Stem cells giving rise to extraembryonic tissues.

The review is devoted to characterization of stem cells involved in the formation of extraembryonic tissues during the early development of mammalian embryos. Here we present our results of characterization of stem cells from the trophoblast and extraembryonic endoderm of voles and comparative analysis of these cells and the corresponding mouse cells and discuss possible signal pathways maintaining these cells in undifferentiated state.

[Modifications in major satellite methylation in the nucleus of a two-cell mouse embryo dependent on developmental conditions].

The study of the degree of DNA methylation in the nucleus, in particular of the major satellite in two-cell mouse embryos developing in the maternal organism, in standard cultural media M16 used for cultivation of mouse embryos and M2 media used for manipulations with embryos in the air was conducted. Two-cell embryos nucleus aged 44-46 hours after chorionic hormone injection were investigated. The revealed results are evidence for the dependence of the major satellite Ts methylation level of the developmental conditions of embryos. The methylation level of the nucleus DNA was shown to increase with a deterioration of environmental conditions. It was reported, that in the case of cultivation in M2 media not suitable for long cultivation, the DNA Ts methylation level, MaSat in particular, was higher compared to other embryo groups. Accordingly, not only a significant number of genes but also repeats of satellite DNA are involved in epigenetic regulation.

[Localization of satellite DNA and associated protein in respect to nucleolar precursor bodies in one- and two-cell mouse embryos].

Nucleolar precursor bodies (NPB) are characteristic structures in the nuclei of one- and two cell mouse embryos. The alignment of centromeric (CEN) and pericentromeric (periCEN) chromosome regions to the chromatin layer surrounding NPB is known. Mus musculus 4 satellite DNA (satDNA) types are known to be located in CEN region--mouse minor satellite (MiSat) and mouse satellite 3 (MS3); and periCEN region--mouse major satellite (MaSat) and mouse satellite (MS4). We determined the localization of 4 types of mouse satDNA CEN and periCEN regions and associated proteins: RNA-helicase p68, SMC3, Rad21 subunits of the cohesin complex and SYCP3 subunit of the synaptonemal complex (SC). Partially flattened nuclei of the one- and two-cell embryos and embryos treated with ocadaic acids (OA) were used. Different satDNA fragments revealed distinct domains at the surface of NPB: periCEN MaSat was always localized in NPB more internally covering almost entire surface of NPB while CEN MiSat, MS3 and periCEN MS4 showed more peripheral localization. All 4 satDNA did not cover the entire areas of the NPB, indicating the presence of other DNA sequence involved in its formation. RNA-helicase p68 and components of multiprotein cohesin and synaptonemal complexes are the necessary components of NPB. Our results support the opinion that NPB serve as a precursor of chromocenters.

[The study of preimplantation development of mice embryos labelled with green fluorescent protein gene (EGFp)].

One of the crucial problems of developmental biology is the study of mechanisms of regulation of gene expression in early embryogenesis. Here we studied dynamics of mosaic appearance of a marker fluorescent protein in in vitro developing mice embryo derived from zygotes after microinjections to male pronuclei of cloned DNA fragment carrying EGFP under control of different promoters. Main attention was paid to initial stages of development, when structural rearrangements and reprogramming of both parental genomes, activation of zygotic genes, and control of development by embryo genome take place.

Evidence for the existence of satellite DNA-containing connection between metaphase chromosomes.

Physical connections between mitotic chromosomes have been reported previously. It was assumed that the interchromosome connection was based on the DNA-protein thread. However, the data about DNA sequences and protein component in the thread is fragmentary. We demonstrated on the mouse cultured cell line and prematurely condensed chromosomes that: (a) all four mouse satellite DNA fragments (major and minor satellite, mouse satellite 3 (MS3) and mouse satellite 4 (MS4)) were involved in the thread formation; (b) MS4 was involved in the thread to the least extent among all the other fragments; (c) telomere was never a member of the thread; (d) the thread was synthesized at a late G(2) phase; (e) RNA helicase p68 and CENP-B were among the protein components of the interchromosome connection. It was shown by FACS analysis that in mouse and human cell lines: (1) the flow karyotype spectrums were never free from chromosome aggregates; (2) chromosome association did not depend on the chromosome length and each chromosome was free to associate with the other.

[Theoretical and applied aspects of epigenetic reprogramming in mammalian development].

