Your search keyword '"Eugeny A. Elisaphenko"' showing total 21 results

1. Induced pluripotent stem cell line ICGi038-A, obtained by reprogramming peripheral blood mononuclear cells from a patient with familial hypercholesterolemia due to compound heterozygous c.1246C > T/c.940 + 3_940 + 6del mutations in LDLR

Author

Irina S. Zakharova, Alexander I. Shevchenko, Narek A. Tmoyan, Eugeny A. Elisaphenko, Ekaterina S. Zubkova, Aleksei A. Sleptcov, Maria S. Nazarenko, Marat V. Ezhov, Valery V. Kukharchuk, Yelena V. Parfyonova, and Suren M. Zakian

Subjects

Biology (General), QH301-705.5

Abstract

The development of cellular models for familial hypercholesterolemia (FH) is an important direction for creating new approaches to atherosclerosis treatment. Pathogenic mutations in the LDLR gene are the main FH source. We generated an iPSC line from peripheral blood mononuclear cells of the patient with compound heterozygous c.1246C > T/c.940 + 3_940 + 6del LDLR mutation. The resulting iPSC line with confirmed patient-specific mutations maintains a normal karyotype and a typical undifferentiated state, including morphology, pluripotent gene expression, and in vitro differentiation potential. This iPSC line can be further differentiated toward relevant cells to better understand FH pathogenesis.

Published

2022

2. Induced pluripotent stem cell line ICGi037-A, obtained by reprogramming peripheral blood mononuclear cells from a patient with familial hypercholesterolemia due to heterozygous p.Trp443Arg mutations in LDLR

Author

Irina S. Zakharova, Alexander I. Shevchenko, Narek A. Tmoyan, Eugeny A. Elisaphenko, Alexander P. Kalinin, Aleksei A. Sleptcov, Maria S. Nazarenko, Marat V. Ezhov, Valery V. Kukharchuk, Yelena V. Parfyonova, and Suren M. Zakian

Subjects

Biology (General), QH301-705.5

Abstract

Familial hypercholesterolemia (FH) is an autosomal dominant disorder increasing premature cardiovascular diseases risk due to atherosclerosis. Pathogenic mutations in the LDLR gene cause most FH cases. Available treatments are effective not for all LDLR mutations. Testing drugs on FH cell models help develop new efficient treatments. We obtained an iPSC line from peripheral blood mononuclear cells of the patient with heterozygous p.Trp443Arg LDLR mutation. The iPSCs with confirmed patient-specific mutations express pluripotency markers, spontaneously differentiate into three germ layers and demonstrate normal karyotype. Patient-specific iPSCs-derived hepatocyte-like and endothelial cells are promising to develop new targeted therapies for FH.

Published

2022

3. Induced pluripotent stem cell line ICGi036-A generated by reprogramming peripheral blood mononuclear cells from a patient with familial hypercholesterolemia caused due to compound heterozygous p.Ser177Leu/p.Cys352Arg mutations in LDLR

Author

Irina S. Zakharova, Alexander I. Shevchenko, Narek A. Tmoyan, Eugeny A. Elisaphenko, Ekaterina S. Zubkova, Aleksei A. Sleptcov, Maria S. Nazarenko, Marat V. Ezhov, Valery V. Kukharchuk, Yelena V. Parfyonova, and Suren M. Zakian

Subjects

Biology (General), QH301-705.5

Abstract

Familial hypercholesterolemia (FH) is a monogenic disease, leading to atherosclerosis due to a high level of low-density lipoprotein cholesterol. Most cases of the disease are based on pathological variants in the LDLR gene. Hepatocyte-like and endothelial cells derived from individual iPSCs are a good model for developing new approaches to therapy. We obtained an iPSC line from peripheral blood mononuclear cells of the patient with compound heterozygous p.Ser177Leu/p.Cys352Arg mutation in LDLR using non-integrating vectors. The iPSCs with a confirmed patient-specific mutation demonstrate pluripotency markers, normal karyotype, and the ability to differentiate into derivatives of three germ layers.

Published

2022

4. Calling and Phasing of Single-Nucleotide and Structural Variants of the LDLR Gene Using Oxford Nanopore MinION

Author

Maria S. Nazarenko, Aleksei A. Sleptcov, Aleksei A. Zarubin, Ramil R. Salakhov, Alexander I. Shevchenko, Narek A. Tmoyan, Eugeny A. Elisaphenko, Ekaterina S. Zubkova, Nina V. Zheltysheva, Marat V. Ezhov, Valery V. Kukharchuk, Yelena V. Parfyonova, Suren M. Zakian, and Irina S. Zakharova

