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2020

Golubenko M., Mikhailov V., Rusinova V., Shestak A., Zaklyazminskaya E.
Biomedical Reports. 2020. 13(3), 16.
DOI: 10.3892/br.2020.1324

Brugada syndrome (BrS) is an inherited disorder characterized by specific ST segment elevation in the right precordial leads, pseudo right bundle branch block, and a high risk of sudden cardiac death due to ventricular tachycardia. It was initially described as a monogenic disorder with an autosomal dominant mode of inheritance. It is hypothesized that modifying genetic factors, in addition to disease-causing mutations, may significantly contribute to the clinical symptoms and the risk of sudden cardiac death. These modifying factors can include mitochondrial DNA (mtDNA) variants. In particular, combination of mtDNA m.T4216C, m.A11251G, m.C15452A and m.T16126C variants (defining haplogroups T and J), is considered to be a factor that promotes manifestation of BrS manifestation, with no pro-arrhythmic effects. The aim of the present study was to confirm the reported association of BrS with MtDNA variants in a cohort of Russian patients. mtDNA haplogroups were genotyped in 47 Russian BrS probands and the prevalence of common mtDNA haplogroups was compared with the general population in European part of Russia. The distribution and prevalence of all but the J mtDNA haplogroups were comparable in BrS probands and the general Russian population. The mitochondrial J haplogroup was not found in the BrS cohort. In conclusion, it was shown that the mtDNA polymorphism, m.T4216C (haplogroups J and T) does not contribute significantly to the clinical manifestation of BrS in Russian patients.

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Tolmacheva E.N., Kashevarova A.A., Nazarenko L.P., Minaycheva L.I., Skryabin N.A., Lopatkina M.E., Nikitina T.V., Sazhenova E.A., Belyaeva E.O., Fonova E.A., Salyukova O.A., Tarabykin V.S., Lebedev I.N.
Cytogenetic and genome research. 2020. 160(5), 245-254.
DOI: 10.1159/000508050

Chromosomal microdeletion syndromes present with a wide spectrum of clinical phenotypes that depend on the size and gene content of the affected region. In a healthy carrier, epigenetic mechanisms may compensate for the same microdeletion, which may segregate through several generations without any clinical symptoms until the epigenetic modifications no longer function. We report 2 novel cases of Xq24 microdeletions inherited from mothers with extremely skewed X-chromosome inactivation (sXCI). The first case is a boy presenting with X-linked mental retardation, Nascimento type, due to a 168-kb Xq24 microdeletion involving 5 genes (CXorf56, UBE2A, NKRF, SEPT6, and MIR766) inherited from a healthy mother and grandmother with sXCI. In the second family, the presence of a 239-kb Xq24 microdeletion involving 3 additional genes (SLC25A43, SLC25A5-AS1, and SLC25A5) was detected in a woman with sXCI and a history of recurrent pregnancy loss with a maternal family history without reproductive wastages or products of conception. These cases provide evidence that women with an Xq24 microdeletion and sXCI may be at risk for having a child with intellectual disability or for experiencing a pregnancy loss due to the ontogenetic pleiotropy of a chromosomal microdeletion and its incomplete penetrance modified by sXCI.

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Grigor'eva E.V., Malankhanova T.B., Surumbayeva A., Pavlova S.V., Minina J.M., Kizilova E.A., Suldina L.A., Morozova K.N., Kiseleva E., Sorokoumov E.D., Lebedev I.N., Zakian S.M., Malakhova A.A.
Cytotechnology. 2020. 72(5), 649-663.
DOI: 10.1007/s10616-020-00406-7

