Premature Chromatin Condensation Research Articles

Behavior of M-phase synchronized blastomeres after nuclear transfer in cattle.

M-phase synchronized bovine blastomeres were used to study the effect of nuclear-cytoplasmic synchronization on the developmental potential after nuclear transfer (NT). The capacity of nocodazole and benomyl to reversibly synchronize blastomeres from embryos in M-phase was evaluated. Nocodazole reversibly arrested bovine embryos at the studied stages and induced high rates of M-phases in morulae and compact morulae. In contrast, benomyl was less efficient than nocodazole to synchronize in M-phase. After transfer of an M-phase blastomere, premature chromatin condensation was the prevalent finding 1 hr post-fusion (hpf). Condensed chromosomes non-arranged in the equatorial plate (1-3 hpf) that acquired an organized structure over time (3-7 hpf) were subsequently observed. Anaphase-telophase structures were predominantly recorded at 4-9 hpf. About 50% of the embryos activated at both 3-4 and 6-7 hpf extruded a polar body-like structure 5 hr after activation, but this was not observed in embryos activated immediately after fusion. A significantly lower activation rate was observed for oocytes activated 3-4 hpf compared to those activated 6-7 hpf. However, the ability to undergo first cleavage was significantly lower in the latter group. Reconstructed embryos activated immediately after fusion showed no difference in the rate of activation compared to those activated 6-7 hpf, although the cleavage rate was higher. DNA synthesis was observed at a significantly higher rate in embryos activated both immediately and 3-4 hpf that did not extrude a PB-like structure than in those activated 3-4 hpf that extruded a polar body-like structure. Under the conditions tested M-phase donor cells cannot be properly remodeled after NT in cattle to trigger normal embryonic development. Our observations of chromatin structures together with DNA synthesis suggest that the failure in the development may be due to improper chromatin remodeling of mitotic nuclei after NT, which may result in chromosomal abnormalities incompatible with normal embryo development.

Fluorescent study of chromatin and tubulin in apparently unfertilized human oocytes following ICSI.

In this study we examined 138 oocytes which were meiotically mature and, on light microscopic examination, contained either no or one pronucleus following intracytoplasmic sperm injection (ICSI). Oocytes were fixed and simultaneously stained for chromatin (Hoechst 33258) and the spindle (alpha-tubulin antibody). In nine oocytes, no sperm nucleus was observed. The remaining oocytes were separated into two groups following staining; (i) oocytes which had remained at metaphase II after ICSI (n = 74); and (ii) oocytes in which resumption of meiosis was observed after ICSI (n = 55). In all oocytes in which sperm chromatin was absent no resumption of meiosis had occurred and therefore parthenogenetic activation by the process of ICSI seems to be a rare event. In 17 out of 74 (23%) oocytes which remained at metaphase II, staining identified premature chromosome condensation (PCC) of the sperm chromatin (G1-PCC). Sperm nuclear decondensation or further transformation of the sperm chromatin was observed in 56 out of 74 (76%) oocytes which remained at metaphase II after ICSI and in 46 out of 55 (84%) oocytes which had resumed meiosis, indicating that initiation of sperm decondensation is independent of the resumption of meiosis in the oocyte. In contrast, transition of the sperm nucleus beyond the decondensed stage only occurred in association with resumption of meiosis in the oocyte (no pronuclei in metaphase II oocytes). The presence of both male and female pronuclei in 53% of oocytes which had resumed meiosis indicates that changes in sperm chromatin beyond the initial decondensation stage are dependent on cytoplasmic conditions which also permit female pronuclear formation.

Development of embryos produced by intracytoplasmic sperm injection of cat oocytes.

