Griseofulvin-induced aneuploidy and meiotic delay in female mouse germ cells. I. Cytogenetic analysis of metaphase II oocytes.

Griseofulvin (GF) was tested in female mouse germ cells for the induction of aneuploidy and meiotic arrest. Superovulated mice were orally treated with 200, 666, 1332 or 2000 mg/kg in olive oil at the time of human chorionic gonadotrophin (HCG) injection and were sacrificed 18 h later. A dose-dependent increase in the frequency of metaphase I (M I) arrested oocytes was observed (maximum of 70%). Aneuploidy was not significantly induced. Also, the kinetics of meiotic progression up to the metaphase II (M II) stage was studied in untreated mice in order to correlate the time of treatment with the time of the first meiotic division. The results demonstrate that the majority of cells was treated with GF approximately 8 h before the M I stage. A second series of experiments were performed to test GF effects at a different treatment time. Doses of 200, 666 or 2000 mg/kg were administered 2 h post HCG. As in the first series of experiments, the animals were sacrificed 18 h post HCG. The results, compared with those obtained in the first experimental series, showed an inverse trend for meiotic arrest and aneuploidy induction. The frequency of M I arrested oocytes dropped from a maximum of 70% to a maximum of 20%, while, at the latest treatment time, a dose-dependent increase in the frequency of hyperploid oocytes was observed up to 56% aberrant cells at 2000 mg/kg. Altogether the results suggest that the arrest of meiotic division and the induction of aneuploidy by GF are caused by interaction with different targets or different developmental stages of the same target. In conclusion, GF has been shown to induce aneuploidy during the first meiotic division in a dose-related manner, together with other effects such as polyploidy, developmental delay and meiotic arrest. Also, these findings demonstrate that the sensitivity of the oocyte target(s) may be restricted to a specific time period and that a correct experimental protocol is critical for assessing the aneugenic activity of a chemical.     

Aneuploidy determination in C-banded mouse metaphase II oocytes following cyclophosphamide treatment in vivo

The ability of cyclophosphamide (CYC) to induce aneuploidy in metaphase II oocytes of mice was evaluated. Various dosages (50, 100, 150, 250 and 350 mg/kg body weight) of CYC were injected intraperitoneally prior to induced ovulation. Chromosomes were C-banded to allow a more accurate counting of chromosomes and chromatids, and analysis of structural aberrations. Structural aberrations were not observed. Although the incidence of aneuploid oocytes in the treated groups was greater than that in the control group, the differences were not statistically significant. This result was unlike those of other relevant reports and several plausible explanations for such a disparity are discussed.     

Cytogenetic analysis of ovulated mouse oocytes following hyperthermic stress during meiotic maturation

Effects of hyperthermia on maturing oocytes of a random-bred stock of mice were investigated to determine if those effects might in part be responsible for the decreased reproductive efficiency observed in animals during periods of high ambient temperatures. Oocytes were collected from virgin mice following synchronization of ovulation with Pregnant Mare Serum Gonadotropin (PMSG) and Human Chorionic Gonadotropin (HCG). Stressed animals were exposed to hyperthermic conditions (35 ± 1 °C, 65 ± 3% relative humidity (RH)) immediately following the injection of HCG until the time of oocyte recovery. Prior to heat exposure all animals were maintained at control conditions of 21 ± 2 °C and 65 ± 5% RH. Meiotic maturation was disrupted in a significant proportion (>25%) of oocytes from stressed animals. Apparent disruption of the spindle mechanism resulted in the cessation of the meiotic process at metaphase I in 12.28% of the oocytes from heat-stressed mice with 4.87% oocytes exhibiting subnucalei. Other nuclear forms presumed to be non-viable occurred in an additional 8.58% of the oocytes. Two oocytes exhibited retained polar body chromatin and several oocytes at metaphase II exhibited atypical configuration. The remaining oocytes were in normal metaphase II configuration.     

