Tubulin dynamics during the cytoplasmic cohesiveness cycle in artificially activated sea urchin eggs

Sedimentation studies and [³H]colchicine-binding assays have demonstrated a relationship between the cytoplasmic cohesiveness cycles and the changes in tubulin organization in Paracentrotus lividus eggs activated by 2.5 mM procaine. The same amount of tubulin (20–25 % of the total egg tubulin) is involved in these cyclic process and appears to undergo polymerization and depolymerization cycles. Electron microscopy studies reveal that the microtubules formed during these cytoplasmic cohesiveness cycles are under a particulate form which is sedimentable at low speed. Activation experiments carried out in the presence of cytochalasin B (CB) show that the increase in the cytoplasmic cohesiveness is highly reduced while tubulin polymerization and depolymerization cycles and pronuclear centration are not affected. Although tubulin or actin polymerization can be independently triggered in procaine-activated eggs, the increase in cytoplasmic cohesiveness requires the polymerization of both proteins. However, the cytoplasmic cohesiveness cycles appear to be regulated by tubulin polymerization and depolymerization cycles.     

DNA synthesis and microtubule assembly-related events in fertilized Paracentrotus lividus eggs: reversible inhibition by 10 mM procaine

This report describes the effects of 10 mM procaine on microtubule assembly and on DNA synthesis, as followed by [3H]colchicine binding assays and [3H]thymidine incorporation respectively, in fertilized Paracentrotus lividus eggs. In the absence of microtubule assembly inhibitors, about 25% of the total egg tubulin is submitted to two cycles of polymerization prior to the first cell division, this polymerization process precedes DNA synthesis. If the zygotes are treated with 10 mM procaine in the course of the cell cycle, tubulin polymerization is inhibited or microtubules are disassembled. DNA synthesis is inhibited when procaine treatment is performed 10 min, before the initiation of the S-period. However, when the drug is applied in the course of this synthetic period, the process is normally accomplished, but the next S-period becomes inhibited. Moreover, procaine treatment increases the cytoplasmic pH of the fertilized eggs by about 0.6 to 0.8 pH units. This pH increase precedes microtubule disassembly and inhibition of DNA synthesis. Washing out the drug induces a decrease of the intracellular pH which returns to about the same value as that of the fertilized egg controls. This pH change is then followed by the reinitiation of microtubule assembly, DNA synthesis and cell division. Our results show that the inhibition of both tubulin polymerization and DNA synthesis in fertilized eggs treated with 10 mM procaine, appears to be related to the drug-induced increase in cytoplasmic pH.     

Distribution of a 100K dalton glucose-regulated cell surface protein in mammalian cell cultures and sectioned tissues

During the time course of the activation of Paracentrotus lividus eggs with 2.5 mM procaine or 10 mM ammonium chloride, the amount of cytoplasmic material resistant to a detergent lysis treatment (1 M hexylene glycol/1% Triton X-100) was measured. Two peaks of resistance were obtained at 60 and 120 min after addition of activator. These two peaks were obtained whether or not the activated eggs were previously treated with dithiothreitol-pronase (pH 8.9). After this treatment the material taken from the two peaks appears to be the same membrane-less cytoplasmic matrix (70–80 μm), whereas without treatment, although the first peak is identical with the material described above, the second peak shows the presence of cytaster embedded in the central region of the cytoplasmic matrix.Electron microscopy studies on the cytoplasmic matrix (peak I) reveal that this material consists of a cortical region formed by a network of 7 nm microfilaments surrounding a more heterogeneous central region made up of numerous 7 nm microfilaments. In this region, microtubules can also be distinguished, although they are less numerous. Furthermore, the second peak isolated from activated eggs which were only dejellied, reveals also a cortical and a central region which are made essentially of radially distributed microtubules.Activation experiments carried out in the presence of either cytochalasin B (CB) or colchicine indicate that both actin filaments and microtubules are implicated in the formation of the cytoplasmic matrix and that the assembly of actin filaments in the early stage of the activation process might play some role in the ulterior organization of the cytaster fibrous system.These results suggest that parthenogenetic activators induce fluctuations in the cohesiveness of the sea urchin egg cytoplasm which are revealed by the isolation of a matrix constituted by a filamentous framework. This cytoplasmic organization appears to be an intermediate step in the development of the cytaster structure.     