Subjects

LDLR, Oxford Nanopore, familial hypercholesterolemia, structural variant, haplotype, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The LDLR locus has clinical significance for lipid metabolism, Mendelian familial hypercholesterolemia (FH), and common lipid metabolism-related diseases (coronary artery disease and Alzheimer’s disease), but its intronic and structural variants are underinvestigated. The aim of this study was to design and validate a method for nearly complete sequencing of the LDLR gene using long-read Oxford Nanopore sequencing technology (ONT). Five PCR amplicons from LDLR of three patients with compound heterozygous FH were analyzed. We used standard workflows of EPI2ME Labs for variant calling. All rare missense and small deletion variants detected previously by massively parallel sequencing and Sanger sequencing were identified using ONT. One patient had a 6976 bp deletion (exons 15 and 16) that was detected by ONT with precisely located breakpoints between AluY and AluSx1. Trans-heterozygous associations between mutation c.530C>T and c.1054T>C, c.2141-966_2390-330del, and c.1327T>C, and between mutations c.1246C>T and c.940+3_940+6del of LDLR, were confirmed. We demonstrated the ability of ONT to phase variants, thereby enabling haplotype assignment for LDLR with personalized resolution. The ONT-based method was able to detect exonic variants with the additional benefit of intronic analysis in one run. This method can serve as an efficient and cost-effective tool for diagnosing FH and conducting research on extended LDLR haplotype reconstruction.

Published

2023

5. The Precise Breakpoint Mapping in Paracentric Inversion 10q22.2q23.3 by Comprehensive Cytogenomic Analysis, Multicolor Banding, and Single-Copy Chromosome Sequencing

Author

Tatyana V. Karamysheva, Tatyana A. Gayner, Eugeny A. Elisaphenko, Vladimir A. Trifonov, Elvira G. Zakirova, Konstantin E. Orishchenko, Mariya A. Prokhorovich, Maria E. Lopatkina, Nikolay A. Skryabin, Igor N. Lebedev, and Nikolay B. Rubtsov

Subjects

paracentric inversion, inv(10), breakpoint mapping, array-based comparative genomic hybridization, chromosomal microdissection, multicolor banding, Biology (General), QH301-705.5

Abstract

Detection and precise genomic mapping of balanced chromosomal abnormalities in patients with impaired fertility or a clinical phenotype represent a challenge for current cytogenomics owing to difficulties with precise breakpoint localization in the regions enriched for DNA repeats and high genomic variation in such regions. Here, we present a comprehensive cytogenomic approach to breakpoint mapping in a rare paracentric inversion on 10q (in a patient with oligoasthenoteratozoospermia and necrozoospermia) that does not affect other phenotype traits. Multicolor banding, chromosomal microarray analysis, chromosome microdissection with reverse painting, and single-copy sequencing of the rearranged chromosome were performed to determine the length and position of the inverted region as well as to rule out a genetic imbalance at the breakpoints. As a result, a paracentric 19.251 Mbp inversion at 10q22.2q23.3 was described. The most probable location of the breakpoints was predicted using the hg38 assembly. The problems of genetic counseling associated with enrichment for repeats and high DNA variability of usual breakpoint regions were discussed. Possible approaches for cytogenomic assessment of couples with balanced chromosome rearrangements and problems like reproductive failures were considered and suggested as useful part of effective genetic counseling.

Published

2022

6. Prenatal Diagnosis of Small Supernumerary Marker Chromosome 10 by Array-Based Comparative Genomic Hybridization and Microdissected Chromosome Sequencing

Author

Igor N. Lebedev, Tatyana V. Karamysheva, Eugeny A. Elisaphenko, Alexey I. Makunin, Daria I. Zhigalina, Maria E. Lopatkina, Gleb V. Drozdov, Aleksander D. Cheremnykh, Natalia B. Torkhova, Gulnara N. Seitova, Stanislav A. Vasilyev, Anna A. Kashevarova, Ludmila P. Nazarenko, and Nikolay B. Rubtsov

Subjects

array-based comparative genomic hybridization, chromosomal microdissection, single-copy chromosome sequencing, small supernumerary marker chromosome, ring chromosome, prenatal diagnosis, Biology (General), QH301-705.5

Abstract

Interpreting the clinical significance of small supernumerary marker chromosomes (sSMCs) in prenatal diagnosis is still an urgent problem in genetic counselling regarding the fate of a pregnancy. We present a case of prenatal diagnosis of mosaic sSMC(10) in a foetus with a normal phenotype. Comprehensive cytogenomic analyses by array-based comparative genomic hybridization (aCGH), sSMC microdissection with next-generation sequencing (NGS) of microdissected library, fluorescence in situ hybridization (FISH) with locus-specific and telomere-specific DNA probes and quantitative real-time PCR revealed that sSMC(10) had a ring structure and was derived from the pericentromeric region of chromosome 10 with involvement of the 10p11.21-p11.1 and 10q11.21-q11.23 at 1.243 Mb and 7.173 Mb in size, respectively. We observed a difference in the length of sSMC(10) between NGS data of the DNA library derived from a single copy of sSMC(10), and aCGH results that may indicate instability and structural mosaicism for ring chromosomes in foetal cells. The presence of a 9 Mb euchromatin region in the analysed sSMC(10) did not lead to clinical manifestations, and a healthy girl was born at term. We suggest that the ring structure of sSMCs could influence sSMC manifestations and should be taken into account in genetic counselling during prenatal diagnosis.