Cell models are promising tools for studying hereditary human neurodegenerative diseases. Neuronal derivatives of pluripotent stem cells provide the opportunity to investigate different stages of the neurodegeneration process. Therefore, easy and large-scale production of relevant cell types is a crucial barrier to overcome. In this work, we present an alternative protocol for iPSC differentiation into GABAergic medium spiny neurons (MSNs). The first stage involved dual-SMAD signalling inhibition through treatment with SB431542 and LDN193189, which results in the generation of neuroectodermal cells. Moreover, we used bFGF as a neuronal survival factor and dorsomorphin to inhibit BMP signalling. The combined treatment of dorsomorphin and SB431542 significantly enhanced neuronal induction, which was confirmed by the increased expression of the telencephalic-specific markers SOX1 and OTX2 as well as the forebrain marker PAX6. The next stage involved the derivation of actively proliferating MSN progenitor cells. An important feature of our protocol at this stage is the ability to perform prolonged cultivation of precursor cells at a high density without losing phenotypic properties. Moreover, the protocol enables multiple expansion steps (> 180 days cultivation) and cryopreservation of MSN progenitors. Therefore, this method allows quick production of a large number of neurons that are relevant for basic research, large-scale drug screening, and toxicological studies.

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Tereshchenko S.Y., Smolnikova M.V. Freidin M.B.
Immunogenetics. 2020. 72(6-7), 347-354.
DOI: 10.1101/2020.05.31.126672

Mannose-binding lectin (MBL) encoded by MBL2 gene is a protein with the ability to form carbohydrate complexes with microbial wall promoting their subsequent elimination. Genetically determined levels of MBL can modify the risk and clinical characteristics of many infectious diseases. The frequency of MBL2 genotypes exhibits significant population differences. The data on the distribution of MBL2 genotypes among the aborigines of the Russian Arctic territories have not yet been published. A total of 880 specimens of dried blood spots of the newborns were genotyped. The newborns represented four populations: Nenets, Dolgan-Nganasans, Mixed aboriginal population, and Russians (Caucasians, Krasnoyarsk). Six polymorphisms of the MBL2 gene were studied: rs11003125, rs7096206, rs7095891, rs5030737, rs1800450, and rs1800451. The frequency of the combined rare O allele (composed of the coding region variants rs5030737, rs1800450, and rs1800451) in the homozygous state was significantly higher in Russians: 10% vs 2% in Nenets and 1% in Dolgan-Nganosans (p < 0.001 for Russians vs other populations). The frequency of the high-producing haplotype (HYPA) was 35.4% in the Russian newborns, in keeping with European populations (27-33%); 64% for Nenets and 56% for Dolgan-Nganasans, similar to the estimates obtained for Eskimos and North Amerinds (64-81%). Our study results are in line with the hypothesis that human evolution has been moving in the direction of accumulation of the genotypes associated with low activity of the lectin complement activation pathway because of the prevalence of some intracellular infections such as tuberculosis, whereby low MBL activity may have a protective effect.

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Gadsbøll K., Petersen O.B., Gatinois V., Strange H., Jacobsson B., Wapner R, Vermeesch J.R., The NIPT-map Study Group*, Vogel I.
Acta obstetricia et gynecologica scandinavica. 2020. 99(6), 722-730.
DOI: 10.1111/aogs.13841

Noninvasive prenatal testing (NIPT) using cell-free fetal DNA has increasingly been adopted as a screening tool for fetal aneuploidies. Several studies have discussed benefits and limitations of NIPT compared with both ultrasound and invasive procedures, but in spite of some shortcomings NIPT has become extensively used within the last 5 years. This study aims to describe the current use of NIPT in Europe, Australia and the USA.

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Nikitina T.V., Sazhenova E.A., Zhigalina D.I., Tolmacheva E.N., Sukhanova N.N., Lebedev I.N.
Journal of assisted reproduction and genetics. 2020. 37(3), 517-525.
DOI: 10.1007/s10815-020-01703-y

Purpose: To study the contribution of embryo chromosomal abnormalities in primary and secondary recurrent pregnancy loss (RPL) and to analyze the recurrence of chromosomal constitution in miscarriages from the same couple.