Regulation of Tubulin Organization During Meiosis

Meiotic spindle formation in Spisula solidissima oocytes hasbeen studied in vivo and in vitro. Measurements were made ofpolymerized tubulin content during the first meiotic division.The amount of polymer was high prior to activation of the eggs,fell to a minimum of about 5 min after activation and at 15min (metaphase) returned to approximately its initial value.The polymerized tubulin in the unactivated eggs appears to beorganized into granular spheres about 10–20 microns indiameter attached to the egg cortex. This particle containsfew microtubules but is composed primarily of a granular matrixand fibrous material. The granular matrix may be a polymorphicaggregate of tubulin and could be a storage form of tubulinor an intermediate in microtubule assembly. The polymerization and organization of microtubules has beenstudied in vitro, using crude homogenates of Spisula oocytes.Microtubules can be formed in homogenates of both activatedand unactivated eggs; however, in homogenates of eggs in whichnuclear membrane breakdown has occurred, microtubules form arounda central phase dense particle resulting in a structure whichresembles a spindle aster. The central particle appears to bea microtubule organizing center (MTOC). The MTOC can be pelleledby centrifugation and will induce aster formation when remixedwith the supernatant. Aster formation can be obtained usingsupernatants prepared from either activated or unactivated eggs,while the pellet must be obtained from activated eggs. Thus,tubulin subunits appear to be capable of spindle formation atall stages, while MTOC formation or activation does not occuruntil about the time of nuclear membrane breakdown.     

Calcium influx following fertilization of Urechis caupo eggs.

Measurements of ⁴⁵Ca flux into and out of Urechis eggs indicate that, during the first 10 min after insemination, the eggs take up 0.24 pmole of Ca/egg. Total egg Ca measured by atomic absorption (AA) spectroscopy increased by 0.23 pmole of Ca/egg (0.56, 0.79, and 0.76 pmole of Ca/egg for unfertilized, 10-min fertilized, and 60-min fertilized eggs, respectively). Thus, the total change in egg Ca is accounted for by the influx even though the rate of efflux, measured as a release of ⁴⁵Ca from preloaded eggs, increases to twice the unfertilized rate by 15 min. The fertilization influx follows saturation kinetics (K_a = 1.3 mM). It is competitively inhibited by procaine, but is not inhibited by dinitrophenol, mersalyl acid, or ruthenium red. Ten percent of the total Ca influx has occurred by 10 sec, and it is, therefore, the most rapid response to fertilization yet known in these eggs. The influx is also observed in eggs partially activated by insemination in pH 7 seawater (SW); the other fertilization responses, except sperm penetration, do not occur in pH 7 SW. Although Ca influx alone is insufficient to activate the eggs, it may be a prerequisite for cytoplasmic activation and development, inducing other secondary responses which are prevented by low external pH.     

State of actin during the cycle of cohesiveness of the cytoplasm in parthenogenetically activated sea urchin egg

By the DNase I inhibition assay it is shown that the cytoplasmic matrix isolated 60 min after procaine activation of Paracentrotus lividus eggs contains about 20% of the total egg actin, mostly in polymerized form (85%). Electron microscopy studies on this cytoplasmic structure after treatment with heavy meromyosin (HMM), reveal that the decorated actin filaments are organized in bundles which are distributed radially, with the arrowheads pointing towards the central region. In addition few microtubules and a network of non-decorated microfilaments of about 3 nm diameter are observed. From the cytoplasmic pH determination and the DNase I inhibition assay on homogenates of eggs which were taken at different times of activation, it cannot be inferred that a direct relationship between the increase in the cytoplasmic pH and the increase in the amount of polymerized actin or of cytoplasmic matrix exists. Activation experiments carried out in the presence of colchicine shows that, although the formation of the cytoplasmic matrix is inhibited, polymerization of actin still occurs. Moreover, from the inhibition effects of cytochalasin B (CB) added before the activator it is shown that polymerization of actin is a necessary step for the organization of the cytoplasmic matrix. However, the cycles of cohesiveness of the cytoplasm observed in the course of the activation process do not appear to depend on cycles of polymerization and depolymerization of actin.     