Development of cat oocytes following intracytoplasmic sperm injection (ICSI) and in vitro fertilization (IVF) was compared in two experiments. Domestic cat donors (used as a model for wild felids) were treated with 150 IU equine chorionic gonadotrophin (eCG) on treatment day 1 or a total of 10-15 IU of follicle-stimulating hormone (FSH) over four days, followed by 100 IU human chorionic gonadotrophin (hCG) on day 5 and follicular aspiration 24-26 h later. A jaguarundi (Herpailurus yaguarondi) female was stimulated twice with FSH (20 IU) or eCG (300 IU) and hCG (250 or 300 IU) before oocyte recovery. After storage at 4 degrees C, domestic cat semen was washed and processed. For ICSI, denuded oocytes were each injected with an immobilised spermatozoon. IVF oocytes were co-incubated with 5 x 10(4) motile spermatozoa/0.5 ml for 4-6 h. Noncleaving oocytes were fixed and stained 24-28 h after injection or insemination. Presumptive zygotes were cultured before transfer on day 5 (experiment I only) or evaluation on day 7 (experiments I and II). In experiment I, fertilization frequency was 67.9% (72/106) and 58.1% (122/210) for IVF and ICSI oocytes, respectively (P > 0.05). Most noncleaving ICSI oocytes (71/88, 80.7%) at 24 h were at metaphase II, of which half (35/71, 49.3%) had an activated spermatozoon (n=4) or premature chromatin condensation (PCC, n=31) of the sperm head. All 69 day 7 IVF embryos developed to morulae (> 16-cells, 46.7%) or blastocysts (53.3%), and 59/63 (93.7%) ICSI embryos reached the morula (50.8%) or blastocyst (42.9%, P > 0.05) stage. Mean cell number in IVF and ICSI embryos was 136 and 116 (P > 0.05); morulae had 77 and 46 (P < 0.05) and blastocysts had 187 and 209 (P > 0.05) cells, respectively. After transfer of 10 or 11 day 5 ICSI morulae to each of four recipients, a total of three kittens were born to two dams at 66 or 67 days. Of 18 fair-to-good quality oocytes recovered from a jaguarundi on two occasions, 10 (55.6%) embryos were produced by ICSI with fresh (n=5) or frozen (n=5) conspecific spermatozoa, but no jaguarundi kittens were born after transfer of these embryos to domestic cat recipients. In experiment II, cleavage frequency following IVF (15/17, 88.2%) and ICSI (31/38, 81.6%) was higher (P < 0.05) than following sham ICSI (13/35, 37.1%). Mean cell number (27 cells) and blastocyst development (0%) on day 7 was lower (P < 0.05) in the sham ICSI group than in the ICSI group (45 cells, 15.6% blastocysts) which, in turn, was lower (P < 0.05) than the IVF group (94 cells, 46.7% blastocysts). We have demonstrated that ICSI can be applied successfully in domestic felids and suggest that the technique will effectively augment other biotechniques being developed for enhancing reproduction in endangered felids.

Development of parthenogenetic and cloned ovine embryos: effect of activation protocols.

Preliminary experiments carried out on ovine oocytes were designed to establish correlations between activation protocols and subsequent rates of embryonic development. The best activation protocols were thereafter used in studies on ovine parthenogenesis and cloning. The first study established that chemical activators induce pronuclear development at a slightly higher rate than physical activation (ionomycin, 96%; ethanol, 95%; electro activation, 80%). Inhibition of second polar body extrusion and one single pronucleus were observed in the majority of the oocytes (approximately 90%) treated for 3 h with 6-dimethylaminopurine (6-DMAP) following either ionomycin or ethanol activation. While over 80% of these oocytes cleaved after transfer to the oviducts of recipients, progression to the blastocyst stage was higher after ionomycin as compared with ethanol activation (58% vs. 19%). The ionomycin plus 6-DMAP activation protocol was used to produce parthenogenetic blastocysts whose subsequent development was monitored both by ultrasonography and by direct fetal examination. Over 70% of parthenogenotes were viable on Day 21 of pregnancy but dead by Day 25. The effects of 6-DMAP on nuclear remodeling and fetal development of cloned embryos was then investigated. Control cloned embryos underwent nuclear envelope breakdown (NEBD), premature chromatin condensation (PCC), and inhibition of DNA synthesis. By contrast, reconstructed embryos treated with 6-DMAP exhibited intact nuclear membranes, interphase chromatin, and no interference on DNA synthesis. Moreover, cloned embryos developed to blastocyst stage in higher percentage after 6-DMAP treatment (83% vs. 25%). We conclude that ionomycin followed by 6-DMAP incubation yields high percentages of diploid parthenogenetic embryos that develop to Day 25 before dying. Cloned embryos activated by the ionomycin-6-DMAP protocol develop readily to term.

