Testing of 3 chemical compounds for aneuploidy induction in the female mouse

The 3 chemicals, 6 mercaptopurine (6-MCP), phenylalanine and para-fluorophenylalanine (pFPA) have been tested on mouse oocytes of the Swiss strain for possible aneuploidy-inducing effects. Tests were made at the dictyate stage in young and aged females and at the preovulatory (diakinesis/MI) stage in aged females only. Metaphase II chromosome complements were analysed for aneuploidy resulting from segregational errors arising at the first meiotic division. No evidence of non-disjunction was found either in treated or control groups up to the age of 40 weeks tested. The need to select for gametogenic stage and strain when using a mouse model system for aneuploidy testing, is considered.     

X-ray-induced chromosome aberrations in immediately preovulatory oocytes

The effects of relatively small doses of X-rays (up to 100 cGy) to immediately preovulatory mouse oocytes have been examined by screening chromosome aberrations at metaphase I. Dose-related responses for the induction of aberrations were found. These were mainly of the quadratic or power-law types, and therefore similar in nature to the dose-responses described elsewhere for dictyate oocytes. The frequencies of the various categories of structural aberration have been compared to the previously determined rates of radiation-induced non-disjunction in immediately preovulatory oocytes in order to examine the potential involvement of structural chromosome aberrations in radiation-induced non-disjunction.     

Chromatin behaviour under influence of puromycin and 6-DMAP at different stages of mouse oocyte maturation

Preovulatory mouse oocytes were cultured in vitro up to each subsequent stages of maturation: germinal vesicle (GV), germinal vesicle breakdown (GVBD), groups of not yet individualized bivalents, circular bivalents, late prometaphase I, metaphase I, anaphase I and telophase I. The stages were identified in living oocytes by fluorescence microscopy using Hoechst 33342 as a specific vital dye. Oocytes from each stage of development developed in vitro and ovulated metaphase II oocytes were subsequently cultured in the presence of puromycin or 6-dimethylaminopurine (6-DMAP), an inhibitor of protein phosphorylation. The effects on chromatin of these drugs were studied during and at the end of culture by fluorescence and electron microscopy. We found that puromycin and 6-DMAP stop meiosis when applied at all stages of oocyte maturation, except for metaphase II. Oocytes at this stage are activated by puromycin. Reaction of the oocytes to the two drugs is different at GV and at metaphase II. All of the other stages react to the drugs by chromatin compaction, which can be followed by chromatin decondensation to form a nucleus. Our results suggest that late prophase chromatin condensation, bivalent individualization and retention of their individuality, as well as individualization of monovalents from telophase and retention of their individuality at metaphase II, are dependent on protein phosphorylation. The events occurring between metaphase I and telophase I are independent of protein synthesis and phosphorylation. The events occurring between metaphase II and formation of the nucleus are independent of protein synthesis.by U. Scheer     

In vitro culture and karyotyping of oocytes from 4 to 6 week old lambs

A preliminary investigation was made into the meiotic development of oocytes taken from the ovarian follicles of 4–6 week old ewe lambs. In total 1097 oocytes were recovered from 8 lambs of normal karyotype, 5 lambs heterozygous for the Massey 1 Robertsonian translocation and 4 homozygous lambs. After culture 208 oocytes (19%) had resumed meiosis although in only 45 (4.1%) could the behaviour of the chromosomes at metaphase stages I and II be satisfactorily studied. This rather poor recovery was believed to be due to the stage of ovarian development coupled with technical deficiencies.The limited numbers prevent strict conclusions from being drawn but the present findings demonstrated a rather similar chiasma frequency at diakinesis for the three karyotypes (44 ± 3) and hinted that non-disjunction occurs at a higher frequency in the heterozygous female than those with normal or homozygous karyotypes.     

Trisomy and triploidy induced by X-irradiation of mouse spermatocytes.

Analysis of second meiotic metaphase divisions in control and irradiated male mice shows that while the spontaneous rates of autosomal and sex chromosomal anaphase I non-disjunction are extremely low, they can be enhanced by X ray treatment of prophase spermatocytes. Irradiation at pre-leptotene results in a higher rate of anaphase I non-disjunction than does irradiation at pachytene. Early spermatogonia are relatively insensitive. Experiments to detect trisomic progeny among the F1 foetal offspring of male mice mated during weeks 5 and 6 following irradiation (sampling of irradiated early spermatocytes and late spermatogonia) showed that none were present. Possible explanations for this are considered. Two triploid foetuses were however found.     

