Tyrosination State of Tubulin and the Activity of Tubulin:Tyrosine Ligase and Tubulin Carboxypeptidase in the Developing Retina of the Chick

The tyrosination state of tubulin and the enzymes involved in the tubulin tyrosination/detyrosination cycle--tubulin:tyrosine ligase and tubulin carboxypeptidase--were determined in chick retina during development. The amount of tyrosinable (tyrosinated plus detyrosinated) tubulin increased approximately 110% from embryonic day 7 to 14. Then it decreased, and by day 19 it was similar to the value on day 7. This result did not change after hatching, at least up to day 20. The proportion of tyrosinated and detyrosinated tubulin significantly changed with the development of the animal. At embryonic day 7, these tubulin species were at a proportion of 70 and 30%, respectively, and after hatching, the values inverted, to 30 and 70%, respectively. This change did not correlate with the activity of the ligase relative to that of the carboxypeptidase, as measured in vitro. This observation suggested that a change in the turnover rate of microtubules, in the proportion of assembled and nonassembled tubulin pools, or in both had occurred. Coincident with the last possibility, the proportion of assembled tubulin was found to increase during the development of the animal. This finding suggests that the tyrosination state of tubulin may be determined, at least in part, by the assembly state.     

Aster formation in eggs of Xenopus laevis. Induction by isolated basal bodies

We have assayed various materials for their ability to induce aster formation by microinjection into unfertilized eggs of Xenopus laevis. We have found that purified basal bodies from Chlamydomonas reinhardtii and Tetrahymena pyriformis induce the formation of asters and irregular cleavage furrows within 1 h after injection. Other microtubule structures such as flagella, flagellar axonemes, cilia, and brain microtubules are completely ineffective at inducing asters or cleavage furrows in unfertilized eggs. When known amounts of sonicated Tetrahymena and Chlamydomonas preparations are injected into unfertilized eggs, 50% of the injected eggs show a furrowing response at approximately 3 cell equvalents for Chlamydomonas and 0.1 cell equivalent for Tetrahymena. These results are close to those expected if basal bodies were the effective astral-inducing agent in these cells. Other materials effective at inducing asters in unfertilized eggs, such as crude brain nuclei, sperm, and a particulate fraction from brain known to induce parthenogenesis in eggs of Rana pipiens, probably contain centrioles as the effective agent. Our experiments provide the first functional assay to indicate that centrioles play an active role in aster initiation. None of the injected materials effective in unfertilized eggs produced any observable response in fully grown oocytes. Oocytes and eggs were found to have equal tubulin pools as judged by colchicine-binding activity. Therefore, the inability of oocytes to form asters cannot be due to a lack of an organizing center or to a lack of tubulin. Experiments in which D2O was found to stimulate aster-like fibrous areas in eggs but not oocytes suggest that the inability of oocytes to form asters may be due to an inability of tubulin in oocytes to assemble.     

Phosphatidic acid, phosphatidylinositol, phosphatidylserine and cardiolipin in the course of early embryonic development. Fatty acid composition and content in whole toad embryos and in mitochondrial fractions

The fatty acid composition and content of phosphatidylinositol, phosphatidylserine and phosphatidic acid have been studied during the early development of toad embryos. Acidic phospholipids have been analyzed in whole oocytes and embryos and in the following subcellular fractions: yolk platelets, mitochondria and microsomes. Also cardiolipin, a mitochondrial phospholipid, has been analyzed. Gastrula stage embryos have shown, mainly in the mitochondrial fraction, an increase in the content of phosphatidic acid, phosphatidylserine and phosphatidylinositol with respect to unfertilized oocytes. Changes in the distribution of acyl groups of phosphatidic acid have been detected when different subcellular fractions are compared. On the other hand, the phosphatidylserine composition remains unmodified. Arachidonate and stearate are the principal components of phosphatidylinositol. Cardiolipin shows the same composition up to gastrulation and linoleate comprises about 50% of the total acyl groups.     