A NIMA homologue promotes chromatin condensation in fission yeast.

Entry into mitosis requires p34(cdc2), which activates downstream mitotic events through phosphorylation of key target proteins. In Aspergillus nidulans, the NIMA protein kinase has been identified as a potential downstream target and plays a role in regulating chromatin condensation at mitosis. nimA- mutants arrest in a state that physically resembles interphase even though p34(cdc2) is fully active. Despite evidence for the existence of NIMA-like activities in a variety of cell types, the only bona fide NIMA homologue that has been identified is the nim-1 gene of Neurospora crassa. We report here the isolation of a fission yeast NIMA homologue, and have designated this gene fin1 and the 83 kDa predicted protein p83(fin1). Overexpression of fin1 promotes premature chromatin condensation from any point in the cell cycle independently of p34(cdc2) function. Like NIMA, p83(fin1) levels fluctuate through the cell cycle, peaking in mitosis and levels are greatly elevated by removal of C-terminal PEST sequences. Deletion of fin1 results in viable but elongated cells, indicative of a cell cycle delay. Genetic analysis has placed this delay in G2 but, unlike in nimA mutants of Aspergillus, p34(cdc2) activation appears to be delayed. Interaction of fin1 mutants with other strains defective in chromatin organisation also support the hypothesis of p83(fin1) playing a role in this process at the onset of mitosis. These data indicate that NIMA-related kinases may be a general feature of the cell cycle and chromatin organisation at mitosis.

Polycystic Ovarian Syndrome (PCOS) is Associated With a High Incidence of Premature Condensation of Sperm Chromatin in Oocytes Failing to Cleave Following IVF

Polycystic Ovarian Syndrome (PCOS) is Associated With a High Incidence of Premature Condensation of Sperm Chromatin in Oocytes Failing to Cleave Following IVF

O-011 Polycystic ovarian syndrome (PCOS) is associated with a high incidence of premature condensation of sperm chromatin in oocytes failing to cleave following IVF

O-011 Polycystic ovarian syndrome (PCOS) is associated with a high incidence of premature condensation of sperm chromatin in oocytes failing to cleave following IVF

Role of inhibitory CDC2 phosphorylation in radiation-induced G2 arrest in human cells.

The activity of the mitosis-promoting kinase CDC2-cyclin B is normally suppressed in S phase and G2 by inhibitory phosphorylation at Thr14 and Tyr15. This work explores the possibility that these phosphorylations are responsible for the G2 arrest that occurs in human cells after DNA damage. HeLa cell lines were established in which CDC2AF, a mutant that cannot be phosphorylated at Thr14 and Tyr15, was expressed from a tetracycline-repressible promoter. Expression of CDC2AF did not induce mitotic events in cells arrested at the beginning of S phase with DNA synthesis inhibitors, but induced low levels of premature chromatin condensation in cells progressing through S phase and G2. Expression of CDC2AF greatly reduced the G2 delay that resulted when cells were X-irradiated in S phase. However, a significant G2 delay was still observed and was accompanied by high CDC2-associated kinase activity. Expression of wild-type CDC2, or the related kinase CDK2AF, had no effect on the radiation-induced delay. Thus, inhibitory phosphorylation of CDC2, as well as additional undefined mechanisms, delay mitosis after DNA damage.

