Characteristics of phenotypic expression of autosomal monosomies during pathological postimplantation human development

Autosomal monosomies represent a severe form of genomic disbalance which determines elimination of human embryos already at the preimplantation stages. As a rule, they occur very rarely in the materials of spontaneously aborted embryos and fetuses. Molecular-cytogenetic studies were carried out on the karyotype of cells of 60 spontaneous abortuses of I trimester of pregnancy with cell degeneration or absence of cell proliferation in the cultures, as a result of which the cells could not be studied using the standard metaphase analysis. The embryos were characterized by an unexpectedly high frequency of mosaic variants of monosomies for chromosomes 7, 15, 21, and 22, which amounted to 19% of all chromosome aberrations. Lethal forms of monosomies for human chromosomes 7 and 15 were described for the first time, since they are not found in spontaneous abortuses by standard cytogenetic methods. A hypothesis was proposed which accounts for the possibility of early postimplantation lethality of the embryos with mosaic forms of autosomal monosomies. The differences were found between the cells with monosomies for different autosomes in the mechanisms of origin, intertissue localization, and phenotypic effects. It was shown that monosomies for chromosomes 7, 15, 21, and 22 in a mosaic state with the normal cell line can be compatible with the early stages of postimplantation differentiation of the cytotrophoblast. Predominant compartmentalization of the cells with monosomies for chromosomes 21 and 22 in the extraembryonic mesoderm, a derivative of epiblast, can be a critical factor, which makes it impossible the normal morphogenesis of embryonic structures.     

Molecular Cytogenetic Characteristics of Chromosome Imbalance in Spontaneous Human Abortion Cells with Low Proliferative Activity in Vitro

Karyotyping of noncultivated cells of 60 first-trimester spontaneous abortions (blighted ovum and missed abortions) was carried out using fluorescence in situ hybridization (FISH) with centromere-specific DNA probes for all chromosomes of the karyotype. Conventional cytogenetic study of these abortions was impossible because of cell culture failures. The algorithm is proposed for molecular cytogenetic FISH analysis of interphase karyotypes. Chromosome abnormalities were found in 32 fetuses (53.3%). In groups of missed abortions and blighted ovum, the frequency of numerical chromosome abnormalities was 50 and 60%, respectively. Both the numerical chromosome abnormalities typical of spontaneous human abortions (autosomal trisomies, sex chromosome aneuploidy, and polyploidy) and a relatively rare type of genomic imbalance unidentifiable by standard cytogenetic analysis (autosomal monosomies 7, 15, 21, and 22 in mosaic state) were observed. The frequency of these type of chromosome abnormalities comprised 19% of all known karyotype abnormalities determined in spontaneously aborted embryos. Note that the level of confined placental mosaicism in embryos with low cell proliferative activity was 25%, which is substantially higher than the corresponding parameter (1–2%) determined by prenatal diagnosis of chromosome abnormalities in developing embryos. The results of interphase FISH analysis of cells with low proliferative activity in vitro suggest that the pathology of early fetal development and missed abortion in humans are associated with a wider spectrum of chromosome abnormalities.     

Molecular cytogenetic characteristics of chromosome imbalance in cells of spontaneous human abortion fetuses with low proliferative activity in vitro

Karyotyping of noncultivated cells of 60 first-trimester spontaneous abortions (blighted ova and missed abortions) was carried out using fluorescence in situ hybridization (FISH) with centromere-specific DNA probes for all chromosomes of the karyotype. Conventional cytogenetic study of these abortions was impossible because of cell culture failures. The algorithm is proposed for molecular cytogenetic FISH analysis of interphase karyotypes. Chromosome abnormalities were found in 32 fetuses (53.3%). In groups of missed abortions and blighted ova, the frequency of numerical chromosome abnormalities was 50 and 60%, respectively. Both the numerical chromosome abnormalities typical of spontaneous human abortions (autosomal trisomies, sex chromosome aneuploidy, and polyploidy) and a relatively rare type of genomic imbalance unidentifiable by standard cytogenetic analysis (autosomal monosomies 7, 15, 21, and 22 in mosaic state) were observed. The frequency of these type of chromosome abnormalities comprised 19% of all known karyotype abnormalities determined in spontaneously perished embryos. Note that the level of confined placental mosaicism in embryos with low cell proliferative activity was 25%, which is substantially higher than the corresponding parameter (1-2%) determined by prenatal diagnosis of chromosome abnormalities in developing embryos. The results of interphase FISH analysis of cells with low proliferative activity in vitro suggest that the pathology of early fetal development and missed abortion in humans are associated with a wider spectrum of chromosome abnormalities.     