In vitro polymerization of microtubules into asters and spindles in homogenates of surf clam eggs

The eggs of the surf clam Spisula solidissima were artificially activated, homogenized at various times in cold 0.5 M MES buffer, 1mM EGTA at pH 6.5, and microtubule polymerization was induced by raising the temperature to 28 degrees C. In homogenates of unactivated eggs few microtubules form and no asters are observed. By 2.5 min after activation microtubules polymerize in association with a dense central cylinder, resulting in the formation of small asterlike structures. By 4.5 min after activation the asters formed in vitro contain a distinct centriole, and microtubules now radiate from a larger volume of granular material which surrounds the centriole. By 15 min (metaphase I) the granular material is more disperse and only loosely associated with the centriole. Microtubules are occasionally observed which appear to radiate directly from one end of the centriole. The organizing center can be partially isolated by centrifugation of homogenates of metaphase eggs and will induce aster formation if mixed with tubulin from either activated or unactivated eggs. Pretreatment of the eggs with colchicine does not prevent the formation of a functional organizing center. Complete spindles can also be obtained under polymerizing conditions by either homogenizing the eggs directly into warm buffer or by adding a warm high-speed supernate to spindles which have been isolated in a microtubule stabilizing medium. Extensive addition of new tubulin occurs onto the isolated spindles, resulting primarily in growth of astral fibers, although there occasionally appears to be growth of chromosomal fibers and of pole-to-pole fibers. Negatively stained aster microtubules have a strong tendency to associate side by side, and under some conditions distinct cross bridges can be observed. However, under other conditions large numbers of 300-400-A particles surround the microtubules; the presence of stain between particles can give the appearance of cross bridges.     

Study of a lysis medium stabilizing microfilaments and microtubules in vitro and in vivo

Determination of experimental conditions which allow the evaluation of the variations in the ratio of non polymerized and polymerized forms of actin and tubulin during the reorganization of the cytoskeletal cell system is of most valuable importance. In order to prepare cell homogenates which would reflect the in vivo situation, we tested in vitro a lysis medium which stabilized both microfilaments and microtubules, which were determined by DNase inhibition assays and colchicine binding assays respectively. This lysis medium containing 10 mM potassium phosphate, 1mM magnesium chloride, 5 mM EGTA, 1 M hexylene glycol, 1% Triton X-100, pH 6.4, used at 4 degrees C a) diffused rapidly into the cells; b) did not denature actin and tubulin; c) did not displace the equilibrium between non polymerized and polymerized forms of actin and tubulin, allowing biochemical assays on cell homogenates; d) blocked the evolution of the cytoskeletal system and permitted structural studies; e) and allowed the decoration of microfilaments by heavy meromyosin.     

Factors inducing closure of the micropylar canal in the chum salmon egg

The micropylar canal of the chum salmon egg was almost completely closed following egg activation caused by incubation in a hypotonic salt solution (HSS) for I h. The closure occurred in both inseminated and parthenogenetically activated eggs. Incubation of isolated envelopes from non-activated eggs in HSS or perivitelline fluid (PVF) did not induce any modification in micropylar structure, indicating that normal organization of the egg is essential for inducing closure. To reduce the volume of the perivitelline fluid, the eggs were activated in PVF or HSS containing 8 mM Dextran, Although the envelope showed hardening, closure of the micropyle was not observed in these eggs. The wall of the micropylar canal, however, possessed a slightly rough surface. Following activation in a Ca-free hypotonic salt solution with 10 mM EDTA, hardening of the egg envelope was completely inhibited. Although such eggs possessed an apparent perivitelline space, neither closure of the micropylar canal nor roughening of the canal surface were detected. We conclude that the synergistic action of perivitelline turgor pressure and perivitelline material is responsible for the closure of the micropyle.     