Mammalian in vivo assays for aneuploidy in female germ cells

This paper presents an evaluation of and offers recommendations for assays to detect chemically induced aneuploidy in mammalian female germ cells. 72 papers on female germ cell aneuploidy, published from 1970 to 1984, were reviewed. 28 papers were selected for critical evaluation; the other 44 papers were rejected according to pre-established criteria. Salient points emerging from the information reviewed allow an assessment of the current status of mammalian female germ cell tests for aneuploidy. The majority of data have been obtained by analyzing metaphase II mouse oocyte chromosomes following superovulation. Various classes of chemicals were administered usually around the time of ovulation. Dose-response relationships have not been obtained for the majority of chemicals evaluated. The method of data reporting and analysis usually was not conducive to comparisons among different studies. Few of the 16 chemicals studied can be regarded as negative for their ability to induce aneuploidy, whereas an even smaller number should be considered as positive. Certainly, a need exists to identify the chemicals and the dosages that could increase the incidence of aneuploidy in mammalian female germ cells. Obtaining such data definitely is feasible in cytogenetic laboratories. However, the mammalian female germ cell aneuploid assay should not be perceived as a rapid, inexpensive, routine procedure. The assay is capable of detecting aneuploidy following anaphase I when metaphase II oocytes are studied and following anaphases I and II when first-cleavage zygotes are studied.     

Trichlorfon predisposes to aneuploidy and interferes with spindle formation in in vitro maturing mouse oocytes

The pesticide trichlorfon (TCF) has been implicated in human trisomy 21, and in errors in chromosome segregation at male meiosis II in the mouse. We previously provided evidence that TCF interferes with spindle integrity and cell-cycle control during murine oogenesis. To assess the aneugenic activity of TCF in oogenesis, we presently analysed maturation, spindle assembly, and chromosome constitution in mouse oocytes maturing in vitro in the presence of 50 or 100 microg/ml TCF for 16 h or in pulse-chase experiments. TCF stimulated maturation to meiosis II at 50 microg/ml, but arrested meiosis in some oocytes at 100 microg/ml. TCF at 100 microg/ml was aneugenic causing non-disjunction of homologous chromosomes at meiosis I, a significant increase of the hyperploidy rate at metaphase II, and a significant rise in the numbers of oocytes that contained a 'diploid' set of metaphase II chromosomes (dyads). TCF elevated the rate of precocious chromatid segregation (predivision) at 50 and 100 microg/ml. Pulse-chase experiments with 100 microg/ml TCF present during the first 7 h or the last 9 h of maturation in vitro did not affect meiotic progression and induced intermediate levels of hyperploidy at metaphase II. Exposure to > or =50 microg/ml TCF throughout maturation in vitro induced severe spindle aberrations at metaphase II, and over one-third of the oocytes failed to align all chromosomes at the spindle equator (congression failure). These observations suggest that exposure to high concentrations of TCF induces non-disjunction at meiosis I of oogenesis, while lower doses may preferentially cause errors in chromosome segregation at meiosis II due to disturbances in spindle function, and chromosome congression as well as precocious separation of chromatids prior to anaphase II. The data support evidence from other studies that TCF has to be regarded as a germ cell aneugen.     

Meiosis in Drosophila melanogaster

Individual bivalents or chromosomes have been identified in Drosophila melanogaster spermatocytes at metaphase I, anaphase I, metaphase II and anaphase II in electron micrographs of serial sections. Identification was based on a combination of chromosome volume analysis, bivalent topology, and kinetochore position. — Kinetochore microtubule numbers have been obtained for the identified chromosomes at all four meiotic stages. Average numbers in D. melanogaster are relatively low compared to reported numbers of other higher eukaryotes. There are no differences in kinetochore microtubule numbers within a stage despite a large (approximately tenfold) difference in chromosome volume between the largest and the smallest chromosome. A comparison between the two meiotic metaphases (metaphase I and metaphase II) reveals that metaphase I kinetochores possess twice as many microtubules as metaphase II kinetochores. — Other microtubules in addition to those that end on or penetrate the kinetochore are found in the vicinity of the kinetochore. These microtubules penetrate the chromosome rather than the kinetochore proper and are more numerous at metaphase I than at the other division stages.     