Published

2021

7. Efficiency of SpCas9 and AsCpf1 (Cas12a) programmable nucleases at genomic safe harbor loci in HEK293 cells

Author

Eugeny A. Elisaphenko, Sergey P. Medvedev, L. Sh. Shayakhmetova, and S. V. Pavlova

Subjects

Genetics, Safe harbor, business.industry, HEK 293 cells, Medicine, General Medicine, business

Abstract

Rationale: The development of eukaryote genome engineering tools based on CRISPR-Cas programmable bacterial nucleases systems opens wide horizons for gene therapies, human disease cell modeling, as well as investigation into manifestation of disease phenotypes and visualization of cellular processes. The safety and approximation of experiments both at the cellular and organismal levels depend on the accuracy of introducing double-stranded breaks into the target DNA regions. The search for new variants of more accurate CRISPR-Cas nucleases and evaluation of their ability to hydrolyze nucleosome DNA in vivo is considered a critical task for the development of the genome engineering technologies.Aim: To analyze the activity of the programmable nuclease AsCpf1 (Cas12a), with low level of off-target activity, in the human genome loci that are safe for the introduction of transgenic constructs (“safe harbor”) and to compare its efficiency with that of the widely used SpCas9 nuclease in HEK293 cells.Materials and methods: We performed the bioinformatics analysis of the association between target regions with nucleosomes and other proteins in the safe harbor loci AAVS1 and GSH-Ch1 and the transcriptionally inactive gene MYBPC3 (cardiac myosin binding protein 3) based on ATAC-seq data for the HEK293FT cells obtained from the NCBI SRA database. Plasmids encoding SpCas9 and AsCpf1 nucleases and guide RNA to the target regions were constructed and transfected into the HEK293FT cells. Events in the target regions of the HEK293FT cell genome were studied in the sequenograms with the TIDE algorithm.Results: The results of the ATAC-seq experiments for HEK293FT cells have shown that the AAVS1 locus can be referred as open chromatin with a low nucleosome density, while the GSH-Ch1 locus can be attributed to closed chromatin. In HEK293FT cells, the cardiac MYBPC3 gene has intermediate chromatin density. Assessment of the efficiency of introducing breaks into the studied HEK293FT cell chromatin loci by nucleases has shown that SpCas9 is able to cope with chromatin of any nucleosome density, while AsCpf1 can effectively introduce DNA breaks only at loci with open chromatin, such as AAVS1 and MYBPC3. Editing events occur at a very low rate at the GSH-Ch1 locus with a high nucleosome density.Conclusion: We have found low efficiency of the AsCpf1 nuclease in the genomic safe harbor locus GSH-Ch1, which is characterized by a high nucleosome density. When planning an experiment on AsCpf1 nuclease genome editing, the epigenetic chromatin landscape and the nucleosome density should be considered, as well as chromatin opening substances should be used.

Published

2021

8. Investigating Antisense Transcription at the HTT Locus

Author

Eugeny A. Elisaphenko and Anastasia A. Malakhova

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, nervous system, animal diseases, mental disorders, nervous system diseases

Abstract

Antisense transcription is an important mechanism of gene expression regulation. Antisense RNAs play a role in mRNA processing, translation and epigenetic modifications of DNA and histones in the locus of their origin, leading to gene silencing. HTT is a widely expressed gene, the mutation of which causes Huntington’s disease. The product of the gene plays an important role in many cell processes, such as intracellular trafficking, cell division, autophagy, and others. An antisense transcription has been found at the HTT 5’-region. The HTT-AS gene has been reported to affect HTT expression in a Dicer-dependent manner. In this study, we analyzed extensive data from RNA-seq experiments for antisense transcription at the HTT locus. Antisense transcripts corresponding to the HTT-AS gene were not found. However, we revealed a number of antisense transcripts in different parts of the locus that may take part in the regulation and functioning of the HTT gene. Keywords: antisense transcription, HTT-AS, HTTregulation, Huntington’s disease

Published

2022

9. Induced pluripotent stem cell line ICGi038-A, obtained by reprogramming peripheral blood mononuclear cells from a patient with familial hypercholesterolemia due to compound heterozygous c.1246C T/c.940 + 3_940 + 6del mutations in LDLR

