Electron microscopic study of preleptotene-stage oocyte nuclei in the prophase of meiosis in the hen

The morphology of oocyte nuclei at preleptotene and early leptotene stages of meiotic prophase I in the chick embryo was examined by electron microscopy and light cytochemistry. The intrenuclear fibrillar body (IFB) of proteinaceous nature is described. The IFB has a spherical or irregular form and consists of the disoriented fibrils ranging from 3 to 18 nm in diameter and of globules lying along the course of fibrils. The condensed chromatin in the oocyte nuclei at the early--late preleptotene stages and the thread-like chromosomes in the oocyte nuclei at the middle preleptotene--early leptotene stages either closely adjoin to IFB, localized in the centre of the nucleus, or are situated at some distance from it, and then the fibrils or fibrillar filaments are seen between chromosome material and IFB. The chromosomes are attached to IFV by the telomer or interstitial segment. The chromosomes lose the connection with IFB after the attachment of both the telomeres to the nuclear envelope (middle--late leptotene), and IFB removes from the centre of the nucleus to its periphery. It is supposed that IFB represents a nuclear skeleton element and takes part in the spatial organization of the chromosomes in the oocyte nuclei at the early stages of meiotic prophase I.     

Duration of meiotic prophase stages during oogenesis in the newt Triturus cristatus cristatus]

The duration of the early stages of meiotic prophase was determined in the oogenesis of T. cristatus cristatus by means of autoradiography. The oocytes were being investigated during 39 days from the moment of 3H-thymidine injection. It was shown that preleptotene lasts 1--2, leptotene ca. 4, zygotene 5 and pachytene 26 days. When studying the preparations obtained 1 day after the injection of 3H-thymidine, the silver grains were found to be localized over the nuclei at all stages of meiotic prophase; this suggests the amplification of rDNA which begins in leptotene-zygotene and ends in early diplotene.     

Autoradiographic study of RNA synthesis during meiotic prophase in the human oocyte

The incorporation of 3H-uridine in oogonia and oocytes during meiotic prophase I was studied in three human fetuses 13, 18, and 19 weeks old. Following a 40- or 60-min pulse, intense nuclear and nucleolar labeling was observed in oogonia. During the preleptotene chromosome condensation stage, the heteropycnotic masses were unlabeled, while numerous silver grains were seen on the filaments persisting around these masses. During leptotene, chromosomal and nucleolar RNA synthesis was significant, but less than that in the oogonia. The rate of incorporation declined rapidly during zygotene and fell to a very low level at early pachytene. Throughout pachytene no nucleolar RNA synthesis was observed. Chromosomal RNA synthesis progressively recovered during middle pachytene, was of moderate intensity at late pachytene, and increased again at early diplotene. Nucleolar RNA synthesis was very intense at early diplotene, at the same time as nucleolar size and basophilia increased.     

Oogenesis in antenatal development in man

Summary Ninety-seven female embryos and foetuses aged 6–40 weeks were quantitatively analyzed for germ cell development, mitotic activity in the ovary, and dynamics of chromosome transformations in oocytes at the stages of meiotic prophase I and follicle genesis. For the first time, chronology of oocytes dynamics at the stage of the preleptotene chromosome condensation and decondensation is described. Oocytes at the leptotene stage occur in embryos aged 10–11 weeks. Oocyte transfer at the zygotene and pachytene stages starts by 10.5–11 and 11.5–13 weeks, respectively. Their number is maximum after 26 weeks and by the 40th week decreases to just single oocytes. The first oocytes at the diplotene stage appear in foetuses aged 11.5–12 weeks. Oocyte transition to the dictyotene stage is observed in single oocytes after 16 weeks of development, but active bivalent decondensation begins after 26 weeks.The formation of a follicular layer takes place not earlier than around the oocyte at the diplotene stage. Follicle genesis occurs after 11–12 weeks. Transformation of primordial follicles into primary ones is intensified after 19–20 weeks. By the moment of birth, the majority of oocytes in the human ovary are contained in primary follicles, and only a few are contained in primordial ones. The number of secondary and tertiary antral follicles is extremely small. The dynamics of degeneration of germ cells throughout intra-uterine development is also described.     