Properties of adenylate cyclase activity during early sea urchin development

The total adenylate cyclase activity in homogenates of eggs of the sea urchins Strongylocentrotus purpuratus and Lytechinus pictus was assayed in vitro and found to remain constant in eggs before and at intervals after fertilization. In S. purpuratus egg homogenates virtually all of the enzyme activity was sedimented by centrifugation at 20 000 g. The enzyme specific activity in the 20 000 g pellet remained unchanged at each point through first cleavage, though it was several-fold higher than in the whole homogenate. The adenylate cyclase from both fertilized and unfertilized eggs was maximally active in vitro when assayed with 10 mM MgSO₄ and 10 mM NaF at pH 8 using 0.2 mM AMP-PNP (an ATP analog) as the substrate. Sucrose density gradient centrifugation of egg homogenates showed that adenylate cyclase activity was present in fractions which sedimented at a variety of densities. The adenylate cyclase specific activity in cortices isolated by the method of Sakai [10] from eggs at first cleavage was 4- to 6-fold higher than in unfertilized egg cortices. The increased enzyme activity in egg cortices at first cleavage suggests that adenylate cyclase-containing membranes may become localized within the egg cortex after fertilization.     

Changes in levels of polymeric tubulin associated with activation and dorsoventral polarization of the frog egg

The level of polymeric tubulin was measured during the first cell cycle of the electrically activated and the fertilized egg of Xenopus laevis. Eggs were homogenized in a microtubule-stabilizing medium, and the amount of tubulin pelleted by centrifugation was determined by quantitative Western blots. The pelleted tubulin (polymer) was in the form of microtubules based on the presence of microtubules in the pellet and on the effects of cold, nocodazole, and D2O. Unactivated eggs had a high level of polymer (greater than 0.1 microgram/egg) which disappeared within minutes of activation. The level of polymer stayed low (less than 0.02 microgram/egg) until halfway through the cell cycle (0.5 on a normalized time scale) when the level rose to the preactivation value. There was a decrease associated with metaphase (0.85 normalized time) and a return to a high level at first cleavage (1.0 normalized time). Fertilized eggs showed a similar pattern although the amount of polymer increased earlier (0.3-0.5 normalized time), presumably due to the spermaster. The depolymerization of microtubules at activation indicates that there is a dramatic change of the cytoskeleton at this time. The polymerization at 0.5 normalized time coincides with the start of the cytoplasmic shift leading to dorsoventral polarity. This result, together with previous inhibitor studies, shows that microtubules are involved in dorsoventral polarization of the embryo.     

Acid release,cytoplasmic alkalinization,and chromosome condensation during sea urchin fertilization and amine-lnduced parthenogenesis

We have studied the relationship between acid release, cytoplasmic alkalinization, and the extent of chromosome condensation during parthenogenetic activation of sea urchin eggs. The relative rate of acid release in Strongylocentrotus purpuratus eggs was determined from pH measurements of egg suspensions. Acid release in inseminated eggs began after a lag of 0.4 min and the relative rate increased 108-fold, declined, and release was essentially complete by 8-min postinsemination. An average of 3.8 ± 0.23 × 10^?12moles H⁺ cell^? was released as determined by backtitration with NaOH. Acid release characteristics of eggs parthenogenetically activated with either NH₄C1, methylamine ethylamine, n-propylamine, n-butylamine, or benzylamine were qualitatively similar. There was no detectable lag peroid and the increase in relative rate of acid release was directly proportional to the carbon number of the amine used, eg, from 8.3-fold methylamine to 470-fold with benzylamine. The total equivalents of acid released ranged from 0.50–8.2 × 10^?12 moles H⁺·cell^? in direct proportion to the concentration of amine used. The degree fo cytoplasmic alkalinization induced as a function of methylamine and benzylamine concentration was determined by pH measurements fo egg homogenates; egg cultures were also prepared for microscopic examination of chromosome condensation. None of the eggs had condensed chromosomes at 0.5-mM methylamine whereas a cytoplasmic alkalinization of 0.6 pH units was observed. Increased methylamine levels up to 10mM resulted in chromiosome condensation in only 20% of the eggs. A similar result was found with benzylamine. We conclude that acid release and cytoplasmic alkalinization during chemical parthenogenesis are insufficient to mimic sperm induction of chromiosome condensation and suggest that an additional factor(s) is required for chromosome condensation by low concentration of amines.     