Conserved Histidine Residues of RCC1 Are Essential for Nucleotide Exchange on Ran

Charged amino acid residues of human RCC1 were converted to alanine and mutants which were unable to complement tsBN2 cells (a temperature-sensitive rcc1- mutant of the hamster BHK21 cell line) were selected. These RCC1 mutants were analyzed for the ability to inhibit premature chromatin condensation by microinjection into tsBN2 cells, and their steady-state kinetic parameters for guanine nucleotide exchange reaction were measured. Examined RCC1 mutants were unstable in tsBN2 cells at the restrictive temperature, yet they significantly inhibited premature chromatin condensation. Mutants located on the N-terminus of the RCC1 repeat showed an increased K(m), while their kcat values were comparable to that of wild-type RCC1. In contrast, mutants containing the conserved histidine residues in the C-terminus of the RCC1 repeat showed a value of K(m) similar to that of wild-type RCC1, while the kcat values of these mutants were reduced, depending upon the RCC1 repeats on which the mutation was located. These steady-state kinetic parameters of mutants indicate that the N-terminus and the C-terminus of RCC1 repeats play different roles in guanine nucleotide exchange on Ran. The comparison of kcat among the histidine mutants suggests that those histidine residues which are conserved in the RCC1 repeats and also through evolution comprise the catalytic site for the guanine nucleotide exchange reaction.

Fertilization and early embryology: Consequences of non-extrusion of the first polar body and control of the sequential segregation of homologues and chromatids in mammalian oocytes

Absence of polar body formation, or premature chromatin condensation (PCC) in human oocytes can cause infertility. We studied in-vitro maturing mouse oocytes in order to identify risk factors for such conditions, and for the precocious segregation of homologues or chromatids. Treatment with the actin-binding drug cytochalasin D (10 micrograms/ml) arrested oocytes in metaphase I. Upon exposure to Ca(2+)-ionophores, anaphase I was triggered in the absence of cytokinesis. Chiasmata resolved and homologues separated instantaneously. In some oocytes predivision of all chromatids occurred. Homologues or chromatids never separated even after exposure to Ca(2+)-ionophores when microtubules were depolymerized, although bivalents could eventually decondense. Thus, in meiosis I checkpoints exist which ensure that homologue separation only takes place when a metaphase I spindle is present but cytokinesis and anaphase progression can be uncoupled. Cycloheximide induced a sequential separation of homologues in oocytes with intact metaphase I spindle, resulting in metaphase II chromosomes and bivalents in individual cells as also found in some human oocytes of aged females. In oocytes which progressed to metaphase II but failed to extrude a first polar body, the two sets of chromosomes eventually aligned on a common spindle ('diploid' metaphase II). PCC of one set was never observed. Ageing in vitro of cytochalasin D-blocked metaphase I oocytes had no pronounced effect on chromosome segregation.

Chromatin condensation activity and cortical activity during the first three cell cycles of a mouse embryo

One-cell parthenogenetic haploid embryos and blastomeres of the 2- and 4-cell diploid mouse embryos were observed in vitro for the occurrence of two cytoplasmic activities: the cortical activity and the chromatin condensation activity. For this purpose anucleated halves (AHs) and nucleated halves (NHs) were produced by bisection of one-cell embryos and of blastomeres. The cortical activity (manifested by surface deformations) was observed only during the first cleavage cycle. In AHs the surface activity began at the same time as in NHs and disappeared before the time of the cleavage division of nucleated halves. Anucleate fragments of blastomeres from 2- and 4-cell embryos did not exhibit any cortical activity. In the absence of the native nucleus the chromatin condensation activity (assayed by premature chromatin condensation of interphase thymocyte nuclei introduced into cytoplasts by cell fusion) could also have been detected only in the first cleavage cycle. In AHs this activity appeared at the time when NHs started to cleave and disappeared after the NHs finished the first cleavage division. AHs obtained from 2-cell and 4-cell stage blastomeres did not reveal condensation activity.