Methods: Retrospective study of abortion karyotypes in RPL families based on the mother's primary or secondary RPL status (563 embryo specimens, 335 samples from primary, and 228 samples from secondary RPL). RPL was defined as two or more consecutive miscarriages. One hundred eight cases of recurrent embryo/fetal loss in 51 families were analyzed to assess the probability of having the same karyotype pattern (recurrent normal or recurrent abnormal) in both previous and subsequent pregnancy loss. The karyotypes of abortions were established using standard cytogenetic analysis, as well as interphase fluorescence in situ hybridization (FISH) and comparative genomic hybridization (CGH).

Results: The frequency of aberrations was 43.9% in abortions from primary RPL versus 52.6% in secondary RPL (p = 0.041). Women 35 years of age or older were the main contributors to this difference. The odds ratio of a subsequent abortion having the same karyotype pattern (normal or abnormal) as the previous one was 6.98 (p = 0.0013).

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Kashevarova A.A., Nikitina T.V., Belyaeva E.O., Vasilyev S.A., Lopatkina M.E., Fedotov D.A., Fonova E.A., Mikhailik L.I., Zarubin A.A., Sivtsev A.A., Skryabin N.A., Nazarenko L.P., Lebedev I.N.
Genes. 2020. 11(12), 1473.
DOI: 10.3390/genes1112147

Ring chromosome 8 (r(8)) is one of the least frequent ring chromosomes. Usually, maternal chromosome 8 forms a ring, which can be lost from cells due to mitotic instability. The 8q24 region contains the imprinted KCNK9 gene, which is expressed from the maternal allele. Heterozygous KCNK9 mutations are associated with the imprinting disorder Birk-Barel syndrome. Here, we report a 2.5-year-old boy with developmental delay, microcephaly, dysmorphic features, diffuse muscle hypotonia, feeding problems, motor alalia and noncoarse neurogenic type of disturbance of muscle electrogenesis, partially overlapping with Birk-Barel syndrome phenotype. Cytogenetic analysis of lymphocytes revealed his karyotype to be 46,XY,r(8)(p23q24.3)[27]/45,XY,-8[3]. A de novo 7.9 Mb terminal 8p23.3p23.1 deletion, a 27.1 Mb 8p23.1p11.22 duplication, and a 4.4 Mb intact segment with a normal copy number located between them, as well as a 154-kb maternal LINGO2 gene deletion (9p21.2) with unknown clinical significance were identified by aCGH + SNP array. These aberrations were confirmed by real-time PCR. According to FISH analysis, the 8p23.1-p11.22 duplication was inverted. The ring chromosome originated from maternal chromosome 8. Targeted massive parallel sequencing did not reveal the KCNK9 mutations associated with Birk-Barel syndrome. Our data allow to assume that autosomal monosomy with inactive allele of imprinted gene arising from the loss of a ring chromosome in some somatic cells may be an etiological mechanism of mosaic imprinting disorders, presumably with less severe phenotype.

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Tolmacheva E.N., Vasilyev S. A., Lebedev I.N.
Genes. 2020. 11(9): 1084, 1-21.
DOI: 10.3390/genes11091084

Genome stability is an integral feature of all living organisms. Aneuploidy is the most common cause of fetal death in humans. The timing of bursts in increased aneuploidy frequency coincides with the waves of global epigenetic reprogramming in mammals. During gametogenesis and early embryogenesis, parental genomes undergo two waves of DNA methylation reprogramming. Failure of these processes can critically affect genome stability, including chromosome segregation during cell division. Abnormal methylation due to errors in the reprogramming process can potentially lead to aneuploidy. On the other hand, the presence of an entire additional chromosome, or chromosome loss, can affect the global genome methylation level. The associations of these two phenomena are well studied in the context of carcinogenesis, but here, we consider the relationship of DNA methylation and aneuploidy in early human and mammalian ontogenesis. In this review, we link these two phenomena and highlight the critical ontogenesis periods and genome regions that play a significant role in human reproduction and in the formation of pathological phenotypes in newborns with chromosomal aneuploidy.