Soluble tubulin complexes, gamma-tubulin, and their changing distribution in the zebrafish (Danio rerio) ovary, oocyte and embryo

Tubulin dynamics, i.e., the interchange of polymeric and soluble forms, is important for microtubule (MTs) cellular functions, and thus plays essential roles in zebrafish oogenesis and embryogenesis. A novel finding in this study revealed that there were soluble pools of tubulins in zebrafish oocytes that were sequestered and maintained in a temporary "oligomeric" state, which retained assembling and disassembling potential (suggested by undetected acetylated tubulin, marker of stable tubulin), but lacked abilities to assemble into MTs spontaneously in vivo. Using differential centrifugation, gel chromatography and DM1A-probed western blot, soluble alpha-tubulin was found to be associated with large molecular weight complexes (MW range to over 2 MDa) which were reduced in amount by the blastula stage, especially in some batches of embryos, with a concomitant decrease in soluble tubulin. Complexes (MW range less than 2 MDa) then increased in the gastrula with an increase in soluble alpha-tubulin. Two different anti-gamma-tubulin monoclonal antibodies, GTU 88 and TU 30, revealed the existence of soluble gamma-tubulin in both zebrafish oocytes and embryos, which also decreased by the blastula stage and increased in the gastrula stage. Soluble alpha-tubulin and gamma-tubulin extracted from zebrafish ovaries, oocytes and embryos co-localized in fractions on three different columns: S-200 Sephacryl, DEAE and Superose-6b. The soluble tubulin complexes were competent to assemble into MTs in vitro induced by taxol, and gamma-tubulin was co-localized with assembled MTs. These soluble tubulin complexes were stable during freeze-thaw cycles and resisted high ionic interaction (up to 1.5 M NaCl). Furthermore, some ovarian soluble alpha-tubulin could be co-immunoprecipitated with gamma-tubulin, and vice versa. Two antibodies specific for Xenopus gamma-tubulin ring complex proteins (Xgrip 109 and Xgrip 195) detected single bands from ovarian extracts in western blots, suggesting the existence of Xgrip 109 and Xgrip 195 homologues in zebrafish. These findings, together with recent work on gamma-tubulin ring complexes in oocytes, eggs and embryos of other species, suggest that soluble gamma-tubulin-associated protein complexes may be involved in regulating tubulin dynamics during zebrafish oogenesis and embryogenesis.     

In vivo aging of oocytes influences the behavior of nuclei transferred to enucleated rabbit oocytes

The present study examined nuclear remodeling in rabbit nuclear transfer (NT) embryos formed from metaphase II (MII) oocytes aged in vivo until 19 hr postcoitum (hpc), enucleated, and fused at 22–26 hpc with 32-cell morula blastomeres by means of electric fields, which also induced recipient oocyte activation. Post-activation events observed during the first hour following the fusion/activation pulse were studied in terms of chromatin, lamins, and micro-tubules, and revealed that transferred nuclei underwent premature chromosomes condensation (PCC) in only one-third of NT embryos and remained in interphase in others. Recipient oocytes were mostly not activated by manipulations performed before the fusion/activation pulse. The persistance of transferred nuclei in interphase resulted from the rapid progression of recipient oocytes to interphase after activation, suggesting that the cytoplasmic state of MII oocytes aged in vivo was poised for the approach to interphase. Studying micro-tubular organization in MII oocytes before nuclear transfer manipulations, we found that 19 hpc MII oocytes aged in vivo differed from 14 hpc MII oocytes (freshly ovulated) and from 19-hpc MII oocytes aged in vitro (collected at 14 hpc and cultured for 5 hr), notably by the presence of microtubule asters and tubulin foci or only tubulin foci dispersed throughout the cytoplasm. When PCC was avoided, remodeling of the transferred nucleus was well advanced 1 hr after nuclear transfer, and NT embryos developed better to the blastocyst stage. Mol. Reprod. Dev. 46:325–336, 1997. © 1997 Wiley-Liss, Inc.     