Premature chromatin condensation upon accumulation of NIMA.

The NIMA protein kinase of Aspergillus nidulans is required for the G2/M transition of the cell cycle. Mutants lacking NIMA arrest without morphological characteristics of mitosis, but they do contain an activated p37nimX kinase (the Aspergillus homologue of p34cdc2). To gain a better understanding of NIMA function we have investigated the effects of expressing various NIMA constructs in Aspergillus, fission yeast and human cells. Our experiments have shown that the instability of the NIMA protein requires sequences in the non-catalytic C-terminus of the protein. Removal of this domain results in a stable protein that, once accumulated, promotes a lethal premature condensation of chromatin without any other aspects of mitosis. Similar effects were also observed in fission yeast and human cells accumulating Aspergillus NIMA. This phenotype is independent of cell cycle progression and does not require p34cdc2 kinase activity. As gain of NIMA function by accumulation results in premature chromatin condensation, and loss of NIMA function results in an inability to enter mitosis, we propose that NIMA functions in G2 to promote the condensation of chromatin normally associated with entry into mitosis.

Changes in expression of surface and core antigens of hepatitis B virus in different mutant clones of hepatoma PLC-PRF-5 cells

Mutant clones of human hepatocarcinoma PLC-PRF-5 cells carrying a hepatitis B virus (HBV) genome have been obtained using selection for resistance to the toxic action of a variety of preparations to induce cell differentiation. The clones differed in various features such as expression of α-fetoprotein (AFP) and albumin as well as in growth rates, ability to grow in semisolid media and to be cloned in agar. Expression of the surface antigen (HBsAg) was significantly increased in mutant cells exhibiting differentiation features in contrast to the parental cells. In addition, the core antigen (HBcAg), which was silent in the original cells, was detected in some clones. There was no temporal correlation between the peak of enhanced expression of HBsAg and activation of HBcAg observed at different life periods of each clone. Evidence of cell fusion in cell culture such as premature chromatin condensation and increased numbers of binucleate cells was detected in clones with differentiation features and an increased level of viral gene expression. The approach used in this study can be used to develop cell lines of the same origin with different degrees of differentiation whilst maintaining HBV expression. This model system may be useful in the study of HBV.

Follicular steroidogenesis and oocyte maturation after superovulation of goats (Capra hircus) with gonadotrophins

Follicles were sampled at three different times after treatment with 1200 iu pregnant mares' serum gonadotrophin (PMSG) or 12 mg ovine follicle-stimulating hormone (FSH), and from untreated control animals. The meiotic status and protein synthesis of the oocyte from each follicle was determined and correlated with the intrafollicular concentration of oestradiol and progesterone. Significantly higher amounts of oestradiol were present in PMSG-treated animals at sponge withdrawal than in FSH-treated and control goats. Twenty hours later, both oestradiol and progesterone concentrations in the PMSG group were higher than those in the FSH group, and were equivalent to control animals at the onset of oestrus. At 18 h after the administration of human chorionic gonadotrophin (hCG), oestradiol decreased markedly in all three treatment groups, whereas progesterone remained significantly higher in PMSG-treated follicles. Although these high concentrations of intrafollicular steroids were associated with a higher incidence of premature condensation of chromatin in oocytes, the two events were not causally related. Moreover, cytoplasmic maturation was not prematurely activated in these oocytes and a changed pattern of protein synthesis was observed in oocytes from all three treatment groups after the hCG injection. Whereas disturbances in follicular steroidogenesis of oestradiol and progesterone occur in vivo in goats superovulated with PMSG, they do not underlie the premature activation of the initial stages of nuclear maturation in oocytes but are associated with normal cytoplasmic maturation.