Author

Irina S. Zakharova, Alexander I. Shevchenko, Narek A. Tmoyan, Eugeny A. Elisaphenko, Ekaterina S. Zubkova, Aleksei A. Sleptcov, Maria S. Nazarenko, Marat V. Ezhov, Valery V. Kukharchuk, Yelena V. Parfyonova, and Suren M. Zakian

Subjects

Hyperlipoproteinemia Type II, Receptors, LDL, QH301-705.5, Induced Pluripotent Stem Cells, Mutation, Leukocytes, Mononuclear, Humans, Cell Biology, General Medicine, Biology (General), Developmental Biology

Abstract

The development of cellular models for familial hypercholesterolemia (FH) is an important direction for creating new approaches to atherosclerosis treatment. Pathogenic mutations in the LDLR gene are the main FH source. We generated an iPSC line from peripheral blood mononuclear cells of the patient with compound heterozygous c.1246C > T/c.940 + 3_940 + 6del LDLR mutation. The resulting iPSC line with confirmed patient-specific mutations maintains a normal karyotype and a typical undifferentiated state, including morphology, pluripotent gene expression, and in vitro differentiation potential. This iPSC line can be further differentiated toward relevant cells to better understand FH pathogenesis.

Published

2021

10. Prenatal Diagnosis of Small Supernumerary Marker Chromosome 10 by Array-Based Comparative Genomic Hybridization and Microdissected Chromosome Sequencing

Author

Tatyana V. Karamysheva, Aleksander D. Cheremnykh, Gleb V. Drozdov, Alexey I. Makunin, Eugeny A. Elisaphenko, S. A. Vasilyev, Gulnara N. Seitova, Maria E. Lopatkina, Nikolay B. Rubtsov, Nazarenko Lp, Natalia B. Torkhova, Daria I. Zhigalina, A. A. Kashevarova, and I. N. Lebedev

Subjects

Genetics, prenatal diagnosis, medicine.diagnostic_test, QH301-705.5, Hybridization probe, small supernumerary marker chromosome, Ring chromosome, ring chromosome, Medicine (miscellaneous), Chromosome, Prenatal diagnosis, Biology, array-based comparative genomic hybridization, single-copy chromosome sequencing, General Biochemistry, Genetics and Molecular Biology, Article, mosaicism, medicine, Biology (General), Small supernumerary marker chromosome, Microdissection, chromosomal microdissection, Comparative genomic hybridization, Fluorescence in situ hybridization

Abstract

Interpreting the clinical significance of small supernumerary marker chromosomes (sSMCs) in prenatal diagnosis is still an urgent problem in genetic counselling regarding the fate of a pregnancy. We present a case of prenatal diagnosis of mosaic sSMC(10) in a foetus with a normal phenotype. Comprehensive cytogenomic analyses by array-based comparative genomic hybridization (aCGH), sSMC microdissection with next-generation sequencing (NGS) of microdissected library, fluorescence in situ hybridization (FISH) with locus-specific and telomere-specific DNA probes and quantitative real-time PCR revealed that sSMC(10) had a ring structure and was derived from the pericentromeric region of chromosome 10 with involvement of the 10p11.21-p11.1 and 10q11.21-q11.23 at 1.243 Mb and 7.173 Mb in size, respectively. We observed a difference in the length of sSMC(10) between NGS data of the DNA library derived from a single copy of sSMC(10), and aCGH results that may indicate instability and structural mosaicism for ring chromosomes in foetal cells. The presence of a 9 Mb euchromatin region in the analysed sSMC(10) did not lead to clinical manifestations, and a healthy girl was born at term. We suggest that the ring structure of sSMCs could influence sSMC manifestations and should be taken into account in genetic counselling during prenatal diagnosis.

Published

2021

11. Variability of sequence surrounding the Xist gene in rodents suggests taxon-specific regulation of X chromosome inactivation.

Author

Alexander I Shevchenko, Anastasia A Malakhova, Eugeny A Elisaphenko, Nina A Mazurok, Tatyana B Nesterova, Neil Brockdorff, and Suren M Zakian

Subjects

Medicine, Science

Abstract

One of the two X chromosomes in female mammalian cells is subject to inactivation (XCI) initiated by the Xist gene. In this study, we examined in rodents (voles and rat) the conservation of the microsatellite region DXPas34, the Tsix gene (antisense counterpart of Xist), and enhancer Xite that have been shown to flank Xist and regulate XCI in mouse. We have found that mouse regions of the Tsix gene major promoter and minisatellite repeat DXPas34 are conserved among rodents. We have also shown that in voles and rat the region homologous to the mouse Tsix major promoter, initiates antisense to Xist transcription and terminates around the Xist gene start site as is observed with mouse Tsix. A conservation of Tsix expression pattern in voles, rat and mice suggests a crucial role of the antisense transcription in regulation of Xist and XIC in rodents. Most surprisingly, we have found that voles lack the regions homologous to the regulatory element Xite, which is instead replaced with the Slc7a3 gene that is unassociated with the X-inactivation centre in any other eutherians studied. Furthermore, we have not identified any transcription that could have the same functions as murine Xite in voles. Overall, our data show that not all the functional elements surrounding Xist in mice are well conserved even within rodents, thereby suggesting that the regulation of XCI may be at least partially taxon-specific.