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Ponomarenko M., Rasskazov D., Chadaeva I., Sharypova E., Drachkova I., Oshchepkov D., Ponomarenko P., Savinkova L., Oshchepkova E., Nazarenko M., Kolchanov N.
International journal of molecular sciences. 2020. 21(3), E1045.
DOI: 10.3390/ijms21031045

The World Health Organization (WHO) regards atherosclerosis-related myocardial infarction and stroke as the main causes of death in humans. Susceptibility to atherogenesis-associated diseases is caused by single-nucleotide polymorphisms (SNPs). (2) Methods: Using our previously developed public web-service SNP_TATA_Comparator, we estimated statistical significance of the SNP-caused alterations in TATA-binding protein (TBP) binding affinity for 70 bp proximal promoter regions of the human genes clinically associated with diseases syntonic or dystonic with atherogenesis. Additionally, we did the same for several genes related to the maintenance of mitochondrial genome integrity, according to present-day active research aimed at retarding atherogenesis. (3) Results: In dbSNP, we found 1186 SNPs altering such affinity to the same extent as clinical SNP markers do (as estimated). Particularly, clinical SNP marker rs2276109 can prevent autoimmune diseases via reduced TBP affinity for the human MMP12 gene promoter and therefore macrophage elastase deficiency, which is a well-known physiological marker of accelerated atherogenesis that could be retarded nutritionally using dairy fermented by lactobacilli. (4) Conclusions: Our results uncovered SNPs near clinical SNP markers as the basis of neutral drift accelerating atherogenesis and SNPs of genes encoding proteins related to mitochondrial genome integrity and microRNA genes associated with instability of the atherosclerotic plaque as a basis of directional natural selection slowing atherogenesis. Their sum may be stabilizing the natural selection that sets the normal level of atherogenesis.

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Gusareva E.S., Gaultier N.P.E., Premkrishnan B.N.V., Kee C., Lim S.B.Y., Cassie E. Heinle, Purbojati R.W., Nee A.P., Lohar S.R., Yanqing K., Kharkov V.N., Drautz-Moses D.I., Stepanov V.A. , Schuster S.C.
Scientific Reports. 2020. 10(1), 21515.
DOI: 10.1038/s41598-020-78604-8

Here, we describe taxonomical composition, as well as seasonal and diel dynamics of airborne microbial communities in West Siberia. A total of 78 airborne biomass samples from 39 time intervals were analysed, within a temperature range of 48 °C (26 °C to − 22 °C). We observed a 5–170-fold decrease in DNA yield extracted from the airborne biomass in winter compared to summer, nevertheless, yielding sufficient material for metagenomic analysis. The airborne microbial communities included Actinobacteria and Proteobacteria, Ascomycota and Basidiomycota fungi as major components, as well as some Streptophyta plants. In summer, bacterial and fungal plant pathogens, and wood-rotting saprophytes were predominant. In winter, Ascomycota moulds and cold-related or stress environment bacterial species were enriched, while the fraction of wood-rotting and mushroom-forming Basidiomycota fungi was largely reduced. As recently reported for the tropical climate, the airborne microbial communities performed a diel cycle in summer, however, in winter diel dynamics were not observed.

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Khabarova A.A., Pristyazhnyuk I.E., Orlova P.A., Nikitina T.V., Kashevarova A.A., Lopatkina M.E., Belyaeva E.O., Sukhanova N.N., Nazarenko L.P., Lebedev I.N., Serov O.L.
Stem Cell Research. 2020. 49, 102076.
DOI: 10.1016/j.scr.2018.08

Ring chromosome 18 is a rare chromosomal disorders that usually originate de novo and correlate with clinical manifestation: developmental delay as well as microcephaly, brain and ocular malformations, hypotonia and skeletal abnormalities. We generate iPSC clonal cell line ICGi024-A with pluripotency properties which were demonstrated in vitro by three germ layer differentiation capacity. ICGi024-A can be used for disease modeling and fundamental investigation of ring chromosome instability.

