S. A. Limborska

Genetic Structure of Europeans: A View from the North–East

Using principal component (PC) analysis, we studied the genetic constitution of 3,112 individuals from Europe as portrayed by more than 270,000 single nucleotide polymorphisms (SNPs) genotyped with the Illumina Infinium platform. In cohorts where the sample size was >100, one hundred randomly chosen samples were used for analysis to minimize the sample size effect, resulting in a total of 1,564 samples. This analysis revealed that the genetic structure of the European population correlates closely with geography. The first two PCs highlight the genetic diversity corresponding to the northwest to southeast gradient and position the populations according to their approximate geographic origin. The resulting genetic map forms a triangular structure with a) Finland, b) the Baltic region, Poland and Western Russia, and c) Italy as its vertexes, and with d) Central- and Western Europe in its centre. Inter- and intra- population genetic differences were quantified by the inflation factor lambda (λ) (ranging from 1.00 to 4.21), fixation index (Fst) (ranging from 0.000 to 0.023), and by the number of markers exhibiting significant allele frequency differences in pair-wise population comparisons. The estimated lambda was used to assess the real diminishing impact to association statistics when two distinct populations are merged directly in an analysis. When the PC analysis was confined to the 1,019 Estonian individuals (0.1% of the Estonian population), a fine structure emerged that correlated with the geography of individual counties. With at least two cohorts available from several countries, genetic substructures were investigated in Czech, Finnish, German, Estonian and Italian populations. Together with previously published data, our results allow the creation of a comprehensive European genetic map that will greatly facilitate inter-population genetic studies including genome wide association studies (GWAS).

M13 phage DNA as a universal marker for DNA fingerprinting of animals, plants and microorganisms

Hypervariable polymorphic patterns were detected with M13 phage DNA as a probe in genomic DNA of organisms belonging to different taxonomic groups including animals (vertebrates and invertebrates), plants and microorganisms. Individual‐specific restriction pattern analysis (DNA fingerprinting) with this probe proved to be useful for individual identification, analysis of somatic stability and paternity testing in man. The nuclear type of inheritance indicates that the hypervariable DNA regions in question are located in the chromosomes, not in the mitochondrial DNA. The data obtained also demonstrate a potential range of M13 DNA applications as a probe for DNA fingerprinting of animals, plants and microorganisms, particularly for the determination of inbred lines, identification of bacterial strains and establishing stock, variety and strain distinctions.

Genetic polymorphisms and the efficacy and toxicity of cisplatin-based chemotherapy in ovarian cancer patients.

Platinum drugs are among the most active and widely used agents in the treatment of different cancers. However, the great individual variability in both outcome and toxicity of platinum chemotherapy requires the identification of genetic markers that can be used to screen patients before treatment. In this study, 21 polymorphisms in 10 genes, the protein activities of which may be addressed in different aspects of cisplatin metabolism, were tested for correlations with efficacy and toxicity of cisplatin–cyclophosphamide regimen in 104 ovarian cancer patients. The glutathione S-transferase P1 (GSTP1) Ile105Val polymorphism was strongly associated with progression-free survival (χ2=12.12, P=0.002). The allelic status of the GSTA1 –69 C>T polymorphism correlated with the overall survival: patients with T/T genotype survived longer than C/C carriers (P=0.044). Thrombocytopenia, anemia and neuropathy were less frequent among patients with the GSTM1-null or GSTM3 intron 6 AGG/AGG genotypes. Severe neutropenia was associated with the TP53 72 Pro/Pro, XPD 312 Asp/Asn and XRCC1 399 Arg/Arg genotypes. A higher risk of nephrotoxicity was noted for patients with the heterozygous ERCC1 19007 T/C and 8092 C/A genotypes. No correlations were found between genotypes and complete tumor responses.

Y-Chromosome distribution within the geo-linguistic landscape of northwestern Russia

Populations of northeastern Europe and the Uralic mountain range are found in close geographic proximity, but they have been subject to different demographic histories. The current study attempts to better understand the genetic paternal relationships of ethnic groups residing in these regions. We have performed high-resolution haplotyping of 236 Y-chromosomes from populations in northwestern Russia and the Uralic mountains, and compared them to relevant previously published data. Haplotype variation and age estimation analyses using 15 Y-STR loci were conducted for samples within the N1b, N1c1 and R1a1 single-nucleotide polymorphism backgrounds. Our results suggest that although most genetic relationships throughout Eurasia are dependent on geographic proximity, members of the Uralic and Slavic linguistic families and subfamilies, yield significant correlations at both levels of comparison making it difficult to denote either linguistics or geographic proximity as the basis for their genetic substrata. Expansion times for haplogroup R1a1 date approximately to 18 000 YBP, and age estimates along with Network topology of populations found at opposite poles of its range (Eastern Europe and South Asia) indicate that two separate haplotypic foci exist within this haplogroup. Data based on haplogroup N1b challenge earlier findings and suggest that the mutation may have occurred in the Uralic range rather than in Siberia and much earlier than has been proposed (12.9±4.1 instead of 5.2±2.7 kya). In addition, age and variance estimates for haplogroup N1c1 suggest that populations from the western Urals may have been genetically influenced by a dispersal from northeastern Europe (eg, eastern Slavs) rather than the converse.

MOLECULAR MECHANISMS OF PATHOGENESIS OF PARKINSON'S DISEASE

Parkinsons disease is a complex disease characterized by a progressive degeneration of nigrostriatal dopaminergic neurons. The development of this condition is defined by the interaction between the genetic constitution of an organism and environmental factors. Analysis of the genes associated with development of monogenic forms of disease has allowed pointing out several mechanisms involved in Parkinsons disease pathogenesis such as the ubiquitin-proteasome degradation, differentiation of dopaminergic neurons, mitochondrial dysfunction, oxidative damage, and others. In this review, a variety of data which throw light on molecular mechanisms underlying pathogenesis of Parkinsons disease will be considered.