Published

2011

12. Impact of Xist RNA on chromatin modifications and transcriptional silencing maintenance at different stages of imprinted X chromosome inactivation in vole Microtus levis

Author

Alexander I. Shevchenko, E.V. Dementyeva, Sergey P. Medvedev, A.A. Malakhova, E.V. Grigor'eva, Eugeny A. Elisaphenko, Irina S. Zakharova, S. V. Pavlova, and Suren M. Zakian

Subjects

0301 basic medicine, Transcription, Genetic, Biology, X-inactivation, Histones, Genomic Imprinting, 03 medical and health sciences, 0302 clinical medicine, X Chromosome Inactivation, Genetics, Animals, Gene Silencing, Promoter Regions, Genetic, Genetics (clinical), X chromosome, Sequence Deletion, Arvicolinae, RNA, Molecular biology, Chromatin, 030104 developmental biology, Histone, Histone methyltransferase, biology.protein, Female, RNA, Long Noncoding, XIST, Heterochromatin protein 1, 030217 neurology & neurosurgery

Abstract

In vole Microtus levis, cells of preimplantation embryo and extraembryonic tissues undergo imprinted X chromosome inactivation (iXCI) which is triggered by a long non-coding nuclear RNA, Xist. At early stages of iXCI, chromatin of vole inactive X chromosome is enriched with the HP1 heterochromatin-specific protein, trimethylated H3K9 and H4K20 attributable to constitutive heterochromatin. In the study, using vole trophoblast stem (TS) cells as a model of iXCI, we further investigated chromatin of the inactive X chromosome of M. levis and tried to find out the role of Xist RNA. We demonstrated that chromatin of the inactive X chromosome in vole TS cells also contained the SETDB1 histone methyltransferase and KAP1 protein. In addition, we observed that Xist RNA did not contribute significantly to maintenance of X chromosome inactive state during iXCI in vole TS cells. Xist repression affected neither transcriptional silencing caused by iXCI nor maintenance of trimethylated H3K9 and H4K20 as well as HP1, KAP1, and SETDB1 on the inactive X chromosome. Moreover, the unique repertoire of chromatin modifications on the inactive X chromosome in vole TS cells could be disrupted by a chemical compound, DZNep, and then restored even in the absence of Xist RNA. However, Xist transcript was necessary for recruitment of an additional repressive histone modification, trimethylated H3K27, to the inactive X chromosome during vole TS cell differentiation.

Published

2017

13. FGF4 independent derivation of trophoblast stem cells from the common vole

Author

Eugeny A. Elisaphenko, Pavel A. Dyban, E.V. Grigor'eva, Ekaterina M. Noniashvili, Sergey Ya. Slobodyanyuk, A. I. Zhelezova, Andrey P. Dyban, Neil Brockdorff, Alexander I. Shevchenko, N. A. Mazurok, Tatyana B. Nesterova, A. G. Shilov, and Suren M. Zakian

Subjects

Cellular differentiation, Cell Biology/Developmental Molecular Mechanisms, Fibroblast Growth Factor 4, Cell Biology/Cell Growth and Division, lcsh:Medicine, Models, Biological, X-inactivation, Cell Biology/Cell Signaling, Mice, medicine, Animals, Cell Lineage, Blastocyst, lcsh:Science, Cell Biology/Gene Expression, Genetics, Multidisciplinary, Ploidies, biology, Arvicolinae, Heparin, Stem Cells, lcsh:R, Trophoblast, Cell Differentiation, Cell Biology, biology.organism_classification, Embryonic stem cell, Cell biology, Trophoblasts, medicine.anatomical_structure, Gene Expression Regulation, Cell culture, lcsh:Q, Vole, Cell Biology/Morphogenesis and Cell Biology, Stem cell, Signal Transduction, Transcription Factors, Research Article

Abstract

The derivation of stable multipotent trophoblast stem (TS) cell lines from preimplantation, and early postimplantation mouse embryos has been reported previously. FGF4, and its receptor FGFR2, have been identified as embryonic signaling factors responsible for the maintenance of the undifferentiated state of multipotent TS cells. Here we report the derivation of stable TS-like cell lines from the vole M. rossiaemeridionalis, in the absence of FGF4 and heparin. Vole TS-like cells are similar to murine TS cells with respect to their morphology, transcription factor gene expression and differentiation in vitro into derivatives of the trophectoderm lineage, and with respect to their ability to invade and erode host tissues, forming haemorrhagic tumours after subcutaneous injection into nude mice. Moreover, vole TS-like cells carry an inactive paternal X chromosome, indicating that they have undergone imprinted X inactivation, which is characteristic of the trophoblast lineage. Our results indicate that an alternative signaling pathway may be responsible for the establishment and stable proliferation of vole TS-like cells.