Evaluation of the role of uniparental disomy in early embryolethality of man

We carried out systematic studies of the contribution of uniparental disomy for eight human chromosomes, 2, 9, 11, 15, 16, 19, 20, and 21, to the etiology of spontaneous mortality of human embryos. Most of these chromosomes have regions with orthologous imprinted genes syntenic with those on mouse chromosomes, the disturbed expression of which is related to embryolethality in mice. Screening of uniparental disomy in spontaneous 5- to 16-week abortuses was performed by evaluation of the pattern of inheritance of alleles of polymorphic microsatellite loci located in the studied chromosomes. A total of 100 human embryos with cytogenetically determined normal karyotype were studied, in which arrest at the early stages of intrauterine development was determined by ultrasound examination of pregnant women. During this study, 13 embryos were discarded due to karyotype anomalies or nonpaternity. No cases of uniparental disomy were found among the 87 studied abortuses for any of chromosomes studied. The analysis of the results of this study and four other studies concerning the search for uniparental disomy in dead embryos and fetuses did not reveal its elevated frequency in spontaneous abortuses as compared to the theoretically expected value based on evaluation of the probable combination of meiotic errors in human gametes. The data we obtained suggest that, first, uniparental disomies for human chromosomes that have regions with orthologous imprinted genes syntenic with mouse chromosomes do not contribute noticeably to the death of human embryos at the early developmental stages and, second, the mechanisms underlying embryolethality as a result of disturbed expression of imprinted loci differ markedly in mammals evolutionarily remote from one other.     

Evaluation of the Role of Uniparental Disomy in Early Embryolethality of Man

We carried out systematic studies of the contribution of uniparental disomy for eight human chromosomes, 2, 9, 11, 15, 16, 19, 20, and 21, to the etiology of embryolethality. Most of these chromosomes have regions with orthologous imprinted genes syntenic with those on mouse chromosomes, the disturbed expression of which is related to embryolethality in mice. Screening of uniparental disomy in spontaneous abortuses of 5–16 weeks of pregnancy was performed by evaluation of the pattern of inheritance of alleles of polymorphic microsatellite loci located in the studied chromosomes. A total of 100 human embryos with cytogenetically determined normal karyotype were studied, in which arrest at the early stages of intrauterine development was determined by ultrasound examination of pregnant women. During this study, 13 embryos were discarded due to revealed karyotype anomalies or nonpaternity. No cases of uniparental disomy were found among the 87 studied abortuses for any of chromosomes studied. The analysis of the results of this study and four other studies concerning the search for uniparental disomy in dead embryos and fetuses did not reveal its elevated frequency in spontaneous abortuses as compared to the theoretically expected value based on evaluation of the probable combination of meiotic errors in human gametes. The data we obtained suggest that, first, uniparental disomies for human chromosomes that have regions with orthologous imprinted genes syntenic with mouse chromosomes do not contribute noticeably to the death of human embryos at the early developmental stages and, second, the mechanisms underlying embryolethality as a result of disturbed expression of imprinted loci differ markedly in evolutionarily remote mammals.     

Origin of acrocentric trisomies in spontaneous abortuses

Summary A total of 33 spontaneous abortuses with various acrocentric trisomies were studied for the origin of the extra chromosomes using Q- and R-band polymorphisms as markers. Eleven trisomic abortuses were informative: nine trisomic abortuses (one with trisomy 13, three with trisomy 21, and five with trisomy 22 including one with a 46,XX/47,XX,+22 mosaicism) originated at maternal first meiosis; a 21-trisomic abortus resulted from an error at maternal second meiosis (or first mitosis); and a 13-trisomic abortus was of maternal first or second meiotic origin. The abortus with mosaic trisomy 22 started as a 22-trisomic zygote resulting from an error at maternal first meiosis, followed by a mitotic (in vivo or in vitro) loss of the paternally derived chromosome 22.     