Behaviour of mouse primary spermatocyte nuclei after fusion to enucleated metaphase II oocytes

Primary spermatocytes originating from prepubertal mouse testes were electrofused to metaphase II (MII)-stage oocytes, enucleated either by the conventional micromanipulation method or by chemical treatment with etoposide and cycloheximide. These experiments were followed by assessment of morphological changes in transferred nuclei using light microscopy, by chromosomal analyses and by screening of hybrids for the presence or absence of DNA synthesis using anti-bromodeoxyuridine antibody and immunofluorescence staining of the hybrids. The results show differences between the two types of ooplasts in susceptibility to activation stimuli. However, when activated, both types of ooplasts gave rise to hybrids of similar morphology. From 35.3% to 63% of activated hybrids originating from chemically or microsurgically enucleated oocytes, respectively, contained one large pronucleus in cytoplasm, 62% or 31.6% hybrids from those two groups, respectively, possessed two smaller pronuclei and a few contained three or four pronuclei. No DNA synthesis was detected in any hybrid containing one or more pronuclei. The chromosome spreads of hybrids with premature chromosome condensation (PCC) morphology (before activation) show that most of the hybrids had a diploid (2n) number of chromosomes. The nature and regularity of the cell division cycle in the hybrids are discussed.     

Regulation of parthenogenetic activation of metaphase II mouse oocytes by pyruvate

We report that parthenogenetic activation (pronuclear formation) is induced during in vitro culture of recently ovulated (13-14 hr post-hCG) mouse oocytes in pyruvate deficient medium. Pronuclear formation occurred when oocytes were cultured in medium containing 1/10X (Pyr-) or lower concentrations of pyruvate but failed to occur either in oocytes cultured in the presence of 0.47 mM (1X, Pyr+) or 1/2X pyruvate or in oocytes cultured in the absence of pyruvate but with cumulus cells. Pronuclear formation was evident within 8 hr of culture and completed by 16 hr and remained intact during continuous culture in Pyr- medium. Transfer of pronuclear oocytes to Pyr+ medium resulted in pronuclear membrane disassembly and further parthenogenetic development. A similar incidence of parthenogenetic activation occurred when recently ovulated oocytes were cultured in the presence of cycloheximide but not following ethanol or hyaluronidase treatment. However, both ethanol and hyaluronidase induced pronuclear formation in in vivo aged oocytes. Results suggest that the type of activation induced varies with the age of the oocyte and the nature of the stimulus. Amino acid uptake ([35S]methionine) by oocytes was unaffected by Pyr- culture whereas incorporation into protein was markedly inhibited. Gel electrophoretic analysis of labeled egg extracts revealed a marked inhibition of egg protein synthesis after 4 hr of culture in Pyr-. The occurrence of a cortical reaction was monitored by binding of fluorescent labeled lectin to the oocyte surface. A cortical reaction occurred in response to ethanol treatment of freshly ovulated and in vivo aged oocytes cultured in Pyr+ medium but not in pronucleate oocytes induced by Pyr- culture. Suppression of ethanol-induced cortical reaction by Pyr- culture was restored following transfer of oocytes to Pyr+ medium. Results demonstrate that nuclear events as well as plasma membrane events can be simply regulated by controlling the amount of energy substrate available to the germ cell. Effects of Pyr- culture in inducing pronuclear formation appear to be mediated in a large part via inhibition of protein synthesis.     

Progression of mouse oocytes from metaphase I to metaphase II is inhibited by fusion with G2 cells

We show that in contrast to metaphase II oocytes, metaphase I oocytes cannot be activated by fusion with the zygote. Fusion of metaphase I oocytes with G2 zygotes was followed by premature chromosome condensation, with 60% of the hybrids becoming arrested at metaphase I, the remainder progressing and arresting at metaphase II. Hybrids of metaphase I oocytes and M-phase zygotes underwent accelerated maturation, but all arrested at metaphase II. In both cases the arrest could be overcome by treatment with the parthenogenetic activators ethanol and cycloheximide. We discuss these findings in relation to the possibility that the metaphase I oocyte contains cytostatic factor activity that is activated by its zygotic partner. Alternatively, the G2 zygote may provide an inhibitor of anaphase, normally never present in the metaphase I oocyte and which is absent from the M-phase zygote.     