Published

2016

14. Difference between random and imprinted X inactivation in common voles

Author

Tatyana B. Nesterova, Eugeny A. Elisaphenko, N. A. Mazurok, Alexander I. Shevchenko, Neil Brockdorff, E.V. Dementyeva, Olga V. Anopriyenko, and Suren M. Zakian

Subjects

Male, RNA, Untranslated, X Chromosome, Somatic cell, Gene Expression, Biology, X-inactivation, Genomic Imprinting, Genes, X-Linked, X Chromosome Inactivation, Gene expression, Genetics, Animals, Humans, Gene, Genetics (clinical), In Situ Hybridization, Fluorescence, Arvicolinae, Chromosome Mapping, Methylation, DNA Methylation, Muridae, Repressor Proteins, DNA methylation, Female, RNA, Long Noncoding, Genomic imprinting, Developmental biology

Abstract

During early development in female mammals, most genes on one of the two X-chromosomes undergo transcriptional silencing. In the extraembryonic lineages of some eutherian species, imprinted X-inactivation of the paternal X-chromosome occurs. In the cells of the embryo proper, the choice of the future inactive X-chromosome is random. We mapped several genes on the X-chromosomes of five common vole species and compared their expression and methylation patterns in somatic and extraembryonic tissues, where random and imprinted X-inactivation occurs, respectively. In extraembryonic tissues, more genes were expressed on the inactive X-chromosome than in somatic tissues. We also found that the methylation status of the X-linked genes was always in accordance with their expression pattern in somatic, but not in extraembryonic tissues. The data provide new evidence that imprinted X-inactivation is less complete and/or stable than the random form and DNA methylation contributes less to its maintenance.

Published

2010

15. A Dual Origin of the Xist Gene from a Protein-Coding Gene and a Set of Transposable Elements

Author

Neil Brockdorff, Alexander I. Shevchenko, Eugeny A. Elisaphenko, Suren M. Zakian, Nikolay N. Kolesnikov, Igor B. Rogozin, and Tatyana B. Nesterova

Subjects

Transposable element, RNA, Untranslated, Genetics and Genomics/Nuclear Structure and Function, lcsh:Medicine, Locus (genetics), Biology, X-inactivation, Exon, Mice, Tandem repeat, X Chromosome Inactivation, Genetics and Genomics/Epigenetics, Sequence Homology, Nucleic Acid, Animals, lcsh:Science, Gene, Genetics, Multidisciplinary, lcsh:R, Intron, Exons, Genetics and Genomics/Bioinformatics, Tandem Repeat Sequences, DNA Transposable Elements, lcsh:Q, XIST, Female, RNA, Long Noncoding, Genetics and Genomics/Comparative Genomics, Research Article

Abstract

X-chromosome inactivation, which occurs in female eutherian mammals is controlled by a complex X-linked locus termed the X-inactivation center (XIC). Previously it was proposed that genes of the XIC evolved, at least in part, as a result of pseudogenization of protein-coding genes. In this study we show that the key XIC gene Xist, which displays fragmentary homology to a protein-coding gene Lnx3, emerged de novo in early eutherians by integration of mobile elements which gave rise to simple tandem repeats. The Xist gene promoter region and four out of ten exons found in eutherians retain homology to exons of the Lnx3 gene. The remaining six Xist exons including those with simple tandem repeats detectable in their structure have similarity to different transposable elements. Integration of mobile elements into Xist accompanies the overall evolution of the gene and presumably continues in contemporary eutherian species. Additionally we showed that the combination of remnants of protein-coding sequences and mobile elements is not unique to the Xist gene and is found in other XIC genes producing non-coding nuclear RNA.

Published

2008

16. Genes flanking Xist in mouse and human are separated on the X chromosome in American marsupials

Author

Neil Brockdorff, Eugeny A. Elisaphenko, Mark T. Ross, N. A. Mazurok, Randy L. Jirtle, Suren M. Zakian, S. Whitehead, Alexander I. Shevchenko, John L. VandeBerg, Jennifer R. Weidman, Tatyana B. Nesterova, Irina S. Zakharova, Tatiana V. Karamysheva, Nicolay N. Kolesnikov, Christine P. Bird, and Nicolay B. Rubtsov