Skewed X-chromosome inactivation in human embryos with mosaic trisomy 16

The sex ratio and X-chromosome inactivation were analyzed in placental tissues of human spontaneous abortuses with pure and mosaic forms of chromosome 16 trisomy. The sex ratio value was found to decrease with an increase in the share of cells with the trisomic karyotype, which suggests differential survival of embryos belonging to different sexes. The pattern of X-chromosome inactivation in cells of extraembryonic mesoderm in the control group of embryos and in spontaneous abortuses with the level of trisomy 16 below 80% corresponded to random X-inactivation, whereas in most embryos with a frequency of trisomy 16 exceeding 80% skewed inactivation was observed. Our results support the hypothesis about the existence of an autosomal transfactor influencing the initiation of X-chromosome inactivation and suggest its possible localization on chromosome 16.     

Estimation of the mehylation status of the promoter region of the cell cycle control gene <Emphasis Type="Italic">P14ARF</Emphasis> in placental tissues of spontaneous abortions with chromosomal mosaicism

The methylation status of the promoter region of the cell cycle gene P14ARF was studied in the extraembryonic mesoderm and in the cytotrophoblast of 46 human spontaneous abortions with chromosomal mosaicism. Aberrant methylation of alleles of this gene was revealed for the first time in placental tissues of 9% of embryos. The identified epimutations were found to be characteristic of embryos with aneuploid cell clones of postzygotic origin. It is suggested that epigenetic inactivation of loci responsible for the regulation of cell division and for segregation of chromosomes is associated with the origin of mosaic forms of the karyotype at early stages of human embryonic development.     

Chromosomal mosaicism in spontaneous abortions: Analysis of 650 cases

It is known that up to 50% spontaneous abortions (SA) in the first trimester of pregnancy are associated with chromosomal abnormalities. We studied mosaic forms of chromosomal abnormalities in 650 SA specimens using interphase MFISH and DNA probes for chromosomes 1, 9, 13/21, 14/22, 15, 16, 18, X, and Y. Numerical chromosomal abnormalities were discovered in 58.2% (378 cases). They contained combined chromosomal abnormalities (aneuploidy of several chromosomes or aneuploidy in combination with polyploidy in the same specimen) in 7.7% (29 cases) or 4.5% of the entire SA sample; autosomal trisomy, in 45% (18.2% in chromosome 16, 8.9% in chromosomes 14/22, 7.9% in chromosomes 13/21, 3.1% in chromosome 18, and 1.4% in chromosome 9). Chromosome X aneuploidy was found in 27% cases, among which 9.6% represented chromosome X monosomy. Polyploidy was observed in 22.9% cases. In 5.1% cases, we observed mosaic form of autosomal monosomy. Among the SA cases with chromosomal abnormalities mosaicism was observed in 50.3% (∼ 25% of the entire SA sample). The results of the present study indicate that significant amount of chromosomal abnormalities in SA cells are associated with disturbances in mitotic chromosome separation, which represents the most common cause of intrauterine fetal death. It was also shown that original collection of DNA probes and the technique of interphase MFISH could be useful for detection of chromosomal mosaicism in prenatal cell specimens.     