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Gridina M.M., Nikitina T.V., Orlova P.A., Minina J.M., Kashevarova A.A., Yakovleva Yu.S., Lopatkina M.E., Vasilyev S.A., Fedotov D.A., Mikhailik L.I., Nazarenko L.P., Lebedev I.N., Serov O.L.
Stem Cell Research. 2020. 49, 102024.
DOI:10.1016/j.scr.2020.102024

Ring chromosomes are structural aberrations commonly associated with disease phenotype. We consider necessary to create the iPSCs with a ring chromosome 8, which can be used for disease modeling and related research. The ICGi025-A iPSCs line was obtained by the reprogramming of the skin fibroblasts from a 1-year-old boy with 46,XY,r(8)/45,XY,-8 mosaicism, developmental delay, microcephaly, dysmorphic features, diffuse muscle hypotonia, moderate proximal muscle weakness, feeding problems, and motor alalia. The iPSCs had expression of the pluripotency-associated markers. In vitro differentiated cells expressed the markers of the cells of three germ layers. That data allowed us to conclude that ICGi025-A cells were pluripotent.

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Malakhova A.A., Grigor'eva E.V., Vasilyeva O.Yu., Zhigalina D.I., Skryabin N.A., Sivtcev A.A., Kolesnikov N.A., Lebedev. I.N., Bueverov A.O., Bogomolov P.O., Zakian S.M.
Stem Cell Research. 2020. 47, 101922.
DOI: 10.1016/j.scr.2020.101922

Wilson's disease is an inherited disorder associated with copper accumulation in the liver, brain and other vital organs. Wilson's disease is caused by mutations in the ATP7B gene. Over 300 mutations of ATP7B have been described. Despite the disease is autosomal recessive, the patient whose PBMCs were reprogrammed in the study harbours heterozygous mutation c.3207C > A (p.H1069Q). Detailed analysis of the ATP7B complete gene sequencing data has not revealed other known disease associated mutation. The generated iPSC lines maintained the original genotype, expressed pluripotency markers, had normal karyotype and demonstrated the ability to differentiate into derivatives of the three germ layers.

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Zhernakova D.V., Brukhin V., Malov S., Oleksyk T.K., Koepfli K.P., Zhuk A., Dobrynin P., Kliver S., Cherkasov N., Tamazian G., Rotkevich M., Krasheninnikova K., Evsyukov I., Sidorov S., Gorbunova A., Chernyaeva E., Shevchenko A., Kolchanova S., Komissarov A., Simonov S., Antonik A., Logachev A., Polev D.E., Pavlova O.A., Glotov A.S., Ulantsev V., Noskova E., Davydova T.K., Sivtseva T.M., Limborska S., Balanovsky O., Osakovsky V., Novozhilov A., Puzyrev V., O'Brien S.J.
Genomics. 2020. 112(1), 442-425.
DOI: 10.1016/j.ygeno.2019.03.007

The Russian Federation is the largest and one of the most ethnically diverse countries in the world, however no centralized reference database of genetic variation exists to date. Such data are crucial for medical genetics and essential for studying population history. The Genome Russia Project aims at filling this gap by performing whole genome sequencing and analysis of peoples of the Russian Federation. Here we report the characterization of genome-wide variation of 264 healthy adults, including 60 newly sequenced samples. People of Russia carry known and novel genetic variants of adaptive, clinical and functional consequence that in many cases show allele frequency divergence from neighboring populations. Population genetics analyses revealed six phylogeographic partitions among indigenous ethnicities corresponding to their geographic locales. This study presents a characterization of population-specific genomic variation in Russia with results important for medical genetics and for understanding the dynamic population history of the world's largest country.

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Boiko A.S., Ivanova S.A., Pozhidaev I.V., Freidin M.B., Osmanova D.Z., Fedorenko O.Yu., Semke A.V., Bokhan N.A., Wilffert B., Loonen A. J. M.
The world journal of biological psychiatry. 2020. 21(1), 72-77.
DOI:10.1080/15622975.2018.1548780

Acetylcholine M (muscarinic) receptors are possibly involved in tardive dyskinesia (TD). The authors tried to verify this hypothesis by testing for possible associations between two muscarinic receptor genes (CHRM1 and CHRM2) polymorphisms and TD in patients with schizophrenia.

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