletion was infrequent in indigenous populations of Central Asia, East Siberia, the Russian Far East, and Canada. We conclude that the Δccr5 distribution is limited primarily to Europeans and related western Siberian Finno-Ugrian populations, with a sharp negative gradient toward the east along the territory of Russian Asia.

CCL5/RANTES Gene Polymorphisms in Slavonic Patients with Myocardial Infarction

Coronary artery inflammation is a critical process in the pathogenesis of myocardial infarction (MI). The chemokine CCL5/RANTES (regulated upon activation, normal T cells expressed and secreted) is expressed in advanced atherosclerotic lesions. Functional polymorphisms of the RANTES gene can, therefore, be involved in the pathogenesis of coronary artery disease. We examined the association of polymorphisms in the RANTES gene with myocardial infarction in Slavonic populations of Czech and Russian origin. A total of 467 post-MI patients and 337 control subjects were genotyped for RANTES promoter G-403A (rs2107538) and intron 1.1 T/C (rs2280789) variants by PCR-SSP. Both RANTES genotypes and allele frequencies did not differ between case and control groups. Haplotype-based analysis also failed to reveal an association between MI and investigated markers. Strong linkage disequilibrium was detected between particular RANTES alleles. The data do not support an association between RANTES G-403A polymorphism and MI, as reported previously.

Polymorphism of the HFE Gene Associated with Hereditary Hemochromatosis in Populations of Russia

The incidence of hereditary hemochromatosis as well as the predisposition to the iron overload syndrome and sporadic porphyria cutanea tarda are currently believed to be associated with the inheritance of certain allelic variants of the HFE gene. Allele frequencies of the C282Y (845A) and H63D(187G) mutations in theHFE gene in human populations of different races are remarkably different, and the prevalence of the S65C (193T) mutation is still poorly studied. In the present study we estimated allele frequencies ofHFE mutations in Russians and in a number of Siberian ethnic indigenous populations. In Russians, the allele frequencies of the C282Y, H63D andS65C mutations were 3.7, 13.3 and 1.7%, respectively. These values were similar to those observed in populations of Europe. The C282Y mutation was not detected in the population samples of Siberian ethnic groups, including Mansis, Khantys (Finno-Ugric group), Altaians, and Nivkhs (Asians), suggesting that the frequency of this allele in the populations examined was lower than 1%. The frequency of the C282Y allele in the Tuvinian and Chukchi samples (Asians) constituted 0.45 and 0.8%, respectively. Furthermore, pedigree analysis of both identified Chukchi carriers discovered showed that some of their ancestors were from other ethnic groups. Low frequencies of this allelic variant were typical of many Eastern Asian populations, which were also characterized by rather low frequencies of the H63D variant. In contrast, in some ethnic groups of Western Siberia, the allelic frequency of the H63D mutation was rather high, constituting 8.5% in Altaians, 15.5% in Mansis, and 11.3% in Khantys. The frequency of this allele in Tuvinians, Nivkhs, and Chukchis constituted 5.0, 4.7, and 0.8%, respectively. These findings made it possible to estimate the proportion of individuals predisposed to the iron overload syndrome in different Russian ethnic groups. TheHFE allele frequency distribution patterns observed in the populations examined pointed to pre-Celtic appearance of the C282Y allele. It also provides an explanation of the evolutionary genetic relationships between Siberian ethnic groups and the contemporary populations of Eastern and Western Europe.

Association of IL28B and IL10 gene polymorphism with predisposition to tick-borne encephalitis in a Russian population

Genetic predisposition to tick-borne encephalitis (TBE) is rather poorly studied in human populations. Human genes encoding crucial components of antiviral immune response are most likely involved in protective mechanisms against TBE virus. Previously, several single nucleotide polymorphisms (SNPs) located in interleukin 28B (IL28B) and interleukin 10 (IL10) genes were associated with predisposition to chronic hepatitis C (caused by a structurally similar virus from the same Flaviviridae family) in a number of human populations. The aim of the present study was to estimate a possible association of the IL28B gene rs8103142 and rs12980275 SNPs and IL10 gene rs1800872, rs3021094, and rs3024498 SNPs with predisposition to TBE in a Russian population. Genotypic and allelic frequencies for these SNPs were analyzed in 132 non-immunized TBE patients (34 with fever, 60 with meningitis, and 38 with severe central nervous system disease) and compared with the population control (221 Novosibirsk citizens). The results obtained suggest that both studied IL28B gene SNPs, as well as the IL10 gene rs1800872 SNP are associated with predisposition to TBE in Russian population.

Human migrations in the southern region of the West Siberian Plain during the Bronze Age: Archaeological, palaeogenetic and anthropological data

In this paper we present archaeological and anthropological data on human migrations in the Western Siberian foreststeppe region during the Bronze Age (4th–beginning of 1st millennium BC). These data, accumulated over forty years of intensive research in the region, are compared to new results showing the diversity of mitochondrial DNA (mtDNA) lineages in this region during that period (92 mtDNA samples from seven ancient human groups). Preliminary analyses have demonstrated the usefulness of ancient DNA in tracing and unravelling patterns of past human migrations.