Incidence of chromosomal mosaicism in human embryos at different developmental stages analyzed by fluorescence in situ hybridization

Chromosomal mosaicism has been reported in in vitro-cultured embryos at early cleavage stages, as well as in morulae and blastocysts. We have assessed the incidence and pattern of mosaicism during in vitro development of human embryos from early-cleavage stages to morula and blastocyst. Fifty spare embryos were fixed for fluorescence in situ hybridization (FISH) analysis for chromosomes X, Y, 13, 18, and 21 on days 2 or 3 (4- to 10-cell stage) (n = 16), on day 4 (morula stage) (n = 14), on day 5 (pre-expanded blastocyst) (n = 5), and the expanded blastocyst stages (n = 15). Blocked embryos (no cleavage observed within the last 24 hr) were not included. A total of 2367 cells were analyzed. Four early-cleavage stage embryos were found uniformly diploid; all of the others were mosaic for the chromosomes analyzed (mean diploid nuclei 48.3% +/- 28.7). All of the embryos at more advanced developmental stages, except one fully normal morula, had mosaic chromosome constitutions, with an increase in the percentage of diploid cells in morulae, pre-expanded, and expanded blastocysts, respectively (mean diploid nuclei 78.6% +/- 11.7, 66.0% +/- 20.8, 79.6% +/- 12.8), in comparison with earlier stages. Hypotheses about the origin of mosaicism and embryo regulation mechanisms will be discussed.     

Infertile couples with Robertsonian translocations: preimplantation genetic analysis of embryos reveals chaotic cleavage divisions

Preimplantation genetic diagnosis (PGD) may provide a feasible option for some Robertsonian translocation carriers who experience severe difficulty in achieving a normal pregnancy. We report on five PGD cycles for two such couples, 45,XY,der(13;14)(q10:q10) and 45,XX,der(13;21)(q10;q10), carried out by biopsy of two cells from day 3 post-insemination embryos generated by in vitro fertilisation. Locus-specific YAC probes for chromosomes 13, 14 and 21 were used to detect the chromosomes involved in the translocation using multicolour FISH. Three embryos transfers were carried out (two single embryo transfers and one double transfer) but no clinical pregnancies were established. In two cycles no embryos were transferred as all those biopsied were chromosomally abnormal. Combined results from both couples show 13% (6/45) of embryos analysed were normal for the translocation chromosomes and 87% (39/45) were chromosomally abnormal; these were categorised as 36% aneuploid or aneuploid mosaic and 51% chaotic where the chromosome constitution varied randomly from cell to cell. This suggests two factors may be acting to reduce fertility in these couples; the aneuploid segregation of the parental Robertsonian translocation and also a post-zygotic factor leading to uncontrolled chromosome distribution in early cleavage stages in an exceptionally high proportion of embryos. Received: 24 September 1997 / Accepted: 22 October 1997     

Evidence for high frequency of chromosomal mosaicism in spontaneous abortions revealed by interphase FISH analysis.

Numerical chromosomal imbalances are a common feature of spontaneous abortions. However, the incidence of mosaic forms of chromosomal abnormalities has not been evaluated. We have applied interphase multicolor fluorescence in situ hybridization using original DNA probes for chromosomes 1, 9, 13, 14, 15, 16, 18, 21, 22, X, and Y to study chromosomal abnormalities in 148 specimens of spontaneous abortions. We have detected chromosomal abnormalities in 89/148 (60.1%) of specimens. Among them, aneuploidy was detected in 74 samples (83.1%). In the remaining samples, polyploidy was detected. The mosaic forms of chromosome abnormality, including autosomal and sex chromosomal aneuploidies and polyploidy (31 and 12 cases, respectively), were observed in 43/89 (48.3%) of specimens. The most frequent mosaic form of aneuploidy was related to chromosome X (19 cases). The frequency of mosaic forms of chromosomal abnormalities in samples with male chromosomal complement was 50% (16/32 chromosomally abnormal), and in samples with female chromosomal complement, it was 47.4% (27/57 chromosomally abnormal). The present study demonstrates that the postzygotic or mitotic errors leading to chromosomal mosaicism in spontaneous abortions are more frequent than previously suspected. Chromosomal mosaicism may contribute significantly to both pregnancy complications and spontaneous fetal loss.     