CHANGES IN THE ORGANIZATION OF TUBULIN DURING MEIOSIS IN THE EGGS OF THE SURF CLAM, SPISULA SOLIDISSIMA

Polymerized tubulin can be stabilized in Kane's spindle isolation medium (HGL solution), isolated by differential centrifugation and then assayed by colchicine binding activity. In the eggs of the surf clam, Spisula solidissima, the level of particulate tubulin undergoes a series of specific changes during first meiotic division. In either unactivated ("interphase") eggs or metaphase eggs the amount of particulate tubulin was about 13% of the total at 23°C. The amount of particulate tubulin decreased shortly after activation, reaching a minimum value at about 5 min, the time of nuclear membrane breakdown. The particulate tubulin concentration then rose, reaching a maximum at metaphase, and then decreased again during anaphase, reaching a minimum at first polar body formation. In HGL homogenates of unactivated eggs a structure is present which has been shown to contain the interphase particulate tubulin (IPT). This structure consists essentially of a 10–20 µ granular sphere attached to a membranous material which is probably part of the egg cortex. These particles are absent at the time of nuclear membrane breakdown, when the level of particulate tubulin is minimal and when the first signs of spindle formation are visible. Electron microscopy of these particles by negative staining indicates that they are composed of microtubules associated with a granular matrix which may be a polymorphic aggregate of tubulin.     

An immunocytochemical method for the visualization of tubulin-containing structures in the egg of Xenopus laevis

Tubulin can be isolated and purified from Xenopus laevis eggs through modification of Olmstedt's (1970) tubulin isolation method, viz. by repeating the vinblastin precipitation step after resuspension of the sediment in a detergent-containing stabilizing medium. By this we overcome the deleterious influence of the yolk granules in the isolation procedure. From 11 of Xenopus laevis eggs 25 mg VB-paracrystals can be obtained. The apparent molecular weight of the purified tubulin is 52,800. Antiserum against the purified Xenopus VB-paracrystals, raised in 2 Chinchilla rabbits, cross-reacts in immunodiffusion tests in agar gels with rat brain tubulin and with tubulin isolated from Xenopus laevis eggs by the described procedure. Specific indirect fluorescence staining and appropriate control reactions reveal that cilia of Tetrahymena pyriformis, cytoplasmic networks in cultured mouse Leydig cells, as well as mitotic spindles and nuclear regions in paraffin sections of Xenopus laevis blastulae, react with the antibodies against Xenopus laevis egg tubulin as well as with monoclonal antibodies against pig brain tubulin. These results provide additional evidence for the view that tubulin antibodies are neither species nor tissue specific and show that under appropriate conditions tubulin containing structures can be visualized in paraffin sections.     

Effects of Ca2+ ions on the formation of metaphase chromosomes and sperm pronuclei in cell-free preparations from unactivated Rana pipiens eggs

Nuclei transplanted into unactivated amphibian eggs are known to condense into metaphase chromosomes whereas those transplanted into activated eggs decondense and enlarge. We have made cell-free cytoplasmic preparations from Rana pipiens eggs which can induce demembranated Xenopus laevis sperm to undergo changes similar to those seen in intact eggs. Sperm chromatin which is incubated for 3 hr in unactivated egg preparations made using a buffer containing 3 mM EGTA is induced to form metaphase chromosomes. However, decondensed interphase nuclei are formed when chromatin is incubated in unactivated egg preparations made without EGTA as well as in activated egg preparations. When Ca2+ ions are added to unactivated egg preparations made with EGTA, the preparations lose the ability to induce metaphase chromosome formation and become capable of decondensing sperm chromatin. Once the ability to decondense chromatin has developed, either in unactivated or activated egg preparations, it cannot be suppressed by the addition of EGTA. However, decondensation of sperm chromatin in activated egg preparations can be suppressed by the addition of unactivated egg preparations made with EGTA. In this case, the incubated sperm chromatin is induced to form metaphase chromosomes. These results may indicate that the chromosome condensation activity of unactivated egg cytoplasm can be sustained in cell-free preparations when Ca2+ ion levels are kept low, but when Ca2+ ion levels increase this activity is lost and replaced by a new activity which can decondense chromatin. Since this change in cytoplasmic activities is comparable to that occurring in the intact egg following fertilization, these results suggest that Ca2+ ions play a crucial role during activation in altering the cytoplasmic activities which control nuclear behavior.     