Microtubule arrays in differentiated cells contain elevated levels of a post-translationally modified form of tubulin

Tyrosinated (Tyr) and detyrosinated (Glu) alpha-tubulins are post-translationally modified species that differ by a single amino acid at their respective C-termini. We have examined the distribution of these two species by immunofluorescence in proliferating and differentiated cells using antisera specifically reactive with each of the forms. In proliferating PtK1 cells, Tyr tubulin was the predominant form in almost every cytoplasmic microtubule (MT); only a few MTs contained detectable Glu tubulin. In contrast, staining of centrioles and primary cilia of PtK1 cells suggested that Glu tubulin was the predominant form in these stable assemblies of MTs. An examination of the distribution (by immunofluorescence) and relative amount (by immunoblot analysis) of the two forms of tubulin in the stable assemblies of MTs present in cultured neuronal cells (neurites), sperm and tracheal cells (axonemes and basal bodies), and platelets and erythrocytes (marginal bands) revealed that, in general, the MTs in these arrays contained substantially elevated levels of Glu tubulin in comparison with the levels in MTs of cultured cells. The one exception, the marginal band of toad erythrocytes, which contained only Tyr tubulin, demonstrates that an elevated level of Glu tubulin is not an obligate feature of a stable array of MTs. Nonetheless, an elevated level of Glu tubulin may be a useful indicator of stable MTs in differentiated cells. It is important to note that commonly used sources of tubulin (e.g., brain or flagella) necessarily yield tubulin that differs strikingly from tubulin of proliferating cells in its content of Glu tubulin.(ABSTRACT TRUNCATED AT 250 WORDS)     

Preimplantation development of rabbit embryos after transfer of embryonic nuclei into different cytoplasmic environment

The development of nuclear-transfer oocytes and zygotes was tested in the rabbit. Metaphase II oocytes and zygotes in the early pronuclear stage were treated with a cytoskeletal inhibitor (cytochalasin D), enucleated, and subsequently fused either with single blastomeres from eight- and 16-cell stages (oocytes and zygotes) or with pronuclei-containing karyoplasts (zygotes only). Also, nonenucleated zygotes were fused with 1/8 blastomeres. Fusion was performed by means of an electric field. Development of reconstituted embryos was monitored mainly in vitro, but a certain number of embryos developed from oocytes and zygotes receiving nuclei from eight-cell stages were also transferred into pseudopregnant does. Development of nuclear-transfer oocytes was distinctly better than that of nuclear-transfer zygotes, since 16.9% and 9.5% oocytes vs. 8.1% and 3.7% zygotes carrying eight- and 16-cell nuclei, respectively, developed to the blastocyst stage. Two advanced but already dead fetuses were found after transfer of 27 four-cell embryos obtained after fusion of oocytes with 1/8 blastomeres. No implantations were observed after transfer of 25 four-cell embryos developed from enucleated zygotes receiving eight-cell nuclei. These findings indicate that, in the rabbit, some nuclei from 16-cell embryos are still capable of promoting at least preimplantation development. Comparison between the developmental abilities of oocyte- and zygote-derived nuclear-transfer embryos also suggests that the cytoplasmic environment of recipient cell is more crucial for the development of reconstituted embryos than the stage of introduced nuclei (at least up to the 16-cell stage). The majority of pronuclear exchange embryos (69.9%) and 40% of nonenucleated zygotes receiving eight-cell nuclei were able to develop to the blastocyst stage. This latter observation indicates, similarly as with mouse, a supporting role of residual pronuclei for participation of an eight-cell nucleus in the development of reconstituted zygotes.     

Phospholipid transfer activities in toad oocytes and developing embryos

The role of lipid transfer proteins during plasma membrane biogenesis was explored. Developing amphibia embryos were used because during their growth an active plasma membrane biosynthesis occurs together with negligible mitochondrial and endoplasmic reticulum proliferation. Sonicated vesicles, containing 14C-labeled phospholipids and 3H-labeled triolein, as donor particles and cross-linked erythrocyte ghosts as acceptor particles were used to measure phospholipid transfer activities in unfertilized oocytes and in developing embryos of the toad Bufo arenarum. Phosphatidylcholine transfer activity in pH 5.1 supernatant of unfertilized oocytes was 8-fold higher than the activity found in female toad liver supernatant, but dropped steadily after fertilization. After 20 hr of development, at the stage of late blastula, the phosphatidylcholine transfer activity had dropped 4-fold. Unfertilized oocyte supernatant exhibited phosphatidylinositol and phosphatidylethanolamine transfer activity also, but at the late blastula stage the former had dropped 18-fold and the latter was no longer detectable under our assay conditions. Our results show that fertilization does not trigger a phospholipid transport process catalyzed by lipid transfer proteins. Moreover, they imply that 75% of the phosphatidylcholine transfer activity and more than 95% of the phosphatidylinositol and phosphatidylethanolamine transfer activities present in pH 5.1 supernatants of unfertilized oocytes may not be essential for toad embryo development. Our findings do not rule out, however, that a phosphatidylcholine-specific lipid transfer protein could be required for embryo early growth.     