Autoradiographic and cytophotometric study of DNA synthesis in the oocytes of the domestic hen at the preleptotene prophase stage of meiosis

3H-thymidine incorporation into the fowl oocytes was established radioautographically at the middle preleptotene, when chromosomes are condensed and associated in the complex chromocenters. According to the cytophotometry of Feulgen stained oocyte nuclei, their DNA value increases during preleptotene from 2 to 4c. So, the DNA synthesis observed is characteristic of chromosome reduplication, rather than of nuclear organizer amplification. The preleptotene should be considered as the initial stage of meiotic prophase because it involves spiralization and individualization of chromosomal threads. Both the analysis of literary data and of our own results enable us to conclude that in different species the meiotic chromosome reduplication may proceed in different periods between telophase of last gonial mitosis and the beginning of homologous chromosome conjugation.     

Structural modifications of the nuclear components during lizard oogenesis in relation to the differentiation of the follicular epithelium

This paper deals with an electron microscope study of nucleolar ultrastructural modifications that occur in the oocytes of the lizard Podarcis sicula during ovarian follicle differentiation. In small diplotene oocytes around which a monolayered follicular epithelium forms, the nucleolus appears as a fibrillo-granular structure. Afterwards, simultaneously with the beginning of pyriform cell differentiation inside the granulosa, the nucleolus progressively condenses and breaks into fragments, forming dense spherical bodies. In larger follicles, with well differentiated pyriform cells, a typical nucleolus is no longer detectable in the oocyte nucleus. These ultrastructural modifications suggest a possible impairment of the oocyte nucleolus in ribosome organization. A possible involvement of pyriform cells in supplying ribosomes to the growing oocyte is discussed.     

Incorporation of H3-thymidine into the oocytes of a sterlet in the early meiotic prophase]

DNA synthesis in meiotic oocytes of the sterlet (A. ruthenus) has been studied during early prophase stages using H3-thymidine. The pattern of H3-thymidine incorporation is similar to that in oocytes of Amphibia and Osteichthyes. In the oogonia as well as in the leptotene and zygotene oocytes, the label is predominantly localized over chromosomes. An intensive incorporation of H3-thymidine into the material of the heterochromatic "cap" has been observed during pachytene. Thus, the main synthesis of extra DNA in the sterlet oocytes occurs during pachytene. No DNA in synthesized by the diplotene oocytes.     

Clastogenic effects of cis-diamminedichloroplatinum. II. Induction of chromosomal aberrations in primary spermatocytes and spermatogonial stem cells of mice

The clastogenic effect of the anticancer drug cis-diamminedichloroplatinum (II) (cisplatin) on meiotic prophase in primary spermatocytes and on spermatogonial stem cells of male (101/E1 x C3H/E1)F1 mice was studied. The intraperitoneal doses of cisplatin tested were 5.0, 7.5 and 10.0 mg/kg. Chromosomal aberrations were examined at diakinesis-metaphase 1 of meiosis 1-13 days after treatment, representing cells treated at diplotene, pachytene, zygotene, leptotene an preleptotene. Reciprocal translocations were evaluated 63-70 days after treatment, representing treated stem-cell spermatogonia. Cisplatin had a toxic effect in zygotene to preleptotene of meiosis, as indicated by the significant reduction in testicular weight. At diplotene, pachytene and zygotene no enhancement of aberrations was found. An increase in aberrant cells was observed during leptotene with preleptotene being the most sensitive stage. The dose-response relationship for aberrant cells was linear on day 13 after treatment. It is concluded that, like mitomycin C (Adler, 1976), cisplatin primarily caused aberrations during the premeiotic phase of DNA synthesis. No significant increase of translocation multivalents was found after treatment of stem-cell spermatogonia.     