Meiosis-activating sterol promotes the metaphase I to metaphase II transition and preimplantation developmental competence of mouse oocytes maturing in vitro

The objective of this study was to determine the effects of a sterol found in ovarian follicular fluid, known as meiosis-activating sterol (FF-MAS), on the maturation of mouse oocytes in vitro. Possible effects of FF-MAS in promoting the metaphase I (MI) to metaphase II (MII) transition (nuclear maturation) and the competence of oocytes to complete preimplantation embryo development to the blastocyst stage (cytoplasmic maturation) were assessed. Cumulus cell-enclosed oocytes that were compromised in their ability to undergo nuclear maturation and subsequent development because of the age or genotype of the female were isolated at the germinal vesicle stage and matured in vitro using media supplemented with 0 to 20 microM FF-MAS. Oocytes that progressed to MII were inseminated in vitro, and the percentages developing to the 2-cell and blastocyst stages were determined. The sterol was omitted from the media used for oocyte insemination or preimplantation development. FF-MAS promoted a significantly higher percentage of oocytes in all groups to progress to MII in vitro. Moreover, FF-MAS treatment of oocytes maturing in vitro dramatically increased the competence of all but one of the groups of oocytes to complete preimplantation development. Therefore, FF-MAS improved mouse oocyte quality by promoting both nuclear and cytoplasmic maturation in vitro.     

Analysis of mouse metaphase II oocytes as an assay for chemically induced aneuploidy

Our initial objective was to develop an in vivo mammalian, female aneuploid assay that is consistent, time efficient, and that yields a large number of oocytes amenable to objective analyses. Subsequently, we desired to use such an assay for identifying chemicals and dosages that could increase the incidence of aneuploidy in mouse metaphase II oocytes. The experimental protocol involved superovulating CD-1 mice with PMS; HCG was given 48 h later. At the time of HCG injection, different dosages od diethylstilbestrol diphosphate, cadmium chloride, chloral hydrate, or colchicine were injected intraperitoneally. 17 h later, oocytes were collected and fixed prior to C-banding the chromosomes. The procedure required about 3 h to process oocytes from 25 mice and yielded over 100 analyzable metaphase II oocytes. Colchicine was the only compound tested that resulted in a statistically significant (P less than 0.01) increase in hyperploid (N greater than 20) oocytes over controls. The incidence of hyperploid oocytes in the colchicine group was 2/167, 1/182, 21/220, and 38/202, for control, 0.1 mg/kg, 0.2 mg/kg, and 0.3 mg/kg, respectively. This assay appears sensitive for aneuploidy detection but requires further validation.     

Stage-dependent modifications of amino acid uptake by antral and metaphase II mouse oocytes

Modifications of leucine transport system of mouse oocytes have been studied throughout Graafian follicle development and oocyte maturation. In contrast to sheep oocytes (Moor and Smith, 1979), in the mouse kinetic constants and efflux rate of leucine transport system did not vary in diestrus, proestrus, and metaphase II (met II) oocytes. However, kinetics of leucine equilibration in proestrus and met II oocytes was significantly slower than that found in diestrus cells, and this may reflect a decreased availability of internal amino acids for exchange.     