Localization of putative nicotinic cholinoreceptors in the early development of Paracentrotus lividus

Experiments are described, showing the presence of putative nicotinic cholinoreceptors in the egg after fertilization. The experiments were carried out on gametes and early embryos of the sea urchin Paracentrotus lividus, by using nicotinic agonists and antagonists. 1 mM Acetylcholine (ACh), 100 microM nicotine, 100 nM alpha-bungarotoxin (alpha-BuTx) and 100 microM curare inhibit sperm motility and fertilization, while they have no effect on unfertilized eggs. The drugs added within 1 min. after the raising of the fertilization layer had stronger effects on cleavage and development; when added more than 15 min. after the raising of the fertilization layer, they had lesser effects on further development up to pluteus stage. In all the experiments, nicotine was the most effective drug. The binding of fluorescein-labelled alpha-BuTx did not point out any affinity sites on unfertilized eggs, while they were localized on the sperms and on the eggs fertilized by sperms, but not on the eggs activated artificially. The binding was prevented by pretreatment of sperms and activated eggs with 10 nM native alpha-BuTx and 10 microM curare. We conclude that, in the fertilized egg, putative nicotinic cholinoreceptors are present, which are able to bind alpha-BuTx and curare. Fertilization by sperms is needed to trigger the formation of alpha-BuTx receptors.     

Microtubule assembly in cytoplasmic extracts of Xenopus oocytes and eggs

We have investigated the differences in microtubule assembly in cytoplasm from Xenopus oocytes and eggs in vitro. Extracts of activated eggs could be prepared that assembled extensive microtubule networks in vitro using Tetrahymena axonemes or mammalian centrosomes as nucleation centers. Assembly occurred predominantly from the plus-end of the microtubule with a rate constant of 2 microns.min-1.microM-1 (57 s-1.microM-1). At the in vivo tubulin concentration, this corresponds to the extraordinarily high rate of 40-50 microns.min-1. Microtubule disassembly rates in these extracts were -4.5 microns.min-1 (128 s-1) at the plus-end and -6.9 microns.min-1 (196 s-1) at the minus-end. The critical concentration for plus-end microtubule assembly was 0.4 microM. These extracts also promoted the plus-end assembly of microtubules from bovine brain tubulin, suggesting the presence of an assembly promoting factor in the egg. In contrast to activated eggs, assembly was never observed in extracts prepared from oocytes, even at tubulin concentrations as high as 20 microM. Addition of oocyte extract to egg extracts or to purified brain tubulin inhibited microtubule assembly. These results suggest that there is a plus-end-specific inhibitor of microtubule assembly in the oocyte and a plus-end-specific promoter of assembly in the eggs. These factors may serve to regulate microtubule assembly during early development in Xenopus.     

Glutamine Oxidation by Dissociated Cells and Homogenates of Rat Brain: Kinetics and Inhibitor Studies

The rates of [U-14C]glutamine oxidation to 14CO2 were determined under a variety of experimental conditions using whole homogenates and dissociated cells from rat brain. The pattern of glutamine oxidation by homogenates differed from that by dissociated brain cells in several respects. The rates of glutamine oxidation by dissociated brain cells showed saturation kinetics with an apparent Km of 0.30 mM. Lineweaver-Burk plots of glutamine oxidation by homogenates revealed two linear segments with two apparent Km values (0.58 mM and 3.0 mM). In the presence of aminooxyacetate, however, the Lineweaver-Burk plots for homogenates were linear with a single Km of 0.47 mM. The oxidation of glutamine by homogenates was inhibited by both rotenone and antimycin A (80-85%), as were glutamate and glucose oxidation, suggesting that a significant amount of glutamine is oxidized via the tricarboxylic acid cycle. In the presence of aminooxyacetate, glutamine oxidation was inhibited less than 40%, whereas the oxidation of glutamate was inhibited 75%; in contrast, glucose oxidation was enhanced 50%. The rates of glutamine oxidation by homogenates were highest in the presence of high levels of potassium (50 mM) and low levels of sodium (2.5 mM). Varying ionic composition, however, had little or no effect on the rates of glutamine oxidation by dissociated brain cells. Measurements of glutamine oxidation by homogenates prepared from 2-, 10-, 15-, 25-, and 90-day-old rats revealed little or no age-dependent difference. In contrast, the oxidation by dissociated brain cells from 2-day-old animals was significantly less than that obtained for animals 10 days or older (7.76 vs. 15.6 nmol/h/mg).(ABSTRACT TRUNCATED AT 250 WORDS)     

