The behaviour of chromosomal axes in Searle's X-autosome translocation

The sex vesicle-autosomal complex of mice heterozygous for Searle's X-autosome translocation has been reconstructed by serial sectioning and model building. The chromosomal axes of the five reconstructed models showed a characteristic pattern. The four axes present were identified as corresponding to: an unchanged autosome (A₁), the Y chromosome (Y) and the two translocation products, Xt, that has the X centromere, and A₂t that has an autosomal centromere. The axes of these translocated chromosomes have a mixed path, inside the sex vesicle and autosomal chromatin. The axes pair among themselves according to a pattern which agrees with that predicted by Ford and Evans (1964). It has been shown that the pairing region of the X chromosome of mice is the distal region and that the nucleolus is attached near its centromeric region. In some cells a slightly different pattern of the axes (type B) was observed. These cells have an anomalous synaptonemal complex between A₂t and Xt, that is, between portions of the X axis. It has been shown that autosomal chromatin becomes heteropycnotic in the proximity of the X–Y chromatin, and that this effect is stronger in the proximal part of A₂t. This effect explains the enlarged volume of the sex vesicle.     

An analysis of the chromomere map and chiasmata characteristics of human diplotene spermatocytes

A complete chromomere map of early/mid diplotene human spermatocytes has been developed which permits identification of each bivalent. Bivalents 9, 16, 17, and 19 demonstrated unique cytogenetic characteristics at this meiotic stage. The mean chiasma frequency per spermatocyte was 45.33 +/- 4.52 (ranging from 32 to 58) with 28% of bivalents having one chiasma, 38% having two, and 27% having three. The remaining 7% had four or more chiasmata. Fifty-eight percent of chiasmata were located distally, 31% centrally, and 11% proximally. Univalents were rare. The availability of human diplotene spermatocyte maps permits exploration of many basic questions of recombination with accuracy.     

DNA synthesis at selective sites during pachytene in mouse spermatocytes

DNA repair replication has been previously demonstrated to occur in mouse spermatocytes during the pachytene stage. The results reported in this study provide a more detailed characterization of pachytene repair by focusing upon specific properties of the sites of replication. Our data demonstrate that single-strand breaks persist within replicated sequences throughout a period which corresponds to a defined interval of the pachytene stage. A large fraction of the sites may be nicked more than once within the same DNA strand, allowing the selective release of replicated DNA sequences from gently denatured spermatocyte DNA. DNA fragments thus prepared from pachytene spermatocytes are not of random sequence composition, but are derived from a specific subset of the mouse genome. Sites of replication are also associated with chromatin of distinctive structure in pachytene spermatocytes, as evidenced by the sensitivity of replicated chromatin to DNase II, and its solubility in the presence of Mg²⁺. In each of these respects, sequences replicated in pachytene spermatocytes closely resemble their counterparts in the LiHum genome.     

The MAPK pathway triggers activation of Nek2 during chromosome condensation in mouse spermatocytes

Chromosome condensation during the G2/M progression of mouse pachytene spermatocytes induced by the phosphatase inhibitor okadaic acid (OA) requires the activation of the MAPK Erk1. In many cell systems, p90Rsks are the main effectors of Erk1/2 function. We have identified p90Rsk2 as the isoform that is specifically expressed in mouse spermatocytes and have shown that it is activated during the OA-triggered meiotic G2/M progression. By using the MEK inhibitor U0126, we have demonstrated that activation of p90Rsk2 during meiotic progression requires activation of the MAPK pathway. Immunofluorescence analysis indicates that activated Erks and p90Rsk2 are tightly associated with condensed chromosomes during the G2/M transition in meiotic cells. We also found that active p90Rsk2 was able to phosphorylate histone H3 at Ser10 in vitro, but that the activation of the Erk1/p90Rsk2 pathway was not necessary for phosphorylation of H3 in vivo. Furthermore, phosphorylation of H3 was not sufficient to cause condensation of meiotic chromosomes in mouse spermatocytes. Other proteins known to associate with chromatin may represent effectors of Erk1 and p90Rsk2 during chromosome condensation. Nek2 (NIMA-related kinase 2), which associates with chromosomes, plays an active role in chromatin condensation and is stimulated by treatment of pachytene spermatocytes with okadaic acid. We show that inhibition of the MAPK pathway by preincubation of spermatocytes with U0126 suppresses Nek2 activation, and that incubation of spermatocyte cell extracts with activated p90Rsk2 causes stimulation of Nek2 kinase activity. Furthermore, we show that the Nek2 kinase domain is a substrate for p90Rsk2 phosphorylation in vitro. These data establish a connection between the Erk1/p90Rsk2 pathway, Nek2 activation and chromosome condensation during the G2/M transition of the first meiotic prophase.     