Trichlorfon effects on mouse oocytes following in vivo exposure

Trichlorfon (TCF) is a widely used pesticide, which according to some epidemiological and experimental data, is suspected of being aneugenic in human and mouse cells. In particular, in vitro studies in mouse oocytes showed the induction of aneuploidy and polyploidy at the first meiotic division and of severe morphological alterations of the second meiotic spindle. We have tested the hypothesis that an acute treatment of mice with TCF might similarly affect chromosome segregation in maturing oocytes. Superovulated MF-1 mice were intraperitoneally injected with 400mg/kg TCF or orally administered with 600mg/kg TCF either at the time of or 4h after human chorionic gonadotrophin (HCG) injection. Oocytes were harvested 17h after HCG and metaphase II chromosomes were cytogenetically analyzed. No significant increase of aneuploid or polyploid cells was detected at any treatment condition. A significant (p<0.001) decrease of metaphases showing premature chromatid separation or premature anaphase II in all TCF-treated groups with respect to controls suggested that TCF treatment may have delayed the first meiotic division. To evaluate possible effects of the pesticide upon the second meiotic division, a group of females orally treated with 600mg/kg TCF at resumption of meiosis was mated with untreated males and zygotes were collected for cytogenetic analysis. No evidence of aneuploidy induction was obtained, but the frequency of polyploid zygotes was increased fivefold over the control level (p<0.01). Such polyploid embryos might have arisen from fertilization of oocytes that were either meiotically delayed and still in metaphase I at fertilization or progressed through anaphase II without cytokinesis. These findings show that in vivo studies on aneuploidy induction in oocytes may yield results different from those obtained by in vitro experiments and that both kinds of data may be necessary for risk assessment of environmentally relevant exposures.     

Cytogenetic analysis of mouse oocytes after experimental induction of follicular overripening

Graafian follicle overripening was induced in (1) adult mice by inhibiting the ovulatory discharge of gonadotrophins with antibodies to LH-RH and (2) immature mice by injection of PMSG to promote follicular maturation before the neuroendocrine system was competent to produce an ovulatory stimulus. The numbers of follicles capable of meiotic maturation after exogenous LH were sharply reduced during the period of overripening and there was a corresponding increase in the proportion of cystically enlarged follicles, many of which were undergoing atresia. Freshly ovulated ova were collected after delaying ovulation for 2 days and prepared for cytogenetic study of metaphase chromosomes. The incidence of non-disjunction and other errors was indistinguishable from that of ova collected after spontaneous ovulation during 4- or 5-day cycles.     

Cortical reaction and zona hardening in mouse oocytes following exposure to ethanol

Mouse oocytes were treated with 8% ethanol for 3-6 min. The rate and pathways of parthenogenetic activation, occurrence of cortical reaction, and zona solubility changes were assessed in alcohol-treated eggs. The incidence of parthenogenetic activation was greatest (91%) after 3-4-min exposure, and it was reduced (84%) after 5-6-min exposure to alcohol. Also, the rate of haploid single pronucleate parthenogenones decreased and the rate of fragmented ova increased with increase time of exposure to ethanol. Ultrastructural observations showed occurrence of cortical reaction, disappearance and subsequent reappearance of short microvilli. A slight damage occurred to the ER in alcohol-exposed ova. The zona dissolution assay utilizing alpha-chymotrypsin demonstrated decreased solubility of the zonae pellucidae after exposure to alcohol. The zona dissolution t50 increased from 0.5-2.5 min in nontreated unfertilized oocytes to about 4 h in activated ova. The t50 of in vivo fertilized eggs was 4 1/2 h. Empty zonae exposed to alcohol lysed at the same rate as nontreated control zonae did. The results indicate that activation of mouse oocytes with alcohol initiates completion of meiosis and triggers the cortical reaction, which results in subsequent hardening of the zona pellucida.     