Epigenetic reprogramming implies changes in germ and somatic cells of an embryo, which are the consequences of gene activity regulation by means of DNA methylation, histone modification, and altered chromatin compaction. This suggests that epigenetic changes in mammalian cell nucleus occur during gametogenesis and toti-potent zygote formation. Epigenetic changes proceed during morphological and inductive interactions between cleaving blastomeres and subsequent interactions between the inner cell contents and trophoectoderm, as well as when the germinal layers (blastophyllums) and their derivatives appear, i.e., during the embryonic histogenesis. Some authors assume that in vitro fertilization and consequent human zygote cultivation lead to defects of genomic imprinting. This leads to abnormal embryonic and fetal development and increased incidence of hereditary diseases-Beckwith-Wiederman or Angelman syndromes. The present review, critically considers the facts on which the above hypothesis is based.

[Localization of chromosomal nucleus organizing regions in one-cell mouse embryos and oocytes by fluorescence in situ hybridization]. / Vyiavlenie iadryshkoobrazuiushchikh raionov khromosom v odnokletochnykh zarodyshakh myshi s pomoshch'iu fluorestsentnoi gibridizatsii in situ.

In mouse zygotes, ribosomal genes (rDNA) are transcriptionally silent and so-called "nucleolar precursor bodies" are present instead of typical nucleoli. However, the functional significance of these structures remains obscure. Specifically, it remains unknown whether structural association between the nucleolar precursor bodies and rDNA are maintained when rDNA synthesis is switched off. Here, we studied for the first time the rDNA topology in one-cell mouse embryos and MII oocytes using fluorescence in situ hybridization and mouse rDNA probes. Our data suggest that in the pronuclei of one-cell embryos, rDNAs form rather compact clusters, whose number does not exceed that of nucleolus organizing chromosomes characteristic for the haploid set of mouse chromosomes. In zygotic pronuclei, not all nucleolar precursor bodies are associated with rDNA and not all rDNA repeats are attached to the nucleolar precursor bodies. Altogether, these data favor the idea that spatial interactions of nucleolus organizing chromosomes and nucleolar precursor bodies are not obligatory. We assume that associations between nucleolar precursor bodies and nucleolus organizing chromosomal regions are mediated by centromeric heterochromatin. The total numbers of silver stained nucleolus organizing chromosomes in CBA and C57BL mice are different. rDNA genes are unequally distributed among nucleolus organizing chromosomes and nucleolus organizing regions of sister chromatids.

Persistence of human mitochondrial DNA throughout the development to the blastocyst of mouse zygotes microinjected with human mitochondria.

The conditions for transfer of human mitochondria into fertilised mouse ova were elaborated. Species-specific primers were designed to discriminate human mitochondrial DNA (mtDNA) and the endogenous mtDNA in the preimplantation embryos. Human mitochondria isolated from the HepG2 cell line were microinjected into murine zygotes, and the latter cultured for 96 h to the blastocyst stage. The polymerase chain reaction allowed the detection of human mtDNA at every stage of embryo cleavage. In some cases a clear disparity in distribution of human mtDNA among blastomeres was evident.

[Cytogenetic analysis of sister chromosome sets in the second polar body and in pronuclei of unicellular mouse embryos. I. Frequency and origin of aneuploidy in embryos heterozygous for the reciprocal chromosome translocation T[14;15]6Ca]. / Tsitogeneticheskii analiz sestrinskikh naborov khromosom vo vtorom poliarnom tel'tse i v pronukleusakh odnokletochnykh zarodyshei myshei. I. Chastota i proiskhozhdenie aneuploidii u zarodyshei, geterozigotnykh po retsiproknoi khromosomnoi translokatsii T[14;15]6Ca.

We carried out a cytogenetic study of ovulating oocytes and unicellular embryos, heterozygous by reciprocal chromosomal translocation T[14;15]6Ca. Okadaic acid was used to induce premature condensation of the interphase chromosomes in the embryos, and the number of G1 chromosomes was counted in the second polar body and pronuclei. It was shown that cytogenetic analysis of the sister chromosomal sets adequately determines the frequency of chromosomal segregation errors during oocyte meioses I and II. Trisomy and monosomy were observed in 36.2% embryos, while 2.2% featured tetrasomy or double monosomy. Errors of the first meiotic division caused aneuploidy in 28.5% embryos; trisomy and monosomy resulted from the homologs non-disjunction and chromatid presegregation in 17.6 and 10.9%, respectively. Numeral chromosomal aberrations in 4.1% of the embryos resulted from abnormal chromosomal segregation during oocyte meiosis II, while paternal chromosomal aberrations were found in 5.8% embryos. The main advantage of the proposed method is not only the higher accuracy in estimating the meiotic error frequency, but also the possibility to trace the origin of aneuploidy in mammalian embryos.