Haplotype diversity in mtDNA and Y-chromosome in populations of Altai-Sayan region

Polymorphism of mtDNA was examined in five ethnic populations that belong to the Turkic language group and inhabit the territory of the Altai-Sayan upland (N = 1007). Most of the haplogroups identified in the examined populations belonged to East Eurasian lineages. In all five populations, only three haplogroups, C, D, and F, were prevailing. The frequencies of the other six haplogroups (A, B, G, M, Y, and Z) varied in the range from 1.1 to 6.5%. Among West Eurasian haplogrous, the most common were haplogroups H, J, T, and U. An analysis of Y-chromosome haplogroups in 407 individuals showed that only two haplogroups, N* and R1a1, were present in all five populations examined. Moreover, in different ethnic groups, the highest frequencies were observed for C-M130, N-P43, and N-Tat haplogroups. The differences in the distribution patterns of ancient West Eurasian and East Eurasian haplotypes from Gorny Altai in the present-day populations from the northern part of Eurasia revealed can be explained in terms of the multistage expansion of humans across these territories. The ubiquity of haplotypes from haplogroup H and cluster U across the wide territory from the Yenisei River basin to the Atlantic Ocean can indicate directional human expansion, which most likely occurred out of Central Asia as early as in the Paleolithic era, and took place in several waves with the glacier retreat.

Concerted changes in the nucleotide sequences of the intragenic promoter regions of eukaryotic genes for tRNAs of all specificities.

RNA polymerase III promoter is located within the coding region in all eukaryotic tRNA genes, whereas in prokaryotic tRNA genes, the promoter is located upstream of the transcription initiation site. We analyzed the nucleotide sequence context of the A and B boxes of RNA polymerase III promoters from different unicellular eukaryotes, plants, and animals and the homologous sequences in the tRNA genes of prokaryotic species (Archaea, Eubacteria). The long and short sequence variants of the A box are nonrandomly distributed across different types of the eukaryotic tRNA genes. In contrast, the sequences from the prokaryotic counterparts of the long and short variants are randomly scattered among prokaryotic tRNA genes. The sequence diversity of the 3′ portion of the A box in the eukaryotic tRNA genes was sharply reduced compared to that of the homologous segments of the prokaryotic tRNA genes. Analysis of the frequencies of oligonucleotide variants from different parts of the A box suggested that the prominent changes in the structure of the A box occurred at about the same time in all tRNA genes during the prokaryote–eukaryote evolutionary transition.

MtDNA Haplogroup A10 Lineages in Bronze Age Samples Suggest That Ancient Autochthonous Human Groups Contributed to the Specificity of the Indigenous West Siberian Population

Background The craniometric specificity of the indigenous West Siberian human populations cannot be completely explained by the genetic interactions of the western and eastern Eurasian groups recorded in the archaeology of the area from the beginning of the 2nd millennium BC. Anthropologists have proposed another probable explanation: contribution to the genetic structure of West Siberian indigenous populations by ancient human groups, which separated from western and eastern Eurasian populations before the final formation of their phenotypic and genetic features and evolved independently in the region over a long period of time. This hypothesis remains untested. From the genetic point of view, it could be confirmed by the presence in the gene pool of indigenous populations of autochthonous components that evolved in the region over long time periods. The detection of such components, particularly in the mtDNA gene pool, is crucial for further clarification of early regional genetic history. Results and Conclusion We present the results of analysis of mtDNA samples (n = 10) belonging to the A10 haplogroup, from Bronze Age populations of West Siberian forest-steppe (V—I millennium BC), that were identified in a screening study of a large diachronic sample (n = 96). A10 lineages, which are very rare in modern Eurasian populations, were found in all the Bronze Age groups under study. Data on the A10 lineages’ phylogeny and phylogeography in ancient West Siberian and modern Eurasian populations suggest that A10 haplogroup underwent a long-term evolution in West Siberia or arose there autochthonously; thus, the presence of A10 lineages indicates the possible contribution of early autochthonous human groups to the genetic specificity of modern populations, in addition to contributions of later interactions of western and eastern Eurasian populations.

Association between polymorphisms in OAS2 and CD209 genes and predisposition to chronic hepatitis C in Russian population.

Chronic hepatitis C is a severe liver disease caused by positive-strand RNA virus. Previously, we reported an association between seven single nucleotide polymorphisms (SNPs) in four innate immunity genes (OAS2, OAS3, CD209, and TLR3) and human predisposition to tick-borne encephalitis, caused by a virus from the same Flaviviridae family, in a Russian population. Currently, genotype and allele frequencies for these SNPs were analyzed in 75 chronic hepatitis C patients and compared with the population control (269 Novosibirsk citizens). Data obtained suggest that the OAS2 rs1293762 and CD209 rs2287886 SNPs are associated with predisposition to chronic hepatitis C in Russian population.