Skewed X-chromosome inactivation in human miscarriages

The sex ratio in the first trimester of pregnancy shifts toward males due to increased elimination of female embryos. One reason for this phenomenon may be disruption of X chromosome inactivation. In this paper, we have analyzed the nature of the X chromosome inactivation in extraembryonic tissues of induced and spontaneous abortuses with 46,XX karyotype. Both equiprobable and asymmetric inactivation have been found in chorionic cytotrophoblast from spontaneous and induced abortuses. In the extraembryonic mesoderm of the control group of embryos, only equiprobable inactivation has been found, whereas this parameter was shifted in 15% of spontaneous abortions. The highest incidence of the selective inactivation of one of the parent homologues was found in the group with a lack of development of embryos and embryos from women with recurrent miscarriages. One of the reasons for the observed results can be compartmentalization of cells in the blastocyst leading to the nonrandom redistribution of cells and the predominance in the inner mass of cells with an active X chromosome with aberrations incompatible with normal embryonic development.     

Double trisomy in spontaneous abortions

Cytogenetic data on products of conception from spontaneous abortions studied over a 10-year period have been reviewed for double trisomies. A total of 3034 spontaneous abortions were karyotyped between 1986 and 1997. Twenty-two cases with double trisomy, one case with triple trisomy, and a case with a trisomy and monosomy were found. The tissues studied were mostly sac, villi, or placenta. The gestational age ranged from 6 to 11 weeks and the mean age was 8.2 ± 1.7 (SD) weeks. The mean maternal age in years was 35.9 ± 5.3. Of the twenty-two cases, four were mosaics. All but two of the cases involved autosomal aneuploidies. The double trisomies included chromosomes 2, 4, 5, 7, 8, 12, 13, 14, 15, 16, 17, 18, 20, 21, and 22. The chromosomes that were trisomic in more than one double trisomy case were numbers 16 (8 cases), 8 (5 cases), 15 (4 cases), 2, 13, and 21 (3 cases each), and 5, 7, 14, 18, 20, 22, and X (2 cases). The triple trisomy involved chromosomes 18, 21, and X. The monosomy and trisomy case was a mosaic, with a monosomy 21 in all cells and some cells also with a trisomy 5. The double trisomies cited for the first time in this study were 4/13, 5/16, 8/14, 8/15, 14/21, 15/20, and 7/12. The pooled mean maternal age for double trisomy cases (34.1 ± 5.7 years) was higher than that for single trisomy cases (31 ± 6.1 years). The difference was statistically significant at P = < 0.001. The pooled mean gestational age of spontaneous abortions was lower for double trisomy (8.7 ± 2.2 weeks) than for reported single trisomy cases (10.1 ± 2.9 weeks). This difference is also statistically significant at P = < 0.001. The sex ratio among double trisomies was 15 females to 13 males. This difference was not statistically significant from the expected 1 : 1. Received: 27 June 1997 / Accepted: 4 September 1997     

DNA methylation,retroviruses, and embryogenesis

By exposing preimplantation embryos to Moloney leukemia virus (M-MuLV), we have previously derived substrains of mice designated as Mov-1-Mov-13 which genetically transmit the virus from one generation to the next. In some of the substrains the inserted viral genome becomes activated at specific stages of embryogenesis and the available evidence suggests that these viral genomes are developmentally regulated. To investigate the effect of cellular differentiation on virus expression, M-MuLV was introduced either into preimplantation or postimplantation mouse embryos or into embryonal carcinoma (EC) cells. Whereas preimplantation embryos or EC cells are not permissive for virus expression, efficient replication occurred in postimplantation embryos or in differentiated cell lines. The viral genomes introduced into early embryonal cells were highly methylated and noninfcctious when analyzed in the adult. In contrast, viral genomes introduced into postimplantation embryos or into differentiated cells remained unmethylated and were infectious in a transfection assay. These results demonstrate an efficient de novo methylation activity which appears to be involved in repression of genes introduced into pluripotent embryonal cells and which is not observed in cells of the postimplantation embryo or in differentiated cells in tissue culture.     

