A reliable, noninvasive technique for spindle imaging and enucleation of mammalian oocytes

Factors affecting the efficiency of animal cloning remain to be elucidated. Enucleation of recipient oocytes is a critical step in cloning procedures and typically is performed by aspirating a portion of the cytoplasm underlying the first polar body. Enucleation is evaluated using epifluorescence after Hoechst staining for DNA, which may disrupt functions of the cytoplast, especially mitochondria. Mitochondrial DNA in Dolly and other cloned sheep has been shown to derive exclusively from recipient oocytes. Not only might evaluation of the aspirated karyoplast portion inadequately reflect the state of the cytoplast, it is also time consuming. Here we report a reliable, noninvasive technique for spindle imaging and enucleation of oocytes using a new microscope, the Pol-Scope. The efficiency of enucleation was 100%, and only 5.5% of the oocytes' mitochondria entered the karyoplast upon Pol-Scope-directed removal of the spindle. Moreover, Pol-Scope imaging of spindles and micromanipulation did not compromise the developmental competence of reconstituted oocytes and cytoplasts.     

Noninvasive optical laser technologies for the transplantation of mammalian nuclei

The results of pioneering studies on the development of radically new noninvasive methods for the transplantation of mammalian somatic cell nuclei with the use of optical laser manipulations are presented, and their comparison with traditional invasive methods is performed. It is shown that all the key steps, including the enucleation of a recipient cell, the transfer of a somatic cell (karyoplast), its bringing close together with the recipient cytoplast, and the fusion of the cytoplast with the somatic cell, can be effectively conducted using the laser only with complete replacement by laser of traditional mechanical micromanipulators and other devices, including devices for electrofusion. The results indicate the unique potentialities of laser and the prospects of its application in modern cell engineering in a wide spectrum of studies on oocytes and early mammalian embryos, in particular in technologies of therapeutic and reproductive cloning.     

Isolation of human neutrophil plasma membranes employing neutrophil cytoplasts and changes in the cell-surface proteins upon cell activation

A plasma membrane fraction, highly enriched in 5'-nucleotidase activity, was prepared from human neutrophils by disruption of previously formed neutrophil cytoplasts (enucleated neutrophils), which were devoid of intracellular organelles. This plasma membrane fraction shows an extremely low contamination by specific and azurophilic granule markers as compared to previous reported preparations. Nevertheless, a novel tertiary granule (Mollinedo, F. and Schneider, D.L. (1984) J. Biol. Chem. 259, 7143-7150), unlike specific and azurophilic granules, fuses partially with the cell surface under the experimental conditions used for cytoplast preparation. Comparison between the external cell-surface proteins in resting neutrophils and neutrophil cytoplasts by lactoperoxidase-catalyzed iodination showed some differences both in deletion and in addition of proteins. In resting cells, iodine was incorporated into at least 13 proteins ranging in size from over 200 to 30 kDa. A 140 kDa polypeptide, representing the major labeled surface component in resting neutrophils, was absent from cytoplasts. Furthermore, high-molecular-weight proteins (110 and over 160 kDa were more exposed to iodination after cytoplast preparation. Activation of human neutrophils by N-formylmethionylleucylphenylalanine induced some alterations in the pattern of labeled cell-surface proteins, which correlated to a certain degree with those observed during cytoplast preparation.     

Association between mitochondrial DNA haplotype compatibility and increased efficiency of bovine intersubspecies cloning

Reconstructed embryos derived from intersubspecies somatic cell nuclear transfer(SCNT) have poorer developmental potential than those from intrasubspecies SCNT.Based on our previous study that Holstein dairy bovine(HD) mitochondrial DNA(mtDNA) haplotype compatibility between donor karyoplast and recipient cytoplast is crucial for SCNT embryo development,we performed intersubspecies SCNT using HD as donor karyoplast and Luxi yellow heifer(LY) as recipient cytoplast according to mtDNA haplotypes determined...     

Influence of cell cycle stage at nuclear transplantation on the development in vitro of mouse embryos

Nuclei were transplanted from embryos of mice at different stages of the 1st and 2nd cell cycle to oocytes enucleated at various times after fertilization. After transfer of pronuclei, a greater proportion of embryos developed to blastocysts if donor and recipient embryos were at the same stage of the cell cycle (synchronous transfer = 94%, asynchronous transfer = 76%). By contrast, when 2-cell blastomere nuclei were fused to the cytoplasm of enucleated zygotes, there was a significant effect of both cytoplast and karyoplast cell cycle stage on the development of the reconstituted embryos. Karyoplasts and cytoplasts derived from embryos at later stages of the cell cycle had greater potential to support development to blastocysts in vitro. It is suggested that the secretion of stage-specific messengers and the timing of nuclear membrane breakdown are the main factors causing the karyoplast and cytoplast effects, respectively.     