Multiplication of nucleolar fibrillar centres and absence of rDNA amplification in mouse ooctye during meiotic prophase I

During meiotic prophase I the nucleolus of the mouse oocyte assumes a reticulate structure of ‘nucleolonema’ type. This change coincides with the appearance of several secondary fibrillar centres. The number of these centres at diplotene (97–113), largely exceeds that of nucleolar organizers (4c DNA = 20 NORs). The quantitatative analysis of autoradiographs after hybridization in situ with -³H-uridine labelled rRNA, enabled us to demonstrate that the multiplication of the fibrillar centres in mouse oocyte nucleolus during meiotic prophase I is not the result of an amplification of the rDNA. The number of silver grains in pachytene and diplotene nuclei was twice that counted for somatic cell and oogonium nuclei (2c DNA).     

Gene amplification in oocytes with 8 germinal vesicles from the tailed frog Ascaphus truei Stejneger

In the last 3 oogonial mitoses in Ascaphus truei all daughter nuclei remain in the same cell. The oocyte is 8-nucleate at the start of meiotic prophase and remains so until late in oogenesis when 7 of the nuclei disappear. All 8 nuclei in a single oocyte resemble one another with respect to size and chromatin distribution at all stages of meiotic prophase. Much of the Feulgen-positive material in pachytene nuclei is concentrated into one region of the nucleus. — All of the 8 germinal vesicles of yolky oocytes have a full set of lampbrush diplotene bivalents. Germinal vesicles from oocytes of up to 0.8 mm diameter have less than 100 nucleoli, some of which are multiple nucleoli in the sense that they have more than one core region. Each of the 8 nuclei in oocytes from one animal had about the same volume of nucleolar material. — Two values have been obtained for the amount of DNA in a diploid nucleus from Ascaphus. A biochemical estimate utilizing erythrocyte nuclei and the diphenylamine reaction yielded a value of 7.1 pg per nucleus. Microphotometry of erythrocyte nuclei stained with Feulgen's reagent gave a value of 8.2 pg per nucleus. — Microphotometric measurements of Feulgen-stained nuclei at various stages of meiotic prophase up to diplotene indicate that each nucleus synthesizes up to 5 pg of extrachromosomal DNA during and immediately after pachytene. This DNA is considered to be nucleolar. Autoradiography of nuclei from oocytes which had been incubated for 6h in ³H thymidine showed silver grains over pachytene and early diplotene nuclei only. In pachytene nuclei the silver grains overlaid that part of the nucleus where Feulgen-positive material was most concentrated. Most of the chromosomal material was unlabelled. — The significance of the 8-nucleate condition in Ascaphus oocytes is discussed, and the amount of nucleolar DNA synthesized at pachytene and of nucleolar material present in germinal vesicles is compared with corresponding situations in other amphibians.     

Cellular organization in the synganglion of the mite Macrocheles muscaedomesticae (Acarina: Macrochelidae)

Summary A large DNA containing body is found in oocytes of the house cricket, Acheta domesticus. Little or no RNA synthesis is associated with the DNA body during the leptotene, zygotene, and pachytene stages of meiotic prophase I. During the early diplotene stage of development, large masses of nucleolar material begin to accumulate at the periphery of the DNA body. The onset of RNA synthesis correlates with a change in the histochemically detectable histone proteins associated with the DNA body. In ovaries of animals injected with uridine-H³, most of the label accumulates in ribosomal RNA. Autoradiographic studies show that the cytoplasm of late diplotene stage cells accumulates uridine label to a greater extent than does the cytoplasm of early diplotene stage cells. Increased transport of nucleolar material through the nuclear envelope of late diplotene stage cells accounts for the increased cytoplasmic labeling.This investigation was supported by PHS Research Grant No. GM 16440 from the Institute of General Medical Sciences, and by Grants No. L-16 and J-1 from the Health Research and Services Foundation.The authors gratefully acknowledge the technical assistance of Mrs. Marcia Andrews and Miss Celeste Malinoski.     