Analysis of the mechanism(s) of metaphase I-arrest in strain LT mouse oocytes: delay in the acquisition of competence to undergo the metaphase I/anaphase transition.

Fully grown oocytes of most laboratory mice progress without interruption from the germinal vesicle (GV) stage to metaphase II, where meiosis is arrested until fertilization. In contrast, many oocytes of strain LT mice arrest precociously at metaphase I and often undergo subsequent spontaneous parthenogenetic activation. Cytostatic factor (CSF), which prevents the degradation of cyclin B and maintains high maturation-promoting factor (MPF) activity, is required for maintenance of metaphase I-arrest in LT oocytes, similar to its requirement for maintaining metaphase II-arrest in normal oocytes. However, CSF does not instigate metaphase I-arrest since a temporary metaphase I-arrest occurs in MOS-null LT oocytes. This paper addresses the mechanism(s) that may instigate metaphase I-arrest and tests the hypothesis that there may be one or more defects in LT oocytes that delay their acquisition of competence to trigger the cascade of processes that normally drive entry into and progression through anaphase I. To test this hypothesis, MPF activity was artificially abrogated by treating oocytes with a general protein kinase inhibitor, 6-DMAP, at various times during the progression of meiosis I. This allowed a comparison of the time at which LT and normal oocytes become competent to undergo the metaphase I/anaphase transition even if oocytes were arrested at metaphase I when 6-DMAP-treatment was begun. There were no differences between LT and control oocytes in the kinetics of MPF suppression by 6-DMAP. However, it was found that LT oocytes do not acquire competence to undergo the metaphase I/anaphase transition in response to 6-DMAP until 50-60 min after normal oocytes. A similar delay was observed in strain CX8-4 oocytes, which also have a high incidence of metaphase I-arrest, but not in strain CX8-11 oocytes, which exhibit a low incidence of metaphase I-arrest. MOS-null LT oocytes also exhibit a delay in acquisition of competence to undergo the metaphase I/anaphase transition. Thus, a delay in competence to undergo the metaphase I/anaphase transition in response to 6-DMAP-treatment correlates with metaphase I-arrest. It is therefore hypothesized that the observed delay in acquisition of competence to enter anaphase I may instigate the sustained metaphase I-arrest in LT oocytes by allowing CSF activity to rise to a level that prevents cyclin B degradation and maintains high MPF activity before anaphase can be initiated by normal triggering mechanisms.     

Spontaneous and sperm-induced activation of oocytes in LT/Sv strain mice

The oocytes of LT/Sv strain mice are unique in that a high proportion of them (∼40% in this study) are ovulated before reaching metaphase of the second meiotic division (metaphase II). The remaining oocytes of LT/Sv mice are ovulated at metaphase II, as in other strains of mice. When recently ovulated oocytes were cultured in vitro for 11–12 h, those ovulated at metaphase II remained at this stage, whereas those ovulated at metaphase of the first meiotic division (metaphase I) commonly resumed meiosis during in vitro aging. These oocytes extrude the polar body and form a diploid pronucleus. This oocyte activation is not coupled with cortical granule exocytosis. The oocytes ovulated at metaphase II are fully capable of normal fertilization, whereas those ovulated at metaphase I are not. Approximately 50% of metaphase I oocytes penetrated by spermatozoa remain at this stage, and sperm nuclei frequently undergo premature chromosome condensation. Only 13% of spermpenetrated metaphase I oocytes formed a diploid female pronucleus and a haploid male pronucleus by 4 h after insemination. These results demonstrate that the two types of ovulated LT/Sv oocytes have different potentials to undergo either spontaneous or sperm-induced activation.     

Research inAspergillus nidulans genetics

One of the major goals ofAspergillus nidulans genetical research in Italy has been to set up a series of tests for the evaluation of the genetical risk derived from environmental pollution. The induced frequency of mutation and recombination (mitotic crossing-over and non-disjunction) has been studied for many chemicals and important results have been obtained from a practical and theoretical point of view. Because of the great versatility of Aspergillus as a model organism in genetical research, major basic genetical problems have also been investigated in Italy. Among them it is worth to remember the research on the mitotic intra- and inter-genic recombination. Aspergillus is still used mostly to test non-disjunctional properties of chemicals; in fact it is the only organism where non-disjunction can be properly estimated. Moreover the population genetics and the DNA repair in Aspergillus are currently investigated in our laboratory.     