Cytoplasmic modification of the nuclear lamina during pronuclear-like transformation of mouse blastomere nuclei

During the successive interphases of cleaving mouse embryos the nuclear periphery diminishes its reactivity to anti-lamin A and C antibodies. This developmentally regulated characteristic can be modified by exposure of the blastomere nuclei to metaphase II (M II) oocyte cytoplasm followed by activation. In the current study we define the cytoplasmic conditions necessary for this modification of 8-cell and 16-cell stage nuclei in hybrids obtained by fusion with metaphase II arrested oocytes, oocytes at various time points after parthenogenetic activation, naturally fertilized eggs (zygotes) and interphase 2-cell embryo blastomeres. The intensity of fluorescence obtained with anti-lamins A/C in the blastomere nuclei increases as a result of fusion with freshly activated oocytes or early zygotes (first 3.0–5.5 h in the case of parthenogenetic activation), and not when eggs or 2-cell blastomeres advanced in interphase are used as partners for fusion. This transformation of the A/C lamin pattern is correlated with the ability to promote pronucleus-like growth of blastomere nuclei in hybrids. Blastomere nuclei introduced into M II-arrested oocytes undergo premature chromatin condensation and dissolution of the nuclear lamina. The results are discussed with regard to certain particularities of the first embryonic interphase of the mouse and the potential involvement of nuclear lamins in pronuclear growth.

Fertilization and ageing processes in non-divided human oocytes after GnRHa treatment: An analysis of individual oocytes

Some human oocytes cultured together with spermatozoa for in-vitro fertilization (IVF) do not subsequently divide. The arrest of the fertilization process at different moments during development may provide information about the cause of fertilization failure. Oocytes which subsequently divide are transferred 48 h after insemination; when oocytes do not divide, ageing processes can be observed. Therefore these oocytes are interesting material in which to observe both fertilization and ageing. Our study concerns 72 undivided human oocytes 0, 48 or 72 h post-insemination. DNA of the oocyte and spermatozoa was visualized by the DNA fluorescent dye Hoechst 33342. Living oocytes were observed in toto by fluorescence and bright field microscopy which allowed nuclear and pronuclear membranes to be discerned. Oocytes were subsequently fixed and sectioned for bright field microscopy. Both techniques allowed parallel observations. Oocytes at various stages of fertilization are described: sperm penetration in both mature and immature oocytes, decondensation of sperm-heads, premature condensation of male chromatin, polyspermy and pronucleus formation. Typical ageing processes such as the centripetal migration of the metaphase II chromosomes, the formation of a restitution nucleus and the lagging of chromosomes within a metaphase spindle are observed. DNA fluorescence appears to be a quick, easy and valuable means to analyse fertilization and its failure.

Luteinizing hormone and follicle stimulating hormone induce premature condensation of chromatin in goat (Capra hircus) oocytes

This study tested the hypothesis that premature condensation of chromatin in goat oocytes following superovulation with 1200 i.u. pregnant mare serum gonadotrophin (PMSG) is mediated by the high luteinizing hormone (LH) activity inherent in this gonadotrophin. Goats were treated with either a standard (3.95 mL) or high (7.90 mL) dose of a highly purified follicle-stimulating hormone (FSH) preparation (Ovagen), and different doses of human chorionic gonadotrophin (hCG) were added to increase the level of LH bioactivity during superovulation. The meiotic status of oocytes obtained at sponge withdrawal was compared between different treatments and correlated with profiles of LH bioactivity in peripheral plasma. Injection of 100 i.u. hCG (which gave a plasma LH profile comparable to 1200 i.u. PMSG) or 200 i.u. hCG resulted in significantly more oocytes showing premature condensation of chromatin without germinal vesicle breakdown than with 25 i.u. hCG or treatment with FSH alone. Nevertheless, nuclear maturation was also prematurely activated in a significant number of oocytes with a high dose of FSH alone, even though LH bioactivity was not detected in plasma. It is concluded that high LH bioactivity during superovulation of goats with gonadotrophins activates the initial stages of nuclear maturation in oocytes. However, highly purified FSH preparations in high doses can also induce this apparent abnormality in the timing of oocyte maturation through mechanisms unrelated to any LH contamination.