Patterns of RNA synthesis in early meiotic prophase oocytes from fetal mouse ovaries

In a study of the early meiotic prophase stages of mouse oogenesis from d12 of gestation to 10d post-partum the patterns of RNA synthesis during these stages of oogenesis using H³-uridine incorporation as visualized by light microscope autoradiography are reported. We find that chromosomal RNA synthesis occurs in all stages except early to mid-pachytene, the time of maximum chromosome condensation. Diplotene and dictyate nuclei are the most heavily labelled stages. Nucleolar labelling ceases before leptotene and reappears in late pachytene or early diplotene, even though nucleoli can be identified in all stages except early to mid-pachytene.     

Ovarian nests in cultured females of the Siberian sturgeon Acipenser baerii (Chondrostei,Acipenseriformes)

Ovaries of Acipenser baerii are of an alimentary type and probably are meroistic. They contain ovarian nests, individual follicles, inner germinal ovarian epithelium, and fat tissue. Nests comprise cystoblasts, germline cysts, numerous early previtellogenic oocytes, and somatic cells. Cysts are composed of cystocytes, which are connected by intercellular bridges and are in the pachytene stage of the first meiotic prophase. They contain bivalents, finely granular, medium electron dense material, and nucleoli in the nucleoplasm. Many cystocytes degenerate. Oocytes differ in size and structure. Most oocytes are in the pachytene and early diplotene stages and are referred to as the PACH oocytes. Oocytes in more advanced diplotene stage are referred to as the DIP oocytes. Nuclei in the PACH oocytes contain bivalents and irregularly shaped accumulation of DNA (DNA‐body), most probably corresponding to the rDNA‐body. The DNA‐body is composed of loose, fine granular material, and comprises multiple nucleoli. At peripheries, it is fragmented into blocks that remain in contact with the inner nuclear membrane. In the ooplasm, there is the rough endoplasmic reticulum, Golgi complexes, free ribosomes, complexes of mitochondria with cement, fine fibrillar material containing granules, and lipid droplets. The organelles and material of nuclear origin form a distinct accumulation (a granular ooplasm) in the vicinity of the nucleus. Some of the PACH oocytes are surrounded by flat somatic cells. There are lampbrush chromosomes and multiple nucleoli present (early diplotene stage) in the nucleoplasm. These PACH oocytes and neighboring somatic cells have initiated the formation of ovarian follicles. The remaining PACH oocytes transform to the DIP oocytes. The DIP oocytes contain lampbrush chromosomes and a DNA‐body is absent in nuclei. Multiple nucleoli are numerous in the nucleoplasm and granular ooplasm is present at the vegetal region of the oocyte.     

Clastogenic effects of cis-diamminedichloroplatinum II. Induction of chromosomal aberrations in primary spermatocytes and spermatogonial stem cells of mice

The clastogenic effect of the anticancer drug cis-diamminedichloroplatinum(II) (cisplatin) on meiotic prophase in primary spermatocytes and on spermatologonial stem cells of male (101/E1 × C3H/E1)F₁ mice was studied. The intraperitoneal doses of cisplatin tested were 5.0, 7.5 and 10.0 mg/kg. Chromosomal aberrations were examined at diakinesis-metaphase 1 of meiosis 1–13 days after treatment, representing cells treated at diplotene, pachytene, zygotene, leptotene an preleptotene. Reciprocal translocations were evaluated 63–70 days after treatment, representing treated stem-cell spermatogonia.Cisplatin had a toxic effect in zygotene to preleptotene of meiosis, as indicated by the significant reduction in testicular weight. At diplotene, pachytene and zygotene no enhancement of aberrations was found. An increase in aberrant cells was observed during leptotene with preleptotene being the most sensitive stage. The dose-response relationship for aberrant cells was linear on day 13 after treatment. It is concluded that, like mitomycin C (Alder, 1976), cisplatin primarily caused aberrations during the premeiotic phase of DNA synthesis. No significant increase of translocation multivalents was found after treatment of stem-cell spermatogonia.     