Recycling of membrane proteins during endo- and exocytosis in amoebae

The fate of a membrane protein of the amoeba plasmalemma was studied by means of 125I iodination by lactoperoxidase, gel electrophoresis, radioautography and gamma counting. There was only one iodinatable polypeptide group with a molecular weight (MW) of 175 000 on the external surface of the plasmalemma. Two hours or more after induced phagocytosis, isolated phagolysosomal membranes contained two other smaller polypeptides with MWs of 70 000 and 35 000, respectively, suggesting that the 175 000 polypeptide was broken down to these smaller components during endocytosis. After 22 h of induced phagocytosis, isolated plasmalemma contained a 35 000 polypeptide group in addition to the 175 000 polypeptide species. The results suggested that some of the iodinatable membrane proteins were altered and recycled during endo- and exocytosis in amoebae, while others were recycled intact.     

Asynchronous cytoplast and karyoplast transplantation reveals that the cytoplasm determines the developmental fate of the nucleus in mouse oocytes

The relationship between nucleus and cytoplasm can be well revealed by nuclear transplantation. Here, we have investigated the behavior changes of the reconstructed oocytes after transferring the karyoplasts from mouse GV, MI, and MII oocytes into the cytoplasts at the different developmental stages. When the GV cytoplast was used as recipient and MI or MII karyoplast was used as donor (MI-GV pair and MII-GV pair), the reconstructed pairs extruded a polar body after electrofusion and culture. Both the cytoplasm and the polar body had a metaphase spindle in the MI-GV pair, while only a clutch of condensed chromatin was observed in the cytoplasm and polar body of the MII-GV pair. When the MI cytoplast was used as recipient and GV or MII karyoplast was used as donor (GV-MI pair and MII-MI pair), the reconstructed pairs also extruded a polar body. Each had one spindle and a group of metaphase chromosomes in the cytoplasm and polar body, respectively. When the MII cytoplast was used as recipient and GV or MI karyoplast was used as donor (GV-MII pair and MI-MII pair), the reconstructed pairs were activated, became parthenogenetic embryos and even developed to hatching blastocysts after electrofusion. The result from immunoblotting showed that MAP kinase activity was high in the MI and MII cytoplasts, while not detected in GV cytoplast. The results demonstrate that the cytoplasmic environment determines the behavior of asynchronous donors.     

Microsurgical removal of centrosomes blocks cell reproduction and centriole generation in BSC-1 cells

We have removed the centrosome from cultured BSC-1 cells by microsurgery, leaving enough cytoplasm with the nucleated cell fragment (karyoplast) to ensure survival and growth. In each experiment, we followed the fate of the karyoplast as well as the anucleate cell fragment (cytoplast) containing the original pair of centrioles. Experimental karyoplasts reestablish a juxtanuclear microtubule-organizing center, an astral array of microtubules, and a compact Golgi apparatus. They enter and presumably complete S phase, and they grow beyond the size of an average BSC-1 cell. However, they do not regenerate centrioles in time periods equivalent to more than 10 cell cycles and do not undergo cell division. Control-operated cells with centrosomes left in the karyoplast progress through the cell cycle, duplicate the centrosome, and form clonal cell colonies. We conclude that the removal of centrioles uncouples cell growth from cell reproduction and impedes centriole biogenesis and centrosome duplication.     

Association between mitochondrial DNA haplotype compatibility and increased efficiency of bovine intersubspecies cloning

Reconstructed embryos derived from intersubspecies somatic cell nuclear transfer (SCNT) have poorer developmental potential than those from intrasubspecies SCNT. Based on our previous study that Holstein dairy bovine (HD) mitochondrial DNA (mtDNA) haplotype compatibility between donor karyoplast and recipient cytoplast is crucial for SCNT embryo development, we performed intersubspecies SCNT using HD as donor karyoplast and Luxi yellow heifer (LY) as recipient cytoplast according to mtDNA haplotypes determined by polymerase chain reactionrestriction fragment length polymorphism (PCR-RFLP) analysis. The results demonstrated that intersubspecies mtDNA homotype SCNT embryos had higher pre- and post-implantation developmental competence than intrasubspecies mtDNA heterotype embryos as well as improved blastocyst reprogramming status, including normal H3K9 dimethylation pattern and promoter hypomethylation of pluripotent genes such as Oct4 and Sox2, suggesting that intersubspecies SCNT using LY oocytes maintains HD cloning efficiency and may reprogram HD nuclei to develop into a normal cloned animal ultimately. Our results indicated that karyoplast-cytoplast interactions and mtDNA haplotype compatibility may affect bovine intersubspecies SCNT efficiency. This study on bovine intersubspecies SCNT is valuable for understanding the mechanisms of mtDNA haplotype compatibility between karyoplast and cytoplast impacting the bovine SCNT efficiency, and provides an alternative and economic resource for HD cloning.     