Anatomic and chromosomal anomalies in 944 induced abortuses

Summary A total of 944 induced abortuses, 922 of which apparently were anatomically normal and 22 of which were anatomically abnormal, were set up in culture. Of these abortuses, 910 (96.4%) were successfully karyotyped. The study can be divided into two periods. In the initial period, specimens without recovered fetal tissues were excluded, and no chromosome anomalies were found among the 182 abortuses karyotyped. In the later period of sutdy, abortion specimens both with and without recovered fetal tissues were included, and 23 chromosomally abnormal abortuses, 9 of which were without recovered fetal tissues, were found among the 728 abortuses karyotyped. This gives a chromosome abnormality rate of 3.2%. The mean ovulation age for the 728 abortuses was 63.4 days (range 33–109 days). The mean maternal age was 28.4 years (range 15–48 years). The chromosomally abnormal abortuses included 13 (10 nonmosaic and 3 mosaic) trisomics, 7 triploids, 2 abortuses with balanced D/D translocations and an abortus with an XXq- karyotype. Among the 616 abortuses in which both amniotic and fetal tissues were karyotyped, there was complete karyotypic agreement between the two tissues. Among the 339 abortuses in which tissue samples from both sides of the body were analyzed, complete agreement was also found. Factors that may influence the prevalence of abnormal karyotypes in induced abortuses are discussed.     

Epigenetic inactivation of the <Emphasis Type="Italic">RB1</Emphasis> gene as a factor of genomic instability: A possible contribution to etiology of chromosomal mosaicism during human embryo development

The methylation status of the cell cycle control gene RB1 has been studied in placental tissues of spontaneous abortions of the first trimester of pregnancy with mosaic variants of numerical chromosomal abnormalities verified by a molecular cytogenetic examination. Aberrant methylation of the gene promoter region has been revealed for the first time in 20% of embryos with chromosomal mosaicism that died in utero. A maximum frequency of epimutations was recorded in a group of embryos with a low level of abnormal cells for which mitotic errors are most likely to determine the formation of mosaic aneuploidy in primary euploid zygotes. It has been suggested that aberrant epigenetic genomic modifications at early stages of human embryonic development can be one of the mechanisms promoting genomic instability realized in the form of mosaic abnormalities of the karyotype that are incompatible with the normal course of embryogenesis.     

Characteristics of the expression of t12 mutation in mouse embryos with structural aberrations of chromosome 17

Developmental profiles of mouse embryos with deletions, duplications of nullisomy for the proximal part AB of chromosome 17, including genes of the T-t complex, were studied in mice with marker translocations Rb (16.17)7Bnr or T(16;17)43H and heterozygous for lethal t12 mutation. The embryos t12t12 and t12t12-(Dp17CDE; Dl16) were shown to be eliminated at the morula stage; embryos t12+, t12+ + or t12t12+ survive during preimplantation and early postimplantation stages: t12 embryos (hemizygous for all genes of the 17AB region, including all t-alleles) have quite normal cleavage, blastulation and implantation, but die soon thereafter. The embryos with nullisomy 17AB combined with deletion 17CDE survive up to the morula stage. These data are in line with previously proposed hypothetical mechanism for mutual activation of homologous chromosomes and their segments during initial stages of embryogenesis in mice. The system of marker chromosomes Rb7Bnr and T43H in combination with various alleles of the T complex might be recommended as a useful tool in analysis of primary developmental effects of different t-alleles in mice.     

Immortalized cell lines from murine embryos are characterized by progressive destabilization of their karyotype structure

The karyotype structure was studied for three cell lines obtained from cells of transgenic murine embryos at early stages of their establishment. The first line was obtained from a transgenic embryonic explantant containing oncogen v-sis under promotor MMTV, two other lines originated from cells of transgenic embryos containing oncogen k51. The karyotypic analysis of G-banded metaphase chromosomes revealed deviations from the normal mouse karyotype as early as by the third passage of cultivation of independent embryonic cell lines that contained a foreign oncogene in their genome. The repeated analysis that involved 15-22 passages revealed similar abnormalities: variability and progression in chromosome number with the appearance of hyperpolyploid combinations, and a large number of rearranged chromosomes, both marker and unique ones. It is concluded that introduction of a foreign oncogene into murine cell genome leads to its enhanced and progressive non-specific destabilization. Oncogen v-sis produces a more valuable karyotype destabilization than oncogen k51.