Genetic characterization of northeastern Italian population isolates in the context of broader European genetic diversity

Population genetic studies on European populations have highlighted Italy as one of genetically most diverse regions. This is possibly due to the country’s complex demographic history and large variability in terrain throughout the territory. This is the reason why Italy is enriched for population isolates, Sardinia being the best-known example. As the population isolates have a great potential in disease-causing genetic variants identification, we aimed to genetically characterize a region from northeastern Italy, which is known for isolated communities. Total of 1310 samples, collected from six geographically isolated villages, were genotyped at >145 000 single-nucleotide polymorphism positions. Newly genotyped data were analyzed jointly with the available genome-wide data sets of individuals of European descent, including several population isolates. Despite the linguistic differences and geographical isolation the village populations still show the greatest genetic similarity to other Italian samples. The genetic isolation and small effective population size of the village populations is manifested by higher levels of genomic homozygosity and elevated linkage disequilibrium. These estimates become even more striking when the detected substructure is taken into account. The observed level of genetic isolation in Friuli-Venezia Giulia region is more extreme according to several measures of isolation compared with Sardinians, French Basques and northern Finns, thus proving the status of an isolate.

Effective quantitative real-time polymerase chain reaction analysis of the parkin gene ( PARK2 ) exon 1–12 dosage

BackgroundOne of the causes of Parkinsons disease is mutations in the PARK2 gene. Deletions and duplications of single exons or exon groups account for a large proportion of the gene mutations. Direct detection of these mutations can be used for the diagnosis of Parkinsons disease.MethodsTo detect these mutations, we developed an effective technique based on the real-time TaqMan PCR system, which allows us to evaluate the copynumbers of the PARK2 gene exons by comparing the intensity of the amplification signals from some exon of this gene with that of the β-globin gene (the internal control).ResultsWe analyzed rearrangements in exons 1–12 of the PARK2 gene in 64 patients from Russia with early-onset Parkinsons disease. The frequency of these mutations in our patients was 14%.ConclusionWe have developed a simple, accurate, and reproducible method applicable to the rapid detection of exon rearrangements in the PARK2 gene. It is suitable for the analysis of large patient groups, and it may become the basis for a diagnostic test.

A common 3‐bp deletion in the DYT1 gene in Russian families with early‐onset torsion dystonia

Hereditary torsion dystonia represent a clinically and genetically heterogeneous group of movement disorders. The most severe and frequent form of hereditary torsion dystonia is early‐onset generalized dystonia, DYT1. The DYT1 gene (Ozelius et al., 1997) encodes an ATP‐binding protein torsin A. A unique 3‐bp deletion (GAG) was found in the heterozygous state in almost all patients with early‐onset dystonia from different populations. We observed 39 patients with early‐onset generalized torsion dystonia belonging to 22 families from Russia. Seven families were of Ashkenazi Jewish (AJ) ethnic background, and other patients originated from the Slavonic population of Russia. The GAG deletion was identified in 24 affected persons from 15 families (68.2% of the families studied). In all the 7 families of AJ origin the disease was found to be caused by the deletion. In Slavs, the deletion was identified in 8 of 15 families (53%). In two deletion‐positive families we observed the co‐occurrence of typical early‐onset generalized dystonia and atypical phenotypes‐either isolated postural hand tremor or stutter. Hum Mutat 14:269, 1999.

High incidence of 550delA mutation of CAPN3 in LGMD2 patients from Russia

Autosomal recessive limb gird muscular dystrophy (LGMD2) is a clinically and genetically heterogeneous group of diseases that are characterized by progressive atrophy and weakness of the proximal limb muscles. At least eight genetic loci leading to LGMD2 are recognized. The proportion of particular gene involved in producing different forms of LGMD2 shows a marked geographical variation. We studied 19 LGMD2 patients from Russia (15 families) and found calpain 3 (CAPN3) gene mutations in most of the patients studied. Sequence analysis of the fourth exons revealed two sibs – heterozygous compound for a 15‐bp deletion (nt598‐612) and 550 adenine deletion, and two sibs homozygous for a 550delA. We developed assay based on allele specific amplification (ASA) for rapid screening of the 550delA. The ASA assay of the LGMD2 patients under study showed that 7 patients from 6 families were homozygous for 550delA and 7 patients from 4 families were heterozygous for 550delA. A linkage analysis employing four microsatellites flanking the LGMD2A locus was performed. We found complete haplotype identity in most cases what favors the possibility of a common founder. Heterozygous carriers of 550delA were found in general population. The crude estimate of the mutation frequency is 1/150. Hum Mutat 15:295, 2000.

Sporadic ALS associated with the D90A Cu,Zn superoxide dismutase mutation in Russia.

Twenty blood samples from Russian patients (Moscow) with idiopathic motor neurone disease were analysed for mutations in the Cu,Zn superoxide dismutase (Cu,Zn SOD) gene. Two patients (10%) with the amyotrophic lateral sclerosis (ALS) form of the disease were found to have a disease‐related mutation. One patient appears to have autosomal recessive adult‐onset ALS associated with homozygosity for D90A and presents the characteristic phenotype of very slowly ascending paresis with both lower and upper motor neurone signs. Another patient, heterozygous for D90A, presents ALS with lumbar onset and rapid progression. This is the first report of a Cu,Zn SOD mutation in ALS in Russia.