Injection of mitochondria into oocytes and fertilized eggs]

The suspension of mitochondria isolated from the loach embryos or the frog heart were injected in the oocytes or fertilized eggs of the loach, newt, toad and frog in the amount roughly equivalent to the content of mitochondria in the egg. After the injection the oocytes did not differ during several days from the normal ones and the fertilized eggs of the loach, newt and South Afican clawed toad developed normally. The activity of cytochrome oxidase in the injected oocytes was kept at a somewhat higher level (1.4 to 1.9 vs 1.0 in the control) during several days. In the developing eggs the activity of cytochrome oxidase began to decrease from the blastula stage and attained rapidly the control level. The decrease of the enzyme activity is due to non-specific degradation of excessive mitochondria or to compensatory inactivation of the enzyme ensuring the maintenance of its normal activity during the development.     

Surface biochemical changes accompanying primary infection with Rous sarcoma virus. I. Electrokinetic properties of cells and cell surface glycoprotein:glycosyl transferase activities

A special class of polysomes synthesizing tubulin was determined using embryos of the sea urchin, Hemicentrotus pulcherrimus. Three criteria were established for identification of polysomes carrying nascent tubulin, i.e., nascent tubulin on polysomes should have (i) colchicine binding activity, (ii) precipitability with vinblastine and (iii) coincidence in mobility by electrophoresis with tubulin. Two classes of polysomes had polypeptides which accorded with the three criteria. One was tetramers and the other was composed of 15–20 ribosomes. From data reported previously on the molecular weight and amino acid composition of completed microtubule proteins, it was suggested that the class of polysomes composed of 15–20 ribosomes constituted the polysome-synthesizing tubulin of sea urchin embryos. The nature of the nascent polypeptides carried by the tetramer polysomes having colchicine binding activity and precipitability with vinblastine could not be clarified.     

Developmental and comparative aspects of brine shrimp tubulin.

Tubulin from embryos of the brine shrimp Artemia has been purified to apparent homogeneity by chromatography on phosphocellulose P11 and DEAE-cellulose, (NH4)2SO4 fractionation and assembly-disassembly of microtubules. Peptide mapping indicated that Artemia and bovine brain tubulin were very similar in spite of differences in the electrophoretic behaviour of tubulin from these two organisms. Isoelectric focusing and two-dimensional gel electrophoresis were used to resolve and identify several Artemia isotubulins . The isotubulin composition and the quantity of tubulin did not change during pre-emergence development of Artemia embryos. Formation of microtubules with tubulin purified from embryos at different stages of development did not require glycerol or microtubule-associated proteins and formation of structurally normal microtubules was actually hindered by glycerol and Mg2+. The characteristics of Artemia tubulin, in concert with the unusual life history of Artemia, suggest that this organism will be very useful for the study of tubulin gene expression and tubulin utilization during embryo development.     

Synthesis of chick brain GABA receptors by frog oocytes

Poly(A)-mRNA, extracted from the optic lobe of chick embryos, directs the synthesis of gamma-aminobutyric acid (GABA) receptors in Xenopus laevis oocytes. The receptors are inserted into the oocyte membrane, where they form receptor--channel complexes. When activated by GABA, and related agonists, the chick brain receptors open membrane channels that are permeable to chloride ions. Thus, Xenopus oocytes provide a novel and useful approach to the study of brain receptors.     

Membrane 32P-phospholipid labeling in early developing toad embryos

Endogenously labeled toad oocytes and early developing embryos were employed to evaluate the phospholipid metabolism in whole embryos and in subcellular fractions. The whole embryo and postmitochondrial supernatant display a linear increase in relative specific activity as development proceeds, although higher values were reached by mitochondrial and yolk platelet fractions. In all the subcellular fractions the half-lives of the acid-soluble pool were similar and ranged from 2.5 to 3.5 days. Conversely the phospholipid half-lives were only similar in mitochondrial and postmitochondrial supernatant fractions.     