The behaviour of mitochondria and cell integration during somatic hybridisation of sister blastomeres of the 2-cell mouse embryo.

The capacity of sister blastomeres of mouse embryos for induced fusion changed during the 2-cell stage. It was at low level (24%) at the early 2-cell stage, increased and reached 98.5% at the middle 2-cell stage and fell sharply to 31% at the late 2-cell stage. At the time corresponding to the G2/M-phase of the cell cycle the blastomeres fused in only 8% of cases. Vital staining of 2-cell embryos by rhodamine 123 showed that the mitochondria were dispersed throughout the cytoplasm with a ring-like (around the nucleus) or spot-like (over the metaphase plate) concentration in the centre of each blastomere. At the periphery of blastomeres the mitochondrial content was low. The behaviour of the mitochondria reflected the subsequent events of structural and functional integration of the sister blastomeres under induced fusion: a discernible boundary between partners during 30 min after electrofusion or 1 h after fusion with polyethylene glycol; movement of the two 'rings' to the centre of the blastomere fusion products (BFP) to form one large bright 'spot' over the common metaphase plate; mitochondria outlining the shape of the spindle and connection between sister blastomeres until completion of the first mitosis of BFP. The data obtained suggest that fusion of the blastomeres does not lead to extensive changes in the hybrid cytoplasm and integration of nuclear material is taking place only at metaphase stage. Cytogenetic examination of BFP at the 2-cell stage confirmed reconstruction of the tetraploid embryos and found that sister blastomeres of such embryos could asynchronously enter the next cleavage division similarly to normal diploid 2-cell embryos.

[The role of the maternal genotype in the realization of the embryotoxic activity of teratogens]. / Rol' genotipa materi v realizatsii émbriotoksicheskoi aktivnosti nekotorykh teratogenov.

Against the background of the induced iron deficit ethanol (6.4 g/kg) causes aggravation of the embryolethal effect and anomalies in 15% of embryos in 14-day pregnant rats. Changes in the genome of rat males and females after the injection of the plasmid with a foreign gene at the stage of two pronuclei and the subsequent crossing with intact animals account for the increase in sensitivity of embryos to subteratogenic doses of sodium salicilate. The maternal organism disturbances have a more pronounced effect than the paternal ones.

[The quantitative study of the areas of active rDNA location and of the other parameters of the interphase nucleolus detectable by silver staining during the cell differentiation of the rat trophoblast]. / Kolichestvennoe issledovanie zon lokalizatsii aktivnosti rDNK i drugikh parametrov interfaznogo iadryshka, vyiavliaemykh metodom serebreniia v khode differentsirovki kletok trofoblasta krysy.

Different quantitative parameters of nucleolar silver staining have been studied in the cambial rat trophoblast cells on the 12th, 13th and 14th days of gestation. It has been shown that the number of Ag-positive granules in the nucleoli varied from 10 to 120. The number and the total area of silver stained granules in the nuclei increased progressively in the course of polyploidization, but was not doubled passing to the next ploidy level. Nevertheless, nucleolar area increased proportionally to the ploidy degree. The mean number and the total area of Ag-stained granules as well as the nucleolar area estimated for each ploidy level did not change significantly in the course of placenta development, suggesting an unchanged level of NOR activity at the studied stages of trophoblast cell differentiation. The data obtained on the interphase nucleoli differ from the data of the analysis of the metaphase Ag-NOR at the same period of placenta development, suggesting a diversity in the interphase and metaphase NOR organization. A proportion of cells with different number of nucleoli in the cambial rat trophoblast cells was maintained unchanged in the studied period of the placenta development, the majority (80-90%) of cells contained from 1 to 3 nucleoli. Such a proportion was similar in the cells of different levels of ploidy up to 16c. In this connection the association of NORs is suggested to be in relation with switching from the polyploid mitotic cycle to the endoreduplication leading to polyteny.

Spontaneous sister chromatid differentiation (SCD) and sister chromatid exchange (SCE) in mouse blastocyst chromosomes.

The phenomenon of spontaneous differentiation (without bromodeoxyuridine in the culture medium) of sister chromatids of mouse chromosomes at the blastocyst stage of embryogenesis is described. The frequency of sister chromatid exchanges in such differentiated chromosomes was calculated.

Okadaic acid induces premature chromosome condensation reflecting the cell cycle progression in one-cell stage mouse embryos.