Cdc25B phosphatase participates in maintaining metaphase II arrest in mouse oocytes

Cdc25B is an essential regulator for meiotic resumption in mouse oocytes. However, the role of this phosphatase during the later stage of the meiotic cell cycle is not known. In this study, we investigated the role of Cdc25B during metaphase II (MII) arrest in mouse oocytes. Cdc25B was extensively phosphorylated during MII arrest with an increase in the phosphatase activity toward Cdk1. Downregulation of Cdc25B by antibody injection induced the formation of a pronucleus-like structure. Conversely, overexpression of Cdc25B inhibited Ca²⁺-mediated release from MII arrest. Moreover, Cdc25B was immediately dephosphorylated and hence inactivated during MII exit, suggesting that Cdk1 phosphorylation is required to exit from MII arrest. Interestingly, this inactivation occurred prior to cyclin B degradation. Taken together, our data demonstrate that MII arrest in mouse oocytes is tightly regulated not only by the proteolytic degradation of cyclin B but also by dynamic phosphorylation of Cdk1.     

Cytogenetic analysis of human spermatozoa using intracytoplasmic sperm injection into mouse oocytes

The chromosome complement of human spermatozoa has been analyzed after their intracytoplasmic injection into unfertilized mouse oocytes. A total of 427 metaphase plates have been obtained, including 176 metaphase plates from spermatozoa with normal head morphology (108 and 68 spermatozoa from patients with normal (the control group) and abnormal spermogram parameters, respectively), and 251 metaphase plates from spermatozoa with abnormal heads (76, 91, 67, and 17 spermatozoa with large, amorphous, elongated, and round heads, respectively). The frequency of chromosome abnormalities in the control group is 26.1%, with hyperploidy, hypoploidy, and structural aberrations accounting for 7.4, 12.3, and 6.4% of the abnormalities, respectively. In none of the groups did the ratio between the numbers of X- and Y-bearing spermatozoa significantly differ from 1 : 1. The diploidy frequency was significantly higher in spermatozoa with large and amorphous heads compared to the control group (2.36, 3.29, and 0%, respectively). None of the groups of spermatozoa differed from the control group with respect to the frequency of structural aberrations. The type of the abnormal head morphology has been found to be correlated with the sperm chromosome complement.     

Cytogenetic analysis of human spermatozoa using intracytoplasmic sperm injection into mouse oocytes

The chromosome complement of human spermatozoa has been analyzed after their intracytoplasmic injection into unfertilized mouse oocytes. A total of 427 metaphase plates have been obtained, including 176 metaphase plates from spermatozoa with normal head morphology (108 and 68 spermatozoa from patients with normal (the control group) and abnormal spermogram parameters, respectively), and 251 metaphase plates from spermatozoa with abnormal heads (76, 91, 67, and 17 spermatozoa with large, amorphous, elongated, and round heads, respectively). The frequency of chromosome abnormalities in the control group is 26.1%, with hyperploidy, hypoploidy, and structural aberrations accounting for 7.4, 12.3, and 6.4% of the abnormalities, respectively. In none of the groups did the ratio between the numbers of X- and Y-bearing spermatozoa significantly differ from 1 : 1. The diploidy frequency was significantly higher in spermatozoa with large and amorphous heads compared to the control group (2.36, 3.29, and 0%, respectively). None of the groups of spermatozoa differed from the control group with respect to the frequency of structural aberrations. The type of the abnormal head morphology has been found to be correlated with the sperm chromosome complement.Translated from Genetika, Vol. 41, No. 3, 2005, pp. 396–404.Original Russian Text Copyright © 2005 by Fedorova, Kuznetsova, Baranov, Rybouchkin, Van der Elst, Dhont.     

The effect of pregnant mare serum gonadotropin on mouse oocytes as monitored at metaphase II

Ovulated oocytes were collected from random-bred, 7-12 week old ICR mice injected with 0, 3, or 6 i.u. pregnant mare serum gonadotropin (PMSG). Analyses of 872 metaphase figures from 87 females did not show a significant increase in chromosomal imbalance with PMSG treatment. A tendency toward ovum fragmentation was noted with an increase in PMSG dose.     