White-cap mutants and meiotic apoptosis in the basidiomycete Coprinus cinereus

Among many white-cap mutants of Coprinus cinereus, four distinct classes have been identified cytologically. Mutants of one class progress through meiosis normally but fail to sporulate; the defect is post-meiotic and it triggers apoptosis in the tetrad stage. Mutants of the other three classes have defects in meiotic prophase and these are: (1) those that assemble synaptonemal complexes (SCs) normally; (2) those that assemble axial elements (AEs) but not SCs; and (3) those that assemble neither AEs nor SCs even though the chromosomes are condensed and also paired. All three meiotic mutant classes arrest at meiotic metaphase I and the arrest triggers meiosis-specific apoptosis showing characteristic chromatin condensation, DNA fragmentation as shown by the TUNEL assay, cytoplasmic shrinkage, and finally total DNA degradation. Apoptosis is very cell-type specific; it occurs only in the basidia while the neighboring somatic cells are perfectly healthy and the mushroom continues to develop and mature with very few basidiospores produced. The meiotic apoptosis in C. cinereus is under strict cell cycle control rather than at any time after defect; apoptosis is triggered only after entry to meiotic metaphase. It is intriguing to note that C. cinereus has two checkpoints for arrest and entry to apoptosis: one is meiotic at the metaphase I spindle checkpoint regardless of the time of defects, and one is post-meiotic at the tetrad stage. This is in striking contrast to multiple checkpoint arrests and entries to meiotic apoptosis found in the mouse.     

Biochemical studies on goat oocytes: Timing of nuclear progression, effect of protein inhibitor and pattern of polypeptide synthesis during in vitro maturation

Temporal progression of nuclear events of goat oocytes matured in vitro was studied by adding a specific inhibitor to the culture medium at different time points, to investigate protein synthesis requirements and its pattern during in vitro maturation. Goat cumulus-oocyte complexes (COCs) were matured in vitro in TCM 199, fixed at different time intervals and stained with orcein to assess nuclear changes. The germinal vesicle (GV) stage was found to be present at 0 h, chromosomal condensation stage was observed at 8 h, metaphase I at 12 to 14 h, and metaphase II was begun after 16 h of maturation and was nearly completed at 24 h. Protein synthesis inhibitor, cycloheximide, blocked oocyte maturation at germinal vesicle breakdown(GVBD), if added to the maturation medium between 0 to 4 h, suggesting that protein synthesis is required for GVBD. The transition from metaphase I to metaphase II was also protein synthesis-dependent, as observed when cycloheximide was used between 8 to 10 h of culture. When cycloheximide was added from 12 h of culture onwards, nuclear progression to metaphase II was progressively restored, but many chromosomal abnormalities were noted. Changes in the protein synthesis pattern were studied by radiolabeling of oocytes with [(35)S]-methionine at 0, 7, 12 and 24 h of culture, corresponding with GV, GVBD, metaphase I and metaphase II stages. A polypeptide of 28.1 KDa appeared as a major band at the GV stage, and its size decreased greatly and disappeared after the GVBD stage. Three new polypeptides (35, 36.5 and 39 KDa) appeared at GVBD and were detectable at metaphase II. In conclusion, the synthesis of proteins is required for the maintenance and transition of goat oocytes from GV to metaphase II during in vitro maturation.     