The spatial relationship of the X and Y chromosomes during meiotic prophase in mouse spermatocytes

The ultrastructure of whole X-Y pairs has been reconstructed by serial sectioning and model building. Seven X-Y pairs were completely reconstructed and the lengths of the cores of the sex chromosomes were measured. These X-Y pairs corresponded to zygonema, early, middle and late pachynema. Special regions of the X-Y pair were reconstructed from thinner sections. — It has been shown that two cores exist in the sex pair during the cited stages, and that their lengths and morphology are rather constant in specific stages. The long core averages 8.9 in length and the short core is 3.5 long. Both cores have a common end region in which a synaptonemal complex is formed from zygonema up to midpachynema. This synaptonemal complex shortens progressively up to mid-pachynema and at late pachynema becomes obliterated. Each core has a free end touching the nuclear membrane. During mid-pachynema an anomalous synaptonemal complex is developed on most of the length of the long core. This complex is asymmetric and disappears at late pachynema. The meaning of the cores and the complexes are discussed, and the existence of a homologous region in the X-Y pair of the mouse is interpreted to be proved.     

Distribution of Atr protein in primary spermatocytes of a mouse chromosomal mutant: a comparison of preparation techniques

In this study, we examined the suitability of a three dimensional preparation technique for studying chromosome behaviour in the first meiotic prophase in the mouse chromosomal mutant T(1;13)H/T(1;13)Wa. To preserve cellular shape, primary spermatocytes were encapsulated in a fibrin clot. Conventionally sedimented prophase nuclei served as controls. Axial elements and lateral synaptonemal complex components were subsequently stained by immunofluorescence and the presence of axial elements at the pachytene stage was highlighted with indirect immunofluorescence against the Atr protein. We compared the distribution of Atr signal in the fibrin-embedded spermatocytes with surface-spread preparations and immunohistochemically stained histological sections of seminiferous tubules. Furthermore, fluorescence in situ hybridisation of the mouse minor satellite DNA was done on fibrin-embedded spermatocytes. The Atr signal is most conspicuous in fibrin-embedded nuclei on unpaired axial elements during pachytene, both for sex chromosomal and for autosomal segments, and expanding from these elements into the surrounding chromatin. Both spread and encapsulated zygotene nuclei with extended axial element formation proved to be positive for Atr. Mid- to late zygotene nuclei were devoid of 3,3′-diaminodibenzene deposition in the histological sections. Highlighting the unpaired axial elements in the small heteromorphic 1¹³H;1¹³Wa bivalent with an Atr signal enabled meiotic analysis of this bivalent to be carried out in a three-dimensional context. Thus, proximity of this bivalent with the sex chromosomes is found more often in three-dimensional preparations than in spread preparations. Furthermore, the development of the Atr signal over the sex chromosomes as pachytene proceeds helps in substaging of this long and heterogeneous meiotic phase, in sedimented but especially in fibrin-encapsulated nuclei. Received: 22 September 1999; in revised form: 20 December 1999 / Accepted: 21 December 1999     

Absence of satellite DNA synthesis during meiotic prophase in mouse and human spermatocytes

Mouse spermatocytes were labelled in situ with ³H-thymidine at successive stages of meiosis. Isolated mouse as well as human spermatocytes were similarly labelled under in vitro conditions. DNA synthesis was followed either by tracking radioactivities in Cs₂SO₄ gradients or by measuring reassociation kinetics. Mouse satellite DNA and the 3 satellites of human DNA are labelled during S-phase but not during pachytene. In the mouse genome, there is a preferential labelling of regions containing foldbacks (human spermatocytes were not analyzed in this respect). The absence of detectable pachytene synthesis in satellite DNA is consistent with genetic evidence on the absence of crossing-over in constitutive heterochromatin.     

Differential chromosomal distribution of ribonucleoprotein antigens in nuclei of Drosophila spermatocytes

The ribonucleoprotein (RNP) composition of the active Y chromosomal structures in spermatocyte nuclei of Drosophila hydei has been investigated using the anti-RNP antibodies Dm 28K2 and pp60 as a probe. Antibody Dm 28K2 was raised against an RNP protein of cytoplasmic RNP particles in D. melanogaster cells, while antibody pp60 was raised against a pre-messenger RNP fraction from oocytes of Xenopus laevis. Both antibodies detect nuclear RNP (nRNP) antigens of D. hydei. This is shown by CsCl density centrifugation of nRNP from D. hydei cells and immunoblotting across the density gradient. Dm 28K2 and pp60 recognize antigens of nRNP complexes which band at a characteristic buoyant density of approximately 1.4 g/cm3 in CsCl. By indirect immunofluorescence we observe that the nRNP complexes identified by Dm 28K2 are localized at only two of the five Y chromosomal loop structures which are named according to their distinct morphology. Dm 28K2 decorates RNPs within the "clubs," within the cones, and within the matrix of the "pseudonucleolus." Ultrastructural bodies that are candidates for this immunoreaction are RNP granules that resemble the so-called perichromatin granules. Antibody pp60 recognizes RNP complexes close to the axes of the active Y chromatin. In the "pseudonucleolus" it can be shown that the structures recognized by pp60 are quite distinct from those detected by Dm 28K2. Thus, the "pseudonucleolus" is a striking example for the presence of different RNP populations within a same defined nuclear compartment. Together with previous results (Glatzer, K. H., 1984, Mol. Gen. Genet., 196:236- 243), our data represent evidence that the morphological and apparently functional differences between the active Y chromosomal loops, which are involved in male fertility, are caused by the presence of qualitatively and possibly also functionally different RNP populations within these nuclear compartments. Because both RNP antigens are discussed in the literature in connection with repressed mRNP the observed cross-reaction of the respective antibodies in D. hydei suggests a more general and important function of these proteins in the RNA metabolism of eukaryotic cells.     