Subjects

Male, Monocarboxylic Acid Transporters, Xist, Chromosomes, Artificial, Bacterial, RNA, Untranslated, X Chromosome, Locus (genetics), Biology, Article, X-inactivation, Cell Line, Evolution, Molecular, Mice, 03 medical and health sciences, Monodelphis domestica, 0302 clinical medicine, Didelphis, Genes, X-Linked, X Chromosome Inactivation, Genetics, Animals, Humans, X chromosome, Gene Library, 030304 developmental biology, Synteny, Chromosomes, Human, X, 0303 health sciences, Dosage compensation, Didelphis virginiana, Chromosome Mapping, Chromosome, marsupial, Fibroblasts, opossum, Monodelphis, X inactivation, Chromosome 4, Female, RNA, Long Noncoding, XIST, Microdissection, 030217 neurology & neurosurgery

Abstract

X inactivation, the transcriptional silencing of one of the two X chromosomes in female mammals, achieves dosage compensation of X-linked genes relative to XY males. In eutherian mammals X inactivation is regulated by the X-inactive specific transcript (Xist), a cis-acting non-coding RNA that triggers silencing of the chromosome from which it is transcribed. Marsupial mammals also undergo X inactivation but the mechanism is relatively poorly understood. We set out to analyse the X chromosome in Monodelphis domestica and Didelphis virginiana, focusing on characterizing the interval defined by the Chic1 and Slc16a2 genes that in eutherians flank the Xist locus. The synteny of this region is retained on chicken chromosome 4 where other loci belonging to the evolutionarily ancient stratum of the human X chromosome, the so-called X conserved region (XCR), are also located. We show that in both M. domestica and D. virginiana an evolutionary breakpoint has separated the Chic1 and Slc16a2 loci. Detailed analysis of opossum genomic sequences revealed linkage of Chic1 with the Lnx3 gene, recently proposed to be the evolutionary precursor of Xist, and Fip1, the evolutionary precursor of Tsx, a gene located immediately downstream of Xist in eutherians. We discuss these findings in relation to the evolution of Xist and X inactivation in mammals.

Published

2007

17. DNA content of the B chromosomes in grasshopper Podisma kanoi Storozh. (Orthoptera, Acrididae)

Author

Tatiana V. Karamysheva, Eugeny A. Elisaphenko, Nikolay B. Rubtsov, Alexander G. Bugrov, Denis N. Rubtsov, Eugeny A. Perepelov, Elżbieta Warchałowska-Śliwa, and Haruki Tatsuta

Subjects

Genetics, B chromosome, DNA, Grasshoppers, Sequence Analysis, DNA, Biology, Chromosome microdissection, Molecular biology, DNA, Ribosomal, DNA sequencing, Chromosomes, chemistry.chemical_compound, Chromosome 16, chemistry, Chromosome 19, Animals, Genomic library, Chromosome 22, In Situ Hybridization, Fluorescence, Gene Library

Abstract

A DNA library derived from the B chromosome of Podisma kanoi was obtained by chromosome microdissection. A total of 153 DNA clones were isolated from the microdissected DNA library. Twenty of them were sequenced. A comparison of B chromosome DNA sequences with sequences of other species from the DDBJ/GenBank/EMBL database ( http://www.ddbj.nig.ac.jp/ ) was performed. Different patterns of signals were observed after FISH with labeled cloned DNA fragments. FISH signals with cloned DNA fragments painted either whole Bs or their different regions. Some clones also gave signals in pericentromeric regions of A chromosomes. Other cloned DNA fragments gave only background-like signals on A and B chromosomes. Comparative FISH analysis of B chromosomes in Podisma kanoi and P. sapporensis with DNA probes derived from the Bs of these species revealed homologous DNA that was confined within pericentromeric and telemetric regions of the B chromosome in P. kanoi. In contrast to the B chromosomes in P. sapporensis containing large regions enriched with rDNA, only a small cluster of rDNA was detected in one of the examined B chromosomes in P. kanoi. The data strongly suggest an independent origin of B chromosomes in two closely related Podisma species.

Published

2007

18. A Regulatory Potential of the Xist Gene Promoter in Vole M. rossiaemeridionalis

Author

E.V. Dementyeva, Alexander I. Shevchenko, Eugeny A. Elisaphenko, Konstantin E. Orishchenko, S. V. Pavlova, Vladimir V. Sherstyuk, Suren M. Zakian, and Alexander V. Prinz

Subjects

Male, CCCTC-Binding Factor, RNA, Untranslated, X Chromosome, Molecular Sequence Data, lcsh:Medicine, Repressor, Insulator (genetics), Biology, X-inactivation, Cell Line, Species Specificity, X Chromosome Inactivation, Sequence Homology, Nucleic Acid, Animals, Humans, Regulatory Elements, Transcriptional, lcsh:Science, Promoter Regions, Genetic, X chromosome, Mammals, Genetics, Binding Sites, Multidisciplinary, Base Sequence, Arvicolinae, lcsh:R, Gene Expression Regulation, Developmental, Promoter, DNA Methylation, Repressor Proteins, CTCF, DNA methylation, lcsh:Q, Female, RNA, Long Noncoding, XIST