Differential effects of 6-DMAP, olomoucine and roscovitine on Xenopus oocytes and eggs

The effects of the new cyclin-dependent kinase inhibitors, roscovitine and olomoucine, on oocytes and eggs of Xenopus laevis were investigated and compared with those of 6-dimethylamino purine (6-DMAP). The inhibitory properties of 6-DMAP, olomoucine and roscovitine towards p34cdc2-cyclin B isolated from Xenopus eggs revealed K-IC50 values of 300, 40 and 10 microM respectively. The three compounds inhibited progesterone-induced maturation with M-IC50 values of 200, 100 and 20 microM. These values were consistent with the K-IC50 values but the ratio M-IC50/K-IC50 was higher for roscovitine and olomoucine than for 6-DMAP. The disappearance of spindle and condensed chromosomes without pronucleus formation was observed when 1 mM 6-DMAP was applied for 4 h at germinal vesicle breakdown or at metaphase II, whereas no effect was observed using 1 mM olomoucine or 50 microM roscovitine. Changes in the electrophoretic mobility of p34cdc2 and erk2 were observed only in homogenates of matured oocytes or eggs exposed for 4 h to 1 mM 6-DMAP. When the drugs were microinjected into matured oocytes, olomoucine (100 microM) and roscovitine (50 microM) induced pronucleus formation more efficiently than did 6-DMAP (100 microM). Taken together, these results demonstrate that Xenopus oocytes possess a lower permeability to olomoucine and roscovitine and that these new compounds are suitable for in vivo studies after germinal vesicle breakdown provided they are microinjected.     

Dynein-like Mg2+-ATPase in mitotic spindles isolated from sea urchin embryos (Strongylocentrotus droebachiensis)

Two distinctly different ATPases have been reported to be endogenous to the mitotic apparatus: a Mg2+-ATPase resembling axonemal dynein, and a Ca2+-ATPase postulated to be bound in membranes. To examine the nature of the Mg2+-ATPase, we isolated membrane-free mitotic spindles from Stronglylocentrotus droebachiensis embryos by rapidly lysing these in a calcium-chelating, low-ionic-strength buffer (5 mM EGTA, 0.5 mM MgCl2, 10 mM PIPES, pH 6.8) that contained 1% Nonidet P-40. The fibrous isolated mitotic spindles closely resembled spindles in living cells, both in general morphology and in birefringence. In electron micrographs, the spindles were composed primarily of microtubules, free from membranes and highly extracted of intermicrotubular cytoplasmic ground substance. As analyzed by SDS-polyacrylamide gel electrophoresis (SDS-PAGE), the pelleted spindles contain 18% tubulin, variable amounts of actin (2-8%), and an unidentified protein of 55 kdaltons in a constant weight ratio to tubulin (1:2.5). The isolated spindles also contained two polypeptides, larger than 300 kdaltons, that comigrated with egg dynein polypeptides, and ATPase activity (0.02 mumol Pi/mg . min) that closely resembled both flagellar and egg dynein. The spindle Mg2+-ATPase showed a ratio of Ca2+-/Mg2+-ATPase = 0.85, had minimal activity in KCl and EDTA, and cleaved GTP at 35% of the rate of ATP. The Mg2+-ATPase was insensitive to ouabain or oligomycin. The spindle Mg2+-ATPase was inhibited by sodium vanadate but, like egg dynein, was less sensitive to vanadate than flagellar dynein. The spindle Mg2+- ATPase does not resemble the mitotic Ca2+-ATPase described by others. We propose that the spindle Mg2+-ATPase is egg dynein. Bound carbohydrate on the two high-molecular-weight polypeptides of both egg dynein and the spindle enzyme suggest that these proteins may normally associate with membranes in the living cell.