A light microscopic study of the development and behaviour of the synaptonemal complex in spermatocytes of the mouse

A method is presented for the sequential analysis of male meiosis using hydroxyurea (HU). HU produces a gap in the spermatogenic line. The front of surviving cells behind the gap was examined day by day using silverstained whole mount spreads on glass slides. With this method it was possible to study the development and behaviour of the synaptonemal complex (SC) in mouse spermatocytes by the light microscope. At zygotene no unpaired axial elements could be seen. Unpaired axial elements were found to be specific for the diplotene stage. The axes of the XY pair could be recognized from late zygotene up to diplotene.     

The behaviour and structure of the sex chromosomes in spermatocytes of Microtus oeconomus

The meiotic behaviour and structure of the sex chromosomes of Microtus oeconomus (2n=30) in Giemsa stained preparations are described. The X-Y pair appears as a sex vesicle at late zygotene. At late pachytene an unfolded sex vesicle is visible. A condensed sex vesicle appears during pre-diffuse diplotene and starts to unfold again during post-diffuse diplotene. At diakinesis and metaphase I the X and Y chromosomes can be recognized in an end-to-end association. During anaphase I, interkinesis and metaphase II the sex chromosomes are heteropycnotic and can therefore easily be recognized during the final stages of meiosis. During spermiogenesis the X and Y chromosomes can be identified in Giemsa stained preparations until the stage of spermatid elongation.     

Cytogenetic investigation of chemically-induced aneuploidy in mouse spermatocytes

This paper discusses a test system in which mouse spermatocytes are analyzed for aneuploidy induction after mice are treated with various agents. Included in this report are methods and procedures of the assay, criteria for determination of aneuploidy induction, considerations for dose-response and stage-specific actions of agents that cause aneuploidy, and finally, advantages and disadvantages of this test system.     

Origin of body axes in the mouse embryo

How and at what stage of development are the axes of the body determined? The left-right axis of the mouse embryo is generated de novo at embryonic day (E) 8.0 in a manner dependent on pre-existing positional cues. The anterior-posterior (A-P) axis becomes apparent earlier when distally located visceral endoderm migrates toward the future anterior side at E5.5. The direction of this migration is predetermined by asymmetric expression of Lefty1 and Cerl1(Cerberus-like 1). Asymmetric expression of Lefty1 takes place even earlier, in the primitive endoderm of the implanting blastocyst, pushing back the origin of the A-P axis to the peri-implantation stage. Although its functional significance remains to be seen, studies on how this molecular asymmetry emerges may provide insight into the origin of A-P polarity. The first cell fate decision occurs by the morula stage. Although blastomeres at the two-cell or four-cell stage may have biased fates, it is currently unknown whether this bias has any causal relation to later fate.     

The effect of tequila in the synaptonemal complex structure of mouse spermatocytes.

The effect of tequila in the synaptonemal complex (SC) of mouse spermatocytes was determined. We tested 3 dosages (2.1, 4.2 and 8.4 g/kg) administered in a single intraperitoneal inoculation. The frequency of SC alterations was established in pachytenic nuclei 5 days after the administration using a silver impregnation technique. Three types of alterations were observed (desynapses, breaks and multiaxials) and the rate of each alteration was compared with that obtained with appropriate controls, including cyclophosphamide (CP) (150 mg/kg). The results showed a significant increase induced by tequila only in the frequency of desynapses. This damage began at the second highest dose (4.2 g/kg). The other SC alterations were in the control range. CP, however, induced a significant increase in all 3 types of SC alterations.     

Activities of X-linked enzymes in spermatocytes of mice rendered sterile by chromosomal alterations

Spermatocytes in the late prophase of first meiotic division isolated from sterile males retain higher activities for three X-linked enzyme⁵, phosphoglycerate kinase (PGK)-1, glucose-6-phosphate dehydrogenase (G6PD), and hypoxanthine-guanine phosphoribosyl transferase (HGPRT) than those of fertile males. The sterilty of the male is presumed to be owing to the rearrangement of X-chromosome material and the possibility of abnormal meiotic X-chromosome inactivation is discussed.