A light- and electron microscopic analysis of meiotic prophase in female mice

In this paper we describe meiotic prophase of female mice on successive days of embryonic and early postnatal development. For this purpose we used three different techniques on ovarian material, i.e., Giemsa staining for the light microscopic study of chromatin, silver staining for the light microscopic study of the synaptonemal complex (SC), and agar filtration followed by uranyl acetate staining for the electron microscopic study of the SC. — In all types of preparation it was impossible to distinguish leptotene stages, and we conclude that if leptotene really exists, it is of very short duration. — Two types of zygotene stages were found: the “normal” one, resembling zygotene stages in male mice, and a second type that has never been described in males and is characterized by, probably stable, unpaired regions together with totally unpaired axial elements of the SC. — The duration of pachytene was found to be 3–4 days, which is considerably shorter than in males. During early diplotene despiralization of the chromatin and disintegration of the axes of the SC were usually found together with desynapsis. — A considerable variation in distribution of meiotic stages was found between different litters in the same day of gestation. Fetuses in the same litter showed no significant variation. However, the oocytes in an ovary did not pass through meiosis synchronously, with differences up to several days. The appearance of chromosomes in a highly contracted state could not be interpreted as a preleptotene condensation stage but probably is a mitotic phenomenon.     

Amplified ribosomal DNA in meiotic prophase oocyte nuclei of acipenserid fishes

Summary In situ hybridization has been performed in sections through ovaries ofAcipenser ruthenus andAcipenser güldenstädti in order to detect the rDNA sequences. Hybridization resulted in specific labelling of the caps of extrachromosomal DNA present in pachytene oocyte nuclei and of the chromatin granules distributed beneath the nuclear envelope in early diplotene nuclei. In the same sections, the nuclei of all ovarian cells in both species (oogonia, leptotene, and zygotene stage oocytes, follicular cells, connective tissue cells) showed a very low, but similar labelling.Amplification of genes for rRNA thus occurs at the pachytene stage in early oogenesis ofAcipenseridae. No rDNA amplification could be detected in the previous stages.     

The temporal and spatial distribution of the proliferation associated Ki-67 protein during female and male meiosis

We used immunolocalization in tissue sections and cytogenetic preparations of female and male gonads to study the distribution of the proliferation marker pKi-67 during meiotic cell cycles of the house mouse, Mus musculus. During male meiosis, pKi-67 was continuously present in nuclei of all stages from the spermatogonium through spermatocytes I and II up to the earliest spermatid stage (early round spermatids) when it appeared to fade out. It was not detected in later spermatid stages or sperm. During female meiosis, pKi-67 was present in prophase I oocytes of fetal ovaries. It was absent in oocytes from newborn mice and most oocytes of primordial follicles from adults. The Ki-67 protein reappeared in oocytes of growing follicles and was continuously present up to metaphase II. Thus, pKi-67 was present in all stages of cell growth and cell division while it was absent from resting oocytes and during the main stages of spermiocytogenesis. Progression through the meiotic cell cycle was associated with extensive intranuclear relocation of pKi-67. In the zygotene and pachytene stages, most of the pKi-67 colocalized with centromeric (centric and pericentric) heterochromatin and adjacent nucleoli; the heterochromatic XY body in male pachytene, however, was free of pKi-67. At early diplotene, pKi-67 was mainly associated with nucleoli. At late diplotene, diakinesis, metaphase I and metaphase II of meiosis, pKi-67 preferentially bound to the perichromosomal layer and was almost absent from the heterochromatic centromeric regions of the chromosomes. After the second division of male meiosis, the protein reappeared at the centromeric heterochromatin and an adjacent region in the earliest spermatid stage and then faded out. The general patterns of pKi-67 distribution were comparable to those in mitotic cell cycles. With respect to the timing, it is interesting to note that relocation from the nucleolus to the perichromosomal layer takes place at the G2/M-phase transition in the mitotic cell cycle but at late diplotene of prophase I in meiosis, suggesting physiological similarity of these stages.