Haploid parthenogenetic embryos as well as fertilized mouse eggs were treated in vitro with 1-10 microM okadaic acid (OA) at the one-cell stage. Cytogenetic analysis detected that OA induces nuclear envelope breakdown (NEBD) and premature condensation of interphase chromosomes in pronuclei as well as in 2nd polar body (PB) nuclei. G1-, S-, and G2-type prematurely condensed chromosomes (PCC) were found in pronuclei of embryos of different age, which reflects their progression through the first cell cycle. In nuclei from 2nd PBs only G1- and S-type PCC were observed. Using the types of PCC as a criterion of different phases of the cell cycle, it was possible to estimate that in haploid parthenogenetic embryos G1-phase lasts until 5.5 hr post activation (hpa), S-phase takes from 4.5 to 9.5 hpa, and from 8.5 hpa G2-phase had started. Second PBs were found to be in G1-phase until 6.5 hpa and S-phase started in some as early as 5.5 hpa, but in most not before 7.5 hpa. Treatment with OA visualizes G1-chromosomes in pronuclei as well as in 2nd PBs, and it is easy to count the number of these chromosomes and recognize a T6 marker chromosome. The possibility to apply cytogenetic analysis of G1-chromosomes from 2nd PBs for a more accurate detection of maternal meiotic nondisjunction is discussed.

[The frequency of sister chromatid exchanges in preimplantation mouse embryos]. / Chastota sestrinskikh khromatidnykh obmenov v doimplantatsionnykh zarodyshakh myshei.

The frequency of sister-chromatid exchanges (SCE) was analysed in spontaneously and superovulated morulae and blastocyst of CBA, C57Bl, F1 CBA x C57Bl mice in culture with bromodeoxyuridine (BrdU). The background level for SCE was found to be 4-5 times higher in early embryos than in fetal or adult tissues of the mouse. The phenomenon of spontaneous sister-chromatid differentiation (SCD) of blastocyst chromosomes without any treatment with BrdU was observed. The SCE frequency was calculated on such chromosomes and was the same as with BrdU. A possible mechanism of this phenomenon is suggested.

Visualization of second polar body chromosomes in fertilized and artificially activated mouse oocytes treated with okadaic acid.

OBJECTIVE: Our objective was to develop a new reliable method for cytogenetic analysis of the chromosome set in second polar bodies (PBs) from one-cell-stage mouse embryos. SETTING: The study took place at the Reproductive Biology and Experimental Cytogenetics Laboratories. METHODS: Oocytes from F1 hybrid and T6/T6 mice were fertilized in vitro and artificially activated with ethanol. Zygotes, parthenogenetic embryos, and isolated second PBs were treated with 10 microM okadaic acid (OA) for 1-2 hr, further cultured in plain medium, and fixed. Chromosomal preparations were made and C-banded, and the number of chromosomes in second PBs and embryos was counted. RESULTS: OA-induced nuclear envelope breakdown in pronuclei as well as in second PB nuclei. Countable chromosome plates were obtained in 92-93% of second PBs treated 4-4.5 hr after activation. The T6 marker chromosome could easily be recognized in second PBs from T6/T6 mice. A haploid set of chromosomes was obtained in 18 of 19 isolated second PBs treated with OA 4-5 hr after activation. CONCLUSION: Treatment of second PBs with OA allows visualization of the PB chromosomes. Cytogenetic analysis of the second PB and the corresponding oocyte constitutes a new approach for the study of meiotic nondisjunction in experimental cytogenetics. The chromosomal study of isolated second PBs seems to be promising for clinical preimplantation cytogenetics.

[Cytological study of the nucleolus organizer regions in the chromosomes of CBA and C57BL mice and their hybrids]. / Tsitologicheskoe issledovanie iadryshkoorganizuiushchikh raionov khromosom u myshei linii CBA, C57BL i ikh gibridov.

Transcriptionally active NORs of chromosomes visualized by AgNO3 staining were studied in bone marrow and embryos (day 10 of gestation) of CBA and C57BL mice, as well as of (CBA x C57BL)F1 hybrids. These mouse strains were shown to differ by the average number of Ag-positive NORs in marrow cells; in hybrids, the number of NORs is greater than in the parent strains. During embryogenesis, the number of chromosomes carrying silver-stained NORs increases; however, no significant differences by this parameter was detected between hybrid and C57BL embryos. The average number of silver-stained NORs was the smallest in embryos of CBA mice.