Epigenetic discrimination by mouse metaphase II oocytes mediates asymmetric chromatin remodeling independently of meiotic exit

In mammalian fertilization, paternal chromatin is exhaustively remodeled, yet the maternal contribution to this process is unknown. To address this, we prevented the induction of meiotic exit by spermatozoa and examined sperm chromatin remodeling in metaphase II (mII) oocytes. Methylation of paternal H3-K4 and H3-K9 remained low, unlike maternal H3, although paternal H3-K4 methylation increased in zygotes. Thus, mII cytoplasm can sustain epigenetic asymmetry in a cell-cycle dependent manner. Paternal genomic DNA underwent oocyte-mediated cytosine demethylation and acquired maternally-derived K12-acetylated H4 (AcH4-K12) independently of microtubule assembly and maternal chromatin. AcH4-K12 persisted without typical maturation-associated deacetylation, irrespective of paternal pan-genomic cytosine methylation. Contrastingly, somatic cell nuclei underwent rapid H4 deacetylation; sperm and somatic chromatin exhibited asymmetric AcH4-K12 dynamics simultaneously within the same mII oocyte. Inhibition of somatic histone deacetylation revealed endogenous histone acetyl transferase activity. Oocytes thus specify the histone acetylation status of given nuclei by differentially targeting histone deacetylase and acetyl transferase activities. Asymmetric H4 acetylation during and immediately after fertilization was dispensable for development when both parental chromatin sets were hyperacetylated. These studies delineate non-zygotic chromatin remodeling and suggest a powerful model with which to study de novo genomic reprogramming.     

Cytogenetic analysis of unfertilized human oocytes

The results of morpho-functional and cytogenetic analyses of 341 oocytes unfertilized in the course of extracorporal fertilization programme are presented. The causes of the "failure" during in vitro fertilization of the oocytes are discussed. Relation of the frequency of oocyte chromosome abnormalities (40.2%) on the patient age and cell maturity has been shown.     

Non-spindle microtubule organizing centers in metaphase II-arrested mouse oocytes

A human autoantiserum (5051) directed against pericentriolar material (PCM) was used to study the distribution of microtubule-organizing centers (MTOCs) in the oocyte and during the first cell cycle of mouse development. In oocytes, the PCM was found not only at the poles of the barrel-shaped metaphase II spindle but also at many discrete loci around the cytoplasm near the cell cortex. The spindle poles were also composed of several PCM foci. In metaphase-arrested eggs only the PCM foci located near the chromosomes acted as MTOCs. However, after reduction of the critical concentration for tubulin polymerization by taxol, the cytoplasmic PCM foci were also found to be associated with nucleation of microtubules. After fertilization the cortical PCM foci remained in a peripheral position until the end of the S phase, when they appeared to migrate centrally towards the pronuclei. At prometaphase of the first mitotic division, numerous MTOCs were found around the two sets of chromosomes; these MTOCs then aligned to form two bands on either side of the metaphase plate of the first mitosis.     

Induction of neoplastic transformation by low-dose-rate exposure to tritiated water

Exponentially growing mouse BALB/3T3 cells seeded at low density were incubated with various concentrations of tritiated water (3HOH). A dose-dependent increase in the yield of transformants occurred in cells incubated for 100 h with 25 to 500 micrograms/ml of 3HOH. The dose-response curve rose linearly at low doses, with no evidence of a threshold or quadratic component. The transformation frequencies were similar when the same total dose of radiation was given over periods of 5 to 168 h, although survival was slightly lower with 5 h exposure compared with longer intervals. Acute X-ray exposure appeared to be more efficient in inducing transformation than protracted exposure to 3HOH at doses of 200-400 rad, but slightly less effective in the 25-100 rad range. When normalized for survival, 3HOH was more effective than X rays even at the higher doses. This result is very similar to previous findings with [3H]thymidine. A comparison of [3H]thymidine and 3HOH results suggest that the transmutational effect of tritium decay for radioactivity incorporated into DNA may be a significant factor in cytotoxicity but not in transformation; the enhanced effectiveness of both types of tritium exposure for transformation and mutagenesis may result from a higher relative biological effectiveness for the tritium beta particle for these end points.