Premature condensation of chromatin induced in goat (Capra hircus) oocytes after gonadotrophin treatment

In comparison with ovine follicle stimulating hormone (FSH), superovulation of goats with pregnant mare serum gonadotrophin (PMSG) produced premature ovulations within 48 h of drug administration. To test the hypothesis that this may be associated with a differential effect of the two drugs on oocyte maturation, we have compared the meiotic status of oocytes obtained at three different time intervals from animals treated with 1200 i.u. PMSG or 12 mg ovine FSH and from untreated control animals. Significantly more oocytes from PMSG-treated, compared with control and FSH-treated, animals showed premature condensation of chromatin at both the time of sponge withdrawal and 20 h later. The chromatin condensation was, however, not associated with germinal vesicle breakdown. In contrast, when oocytes were examined 6 h before the expected time of ovulation following human chorionic gonadotrophin (hCG) injection, no significant difference was found in the proportion of oocytes undergoing germinal vesicle breakdown between the three treatment groups, with most oocytes being at the metaphase I or II stage of meiosis. We conclude that superovulation of goats with PMSG at a dose resulting in a high incidence of premature ovulations is associated with premature activation of the initial stages of nuclear maturation in oocytes. In contrast, although treatment with 12 mg ovine FSH did not cause premature ovulations, it was not totally devoid of premature chromatin-condensing activity in oocytes.

Microinjection of p34 cdc2 kinase induces marked changes in cell shape, cytoskeletal organization, and chromatin structure in mammalian fibroblasts

We have examined the effects of elevating the intracellular levels of p34 cdc2 kinase by microinjection into living mammalian cells. These studies reveal rapid and dramatic changes in cell shape with cells becoming round and losing the bulk of their cell-substratum contact. Such effects were induced at all times in the cell cycle except at S phase and were fully reversible at S phase or mitosis. Similar results were obtained with the homogeneous catalytic subunit of p34 cdc2 kinase or p34 cdc2 kinase associated with cyclin B. These alterations were accompanied by a marked reduction in interphase microtubules without the spindle formation, actin microfilament redistribution, and premature chromatin condensation. Although these changes closely mimic the events occurring during early phases of mitosis, p34 cdc2 kinase-injected cells were not induced to pass further into division. These data provide detailed evidence that p34 cdc2 kinase plays a major prerequisite role in the rearrangement of cellular structures associated with mammalian cell mitosis.

Translational control of InsP3-induced chromatin condensation during the early cell cycles of sea urchin embryos

The cycles of DNA synthesis and chromatin condensation in dividing cells are controlled by signals from the cytoplasm. Changes in the concentration of free calcium (Cai) in the cytoplasm control a variety of cellular functions and it has thus been suggested that observed variations in Cai during the cell cycle may be the cytoplasmic signal that co-ordinates nuclear and cytoplasmic division. We show here that increases in Cai induced by the calcium-releasing second messenger inositol 1,4,5-triphosphate (Ins(1,4,5)P3), or by calcium buffers, cause premature chromatin condensation and breakdown of the nuclear envelope in sea urchin (Lytechinus pictus) early embryos. Both natural and induced chromatin condensation are prevented by calcium chelators. The nucleus becomes sensitive to the Cai signal 45 min after fertilization, but remains insensitive if protein synthesis is prevented. Our experiments demonstrate that Cai regulates the behaviour of the nucleus during the cell cycle, suggest that Ins(1,4,5)P3 is a cell cycle messenger and indicate that there is an interaction between the protein and ionic signals that control the state of chromatin during the cell cycle.