Microtubule assembly in developing mammalian brain.

Microtubule protein was measured in mouse brain homogenates by quantitative colchicine binding. Neonatal animals contained more than twice the amount of brain tubulin as adult mice. The percentage of colchicine-binding protein which was polymerized was determined by extracting brain at room temperature into a medium designed to stabilize intact microtubules. Under identical conditions and tubulin concentrations, neonatal brain tubulin (colchicine-binding activity) had a greater proportion of the total extracted in an apparently polymerized state (pelletable by centrifugation) than did adult brain. A slight variation in the ratio of assembled to unassembled tubulin was observed with varying protein concentration (volume of extract), indicating that the values obtained may not reflect exactly the in vivo situation, because a rapid equilibration takes place upon homogenization. At all protein concentrations, the neonatal brain extracts contained a significantly greater proportion of assembled tubulin than did adult brain. This proportion began to fall at 5 days postnatal and reached the adult level at 30 days. The tubulin assembled/not assembled ratios were not altered by addition of nucleoside triphosphates, additional EGTA, or sulfhydryl protecting agents, and did not vary with preparation times of 30–90 min. The colchicine-binding reaction and decay of colchicine-binding activity with time were similar in extracts of different aged mouse brains, with neonatal slightly more stable than adult. Pools of tubulin from any age which were soluble at room temperature (unpolymerized) could not repolymerize well in vitro when incubated with GTP at 37 °C, whereas pools of tubulin which were sedimentable at room temperature (polymerized) could be redissolved at 0 °C and readily reassembled at 37 °C. The neonatal extract tubulin was thus more polymerization competent than the adult extracts; this correlates with a greater proportion of assembled tubulin in extracts at room temperature and possibly in vivo.     

Evidence for phosphorylation of tubulin in carrot suspension cells

Two-dimensional gels of phosphoproteins from carrot ( Daucus carota L. var. Juwarot) suspension cells labeled in vivo or in vitro revealed phosphoproteins that comigrate with carrot tubulin. A polyclonal antiserum to hibiscus tubulin immunoprecipitated an in vivo labeled phosphoprotein of 50 kDa. Cell-free extracts of carrot suspension cells phosphorylated both purified carrot and bovine brain tubulins in the presence of gamma-labeled adenosine triphosphate. This tubulin phosphorylating activity was reduced 2-fold in extracts from globular stage embryos and approximately 10-fold in extracts from heart/torpedo stage embryos. These data suggest that carrot cells phosphorylate tubulin, and that tubulin phosphorylating activity may be developmentally regulated     

Strongylocentrotus purpuratus spindle tubulin. II. Characteristics of its sensitivity to Ca++ and the effects of calmodulin isolated from bovine brain and S. purpuratus eggs

Tubulin was extracted from spindles isolated from embryos of the sea urchin Strongylocentrotus purpuratus and purified through cycles of temperature-dependent assembly and disassembly. At 37 degrees C, the majority of the cycle-purified spindle tubulin polymer is insensitive to free Ca++ at concentrations below 0.4 mM, requiring free Ca++ concentrations greater than 1 mM for complete depolymerization. However, free Ca++ at concentrations above 1 microM inhibits initiation of polymer formation without significantly inhibiting the rate of elongation onto existing polymer. At 15 degrees C and 18 degrees C, temperatures that are physiological for S. purpuratus embryos, spindle tubulin polymer is sensitive to free Ca++ at micromolar concentrations such that 3-20 microM free Ca++ causes complete depolymerization. Calmodulin purified from either bovine brain or S. purpuratus eggs does not affect the Ca++ sensitivity of the spindle tubulin at 37 degrees C, although both increase the Ca++ sensitivity of cycle-purified bovine brain tubulin. These results indicate that cycle-purified spindle tubulin and cycle-purified bovine brain tubulin differ significantly in their responses to calmodulin and in their Ca++ sensitivities at their physiological temperatures. They also suggest that, in vivo, spindle tubulin may be regulated by physiological levels of intracellular Ca++ in the absence of Ca++-sensitizing factors.     