Kinetics of micronucleus formation in relation to chromosomal aberrations in mouse bone marrow

A simulation analysis of the kinetics of micronucleus formation in polychromatic erythrocytes in mouse bone marrow was performed after a single administration of 3 chemicals--mitomycin C (MMC), 6-mercaptopurine (6-MP) and 1-beta-D-arabinofuranosylcytosine (Ara-C)--with different modes of action. The time-response patterns in the incidence of chromosomal aberrations and micronuclei after treatment with each chemical were compared and subjected to the simulation study with 3 parameters. Two of them, the time between the final mitotic metaphase of the erythroid series and nucleus expulsion (T1), and the duration of the polychromatic erythrocyte (PCE) stage in the bone marrow (T2), were almost identical for the 3 chemicals. However, the coefficients of formation rate of micronucleated cells resulting from cells with chromosomal aberration(s) (k) differed: Ara-C differed from the other two. These results indicate that chromosomal aberrations, especially chromatid breaks and probably gaps, induced by this chemical, effectively contribute to micronucleus formation. The DNA content of micronuclei was also compared to the length of acentric fragments induced by Ara-C and it was found that their distributions were comparable. These findings strongly suggest that chromosomal aberrations induced by chemicals are essential events for the induction of micronuclei in the PCE of bone marrow.     

Metaphase I bonds,crossing-over frequency,and genetic length of specific chromosome arms of rye

Using a Giemsa C-banding procedure three chromosome pairs (3, 6 and 7) have been identified in meiosis of the F1 of a cross between two rye inbred lines. Two of these chromosome pairs (3 and 7) were heterozygous for a prominent telomeric heterochromatic band. The comparison between the frequencies of the different meiotic configurations at metaphase I, anaphase I and metaphase II presented by these two chromosome pairs has allowed the estimation of the chiasma frequency and the genetic length of the chromosome arms 3 short and 7 long.     

Mouse Oocyte Maturation: Meiotic Checkpoints

Mouse oocytes at different stages of maturation were fused together and the ensuing cell cycle events were analyzed with the objective of identifying checkpoints in meiosis. Fusion of maturing oocytes just undergoing germinal vesicle breakdown (GVBD) induces PCC (premature chromosome condensation) but no spindle formation in immature (GV) partner oocytes. On the other hand, fusion of metaphase I (MI) oocytes containing spindles to GV oocytes induces both PCC and spindle formation in the immature partner. Thus, while molecules required for condensation are present throughout metaphase, those involved in spindle formation are absent in early M-phase. Oocytes cultured for 6 h—early metaphase I (i.e., 2 h before the onset of anaphase I)—and then fused to anaphase-telophase I (A-TI) fusion partners block meiotic progression in the more advanced oocytes and induce chromatin dispersal on the spindle. By contrast, oocytes cultured for 8 h (late MI) before fusion to A-TI partners are driven into anaphase by signals from the more advanced oocytes and thereafter advance in synchrony to telophase I. When early (10 h) or late (12 h) metaphase II oocytes were fused to A-TI partners the signals generated from early MII oocytes block the anaphase to telophase I transition and induce a dispersal of A-TI chromosomes along the spindle. On the other hand, late MII oocytes respond to A-TI signals by exiting from the MII block and undergoing the A-TII transition. Moreover, the oocytes in late MI are not arrested in this stage and progress without any delay through A-TI to MII when fused to metaphase II partners. The signals from the less-developed partner force the MII oocyte through A-TII to MIII. In total, these studies demonstrate that the metaphase period is divided into at least three distinct phases and that a checkpoint in late metaphase controls the progress of meiosis in mammalian oocytes.     

Metaphase I orientation of chain-forming interchange quadrivalents: a theoretical consideration

The orientation behavior of chain forming interchange quadrivalents at metaphase I was studied in three interchange heterozygotes of pearl millet [Pennisetum americanum (L.) Leeke] which involve chromosomes 1, 3, 6 and 7 in various combinations. Of these, two combinations predominantly produced rings and the third was a chain-forming type. The chain quadrivalents derived from the two ring-forming interchanges, as well as the chain quadrivalent generated by the third interchange, all showed one adjacent orientation at metaphase I (adjacent-1 or -2, depending upon the formation or failure of chiasmata and their positions in the different segments of the pachytene cross). Homologous centromere co-orientation leading to adjacent-1 and alternate-1 occurs following chiasma failure in the noncentric arms of the pachytene cross, and nonhomologous centromere co-orientation leading to adjacent-2 and alternate-2 occurs following chiasma failure in the centric arms of the pachytene cross. Thus, it has been proposed that, unlike in ring quadrivalents, a specific chain quadrivalent will have only homologous or nonhomologous centromere co-orientations at metaphase I.     