Abstract

X chromosome inactivation takes place in the early development of female mammals and depends on the Xist gene expression. The mechanisms of Xist expression regulation have not been well understood so far. In this work, we compared Xist promoter region of vole Microtus rossiaemeridionalis and other mammalian species. We observed three conserved regions which were characterized by computational analysis, DNaseI in vitro footprinting, and reporter construct assay. Regulatory factors potentially involved in Xist activation and repression in voles were determined. The role of CpG methylation in vole Xist expression regulation was established. A CTCF binding site was found in the 5' flanking region of the Xist promoter on the active X chromosome in both males and females. We suggest that CTCF acts as an insulator which defines an inactive Xist domain on the active X chromosome in voles.

Published

2012

19. A regulatory potential of the Xist gene promoter in vole M. rossiaemeridionalis.

Author

Konstantin E Orishchenko, Sophia V Pavlova, Eugeny A Elisaphenko, Vladimir V Sherstyuk, Alexander V Prinz, Alexander I Shevchenko, Elena V Dementyeva, and Suren M Zakian

Subjects

Medicine, Science

Abstract

X chromosome inactivation takes place in the early development of female mammals and depends on the Xist gene expression. The mechanisms of Xist expression regulation have not been well understood so far. In this work, we compared Xist promoter region of vole Microtus rossiaemeridionalis and other mammalian species. We observed three conserved regions which were characterized by computational analysis, DNaseI in vitro footprinting, and reporter construct assay. Regulatory factors potentially involved in Xist activation and repression in voles were determined. The role of CpG methylation in vole Xist expression regulation was established. A CTCF binding site was found in the 5' flanking region of the Xist promoter on the active X chromosome in both males and females. We suggest that CTCF acts as an insulator which defines an inactive Xist domain on the active X chromosome in voles.

Published

2012

20. FGF4 independent derivation of trophoblast stem cells from the common vole.

Author

Elena V Grigor'eva, Alexander I Shevchenko, Nina A Mazurok, Eugeny A Elisaphenko, Antonina I Zhelezova, Alexander G Shilov, Pavel A Dyban, Andrey P Dyban, Ekaterina M Noniashvili, Sergey Ya Slobodyanyuk, Tatyana B Nesterova, Neil Brockdorff, and Suren M Zakian

Subjects

Medicine, Science

Abstract

The derivation of stable multipotent trophoblast stem (TS) cell lines from preimplantation, and early postimplantation mouse embryos has been reported previously. FGF4, and its receptor FGFR2, have been identified as embryonic signaling factors responsible for the maintenance of the undifferentiated state of multipotent TS cells. Here we report the derivation of stable TS-like cell lines from the vole M. rossiaemeridionalis, in the absence of FGF4 and heparin. Vole TS-like cells are similar to murine TS cells with respect to their morphology, transcription factor gene expression and differentiation in vitro into derivatives of the trophectoderm lineage, and with respect to their ability to invade and erode host tissues, forming haemorrhagic tumours after subcutaneous injection into nude mice. Moreover, vole TS-like cells carry an inactive paternal X chromosome, indicating that they have undergone imprinted X inactivation, which is characteristic of the trophoblast lineage. Our results indicate that an alternative signaling pathway may be responsible for the establishment and stable proliferation of vole TS-like cells.

Published

2009

21. A dual origin of the Xist gene from a protein-coding gene and a set of transposable elements.

Author

Eugeny A Elisaphenko, Nikolay N Kolesnikov, Alexander I Shevchenko, Igor B Rogozin, Tatyana B Nesterova, Neil Brockdorff, and Suren M Zakian

Subjects

Medicine, Science

Abstract

X-chromosome inactivation, which occurs in female eutherian mammals is controlled by a complex X-linked locus termed the X-inactivation center (XIC). Previously it was proposed that genes of the XIC evolved, at least in part, as a result of pseudogenization of protein-coding genes. In this study we show that the key XIC gene Xist, which displays fragmentary homology to a protein-coding gene Lnx3, emerged de novo in early eutherians by integration of mobile elements which gave rise to simple tandem repeats. The Xist gene promoter region and four out of ten exons found in eutherians retain homology to exons of the Lnx3 gene. The remaining six Xist exons including those with simple tandem repeats detectable in their structure have similarity to different transposable elements. Integration of mobile elements into Xist accompanies the overall evolution of the gene and presumably continues in contemporary eutherian species. Additionally we showed that the combination of remnants of protein-coding sequences and mobile elements is not unique to the Xist gene and is found in other XIC genes producing non-coding nuclear RNA.

Published

2008