Tubulin:tyrosine ligase in oocytes and embryos of Xenopus laevis

Tubulin:tyrosine ligase (TTL), which catalyzes the post-translational addition of tyrosine to the α chain of tubulin, exists in a wide variety of embryonic and adult vertebrate tissues. In the present study, we report that TTL exists in amphibian oocytes at a time when tubulin is a poor substrate for tyrosination, and when, in immature oocytes, tubulin is not polymerizable. Ligase activity detected at several stages of oogenesis and embryogenesis in Xenopus is compatible with mammalian brain tubulin in the tyrosination reaction. Within 3–5 hr after fertilization, [³H] tyrosine incorporated/μg endogenous tubulin increases approximately 3.5-fold over that in extracts prepared from the largest oocytes obtained. This increase cannot be accounted for by increasing levels of TTL. Ligase activity remains fairly constant throughout oogenesis and early embryogensis and rises significantly (2-fold) only 35–50 hr after fertilization. The late rise in embryonic ligase activity is not accompanied by a change in apparent k_m for tubulin.     

Advances on in vitro production and cryopreservation of porcine embryos

There have been intensive attempts to establish reliable in vitro production (IVP) and cryopreservation methods of embryos in pigs. Although a great deal of progress has been made, current IVP systems and cryopreservation still suffer from insufficient cytoplasmic abilities of in vitro matured oocytes, polyspermic fertilization, poor quality of in vitro produced embryos and low efficiency of embryo cryopreservation. Compared to other mammalian species, pig oocytes and embryos are characterized by large amounts of lipid content stored mainly in the form of lipid droplets in the cytoplasm. This fact has a negative influence on biotechnological applications on porcine oocytes and embryos. In this review, we will discuss recent studies about methods and techniques for modifying porcine embryo IVP system and embryo cryopreservation that produces high quality of pig blastocysts using in vitro maturation, in vitro fertilization, in vitro culture, microsurgical manipulation, addition of protein, the use of cytoskeleton stabilizing agents and various physical methods. The presented methods and techniques make it possible to modify the characteristics of oocytes and embryos and thus may become major tools in mammalian gamete and embryo agricultural or biotechnological applications in the future.     

酪氨酸、hCG对蟾蜍卵母细胞膜电位的影响

作者用微电极记录了蟾蜍卵母细胞的膜电位。当用含hCG的溶液培灌时,蟾蜍卵母细胞膜电位呈去极化变化;当用含酪氨酸溶液培灌时膜电位呈超极化变化,并能抑制hCG的去极化作用。超微结构的变化与膜电位变化相一致。因此我们认为,酪氨酸可能在蟾蜍卵母细胞有对抗hCG的作用。     

Vitrification of mouse oocytes and embryos at various stages of development in an ethylene glycol-based solution by a simple method

Mouse oocytes and embryos at various developmental stages were exposed directly to an ethylene glycol-based vitrification solution (EFS) for 2 or 5 minutes at 20 degrees C. They were then vitrified at -196 degrees C and were warmed rapidly. At the germinal vesicle stage, the proportion of morphologically normal oocytes was 36 to 39% if they had cumulus cells, whereas in cumulus-removed immature oocytes and in ovulated oocytes it was only 2 to 4%. This low survival was attributed to the harmful action of ethylene glycol. After fertilization, on the other hand, the post-warming survival rate of 1-cell zygotes, as assessed by cleavage to the 2-cell stage, increased markedly (62%). As the developmental stage proceeded, higher proportions of vitrified embryos developed to expanded blastocysts; the rates increased up to 77 and 80% in 2-cell and 4-cell embryos, respectively. For embryos at the 8-cell, morula and early blastocyst stages, the proportion of embryos developed after vitrification (90 to 95%) was not significantly different from that of the untreated embryos (95 to 100%) when the period of exposure to EFS solution was 2 minutes. As the blastocoel began to enlarge, however, survival began to decrease again, with rates of 79 and 57% in blastocysts and expanded blastocysts, respectively. After the cryopreserved 2-cell, 4-cell and 8-cell embryos as well as morulae and blastocysts were transferred to recipients, 43 to 57% of the recipients became pregnant, and 48 to 60% of these various stage embryos developed into live young.