The quantitative determination of metabolites of 6-mercaptopurine in biological materials. III. The determination of 14C-labeled 6-thiopurines in L5178Y cell extracts using high-pressure liquid cation-exchange chromatography.

A method is presented for the separation of 6-thiopurine bases and ribonucleosides, of sulphate anions and of common purine bases and oxidized purines by means of high-pressure liquid cation-exchange chromatography using a 0.18 X 100 cm column, filled with Beckman M71 resin, and eluted with 0.4M ammonium formate, pH 4.6, at a linear flow velocity of 5.2 cm/min at 50 degrees C. The method has been applied to the separation and quantitative determination of 14C-labeled 6-mercaptopurine metabolites in HClO4 extracts of L5178Y murine lymphoma cells. Distribution patterns of 14C radioactivity within the cells after a 24 h incubation period with (8-14C)-labeled 6-mercaptopurine have been established. The indentification of 6-mercaptopurine metabolites, such as 6-thioxanthosine ribonucleotide, 6-thioinosinic acid, 6-thioguanylic acid, 6-methylthioinosinic acid, and 6-thiouric acid, after the digestion of the extracts with alkaline phosphatase has been confirmed using the behaviour of each compound in enzymatic peak-shifting analyses with purine nucleoside phosphorylase and the corresponding elution volumes of 6-thiopurine bases and ribonucleosides as proofs. According to the specific radioactivity of the (8-14C)-labeled 6-mercaptopurine batch, the amounts of the various 6-mercaptopurine metabolites in about 6% of the total HClO4 extract of 1.6 . 10(8) labeled cells have quantitatively been determined as 1--130 pmol. The intracellular concentration of 6-thiopurines was determined at 1.4 . 10(-5)mol/1.     

Pronuclear formation in starfish eggs inseminated at different stages of meiotic maturation: correlation of sperm nuclear transformations and activity of the maternal chromatin

Changes in sperm nuclei incorporated into starfish, Asterina miniata, eggs inseminated at different stages of meiosis have been correlated with the progression of meiotic maturation. A single, uniform rate of sperm expansion characterized eggs inseminated at the completion of meiosis. In oocytes inseminated at metaphase I and II the sperm nucleus underwent an initial expansion at a rate comparable to that seen in eggs inseminated at the pronuclear stage. However, in oocytes inseminated at metaphase I, the sperm nucleus ceased expanding by meiosis II and condensed into chromosomes which persisted until the completion of meiotic maturation. Concomitant with the formation and expansion of the female pronucleus, sperm chromatin of oocytes inseminated at metaphase I enlarged and developed into male pronuclei. Condensation of the initially expanded sperm nucleus in oocytes inseminated at metaphase II was not observed. Instead, the enlarged sperm nucleus underwent a dramatic increase in expansion commensurate with that taking place with the maternal chromatin to form a female pronucleus. Fusion of the relatively large female pronucleus and a much smaller male pronucleus was observed in eggs fertilized at the completion of meiotic maturation. In oocytes inseminated at metaphase I and II, the male and female pronuclei, which were similar in size, migrated into juxtaposition, and as separate structures underwent prophase. The chromosomes in each pronucleus condensed, intermixed, and became aligned on the metaphase palate of the mitotic spindle in preparation for the first cleavage division. These observations demonstrate that the time of insemination with respect to the stage of meiotic maturation has a significant effect on sperm nuclear transformations and pronuclear morphogenesis.     

Joint study on the teratogenic sensitivity of the Pika (Ochotona rufescens rufescens) to selected drugs

A collaborative study was conducted to investigate the teratological susceptibility of the Pika (Ochotona rufescens rufescens) to selected teratogenic chemicals: cyclophosphamide, 6-mercaptopurine, 5-fluorouracil, 6-aminonicotinamide, actinomycin D, ethylurethan, ampicillin, tetracycline, thalidomide, diphenylhydantoin, hypervitaminosis A, aspirin, dexamethasone, betamethasone and bredinin. Some of the chemicals were shown to be teratogenic in the Pika, but this animal was generally more resistant to their teratogenicity than the rabbit and rodents. In the Pika, thalidomide did not induce any typical limb defects, which have been produced in the rabbit. Pikas reproduce well and appear to have no substantial disadvantages as an animal species for teratological studies. Thus, the Pika may be useful as a new non-rodent species for teratological testings.