Nuclear control of tumorigenicity in cells reconstructed by PEG-induced fusion of cell fragments

The techniques of somatic cell hybridization have provided a valuable means of studying mechanisms of regulation of mammalian cell differentiation and transformation. Most previous studies have indicated that fusions between tumorigenic and nontumorigenic cells result in hybrid cells that are usually tumorigenic. In recent years it has been demonstrated that the phenotypic expression of tumorigenicity is at least partially due to the extensive chromosome loss that occurs in most interspecific and some intraspecific hybrid cells. In the present study we have utilized enucleation techniques that permit cells to be divided into nuclear (karyoplast) and cytoplasmic (cytoplast) cell fragments. Even though these nuclear and cytoplasmic fragments are metabolically stable for short periods of time, in our hands they ultimately degenerate. Viable cells can be reconstructed by PEG-induced fusion of karyoplasts to cytoplasts. Since reconstructed cells apparently do not segregate chromosomes, they may provide a clearer understanding of the interactions between the nucleus and the cytoplasm in the control of the expression of tumorigenicity. We have reconstructed cells using karyoplasts from the tumorigenic Y-1 cell line and cytoplasts from a nontumorigenic cell line, A-MT-BU-A1. In addition we have reconstructed cells containing Y-1 cytoplasts and A-MT-BU-A1 karyoplasts. The reconstructed cells porduced were assayed for tumorigenicity by their ability to grow in soft agar and in nude mice. The results of these experiments indicate that the reconstructed cells containing a tumorigenic nucleus and a nontumorigenic cytoplasm ultimately are tumorigenic and conversely the reconstructed cells containing a nontumorigenic nucleus and a tumorigenic cytoplasm are nontumorigenic. These experiments support the concept that with these cell lines the nucleus (karyoplast) is sufficient to control the phenotypic expression of tumorigenicity.     

Localization of the deoxyribonucleotide biosynthetic enzymes ribonucleotide reductase and thymidylate synthase in mouse L cells

Two different approaches were used to define the intracellular localization in mouse L929 cells of two deoxyribonucleotide biosynthetic enzymes: ribonucleoside diphosphate reductase (EC1.17.4.1) and thymidylate synthase (EC2.1.1.45). The first involved treatment with saponins, which render the plasma membrane permeable to proteins without disrupting intracellular organelles. Under conditions where nuclear DNA synthesis and the activity of the nuclear enzyme NMN adenylyltransferase were unaffected, the entire cellular complements of a cytosolic enzyme, glucose-6-phosphate dehydrogenase, and of ribonucleotide reductase and thymidylate synthase were released at the same rate and with similar dependence on saponin concentration. The second approach involved centrifugal enucleation of cells treated with cytochalasin B (CB) and measurement of the distribution of enzyme activities in the resulting cytoplast and karyoplast fractions. Whereas most NMN adenylyltransferase activity remained with the karyoplasts, glucose-6-phosphate dehydrogenase, ribonucleotide reductase, and thymidylate synthase were almost exclusively associated with the enucleated cytoplasts. These results indicate that, under conditions where nuclear DNA synthesis is apparently unperturbed, the intracellular distribution of the deoxyribonucleotide biosynthetic enzymes studied is the same as that of glucose-6-phosphate dehydrogenase, a typical cytosol enzyme, and clearly differs from that of NMN adenylyltransferase, a nuclear enzyme.     

Identification of Tetrahymena ciliary surface proteins labeled with sulfosuccinimidyl 6-(biotinamido) hexanoate and Concanavalin A and fractionated with Triton X-114.

Tetrahymena thermophila cells were labeled with sulfosuccinimidyl 6-(biotinamido) hexanoate, a sensitive nonradioactive probe for cell surface proteins, and Western blots of axonemes and ciliary membrane vesicles were compared to cilia fractionated with Triton X-114 (TX-114) in order to study the orientation of ciliary membrane proteins. Greater than 40 ciliary surface polypeptides, from greater than 350 kDa to less than 20 kDa, were resolved. The major surface 50-60 kDa proteins are hydrophobic and partition into the TX-114 detergent phase. Two high molecular weight proteins, one of which is biotinylated, comigrate with the heavy chains of ciliary dynein, sediment at 14S in a sucrose gradient, and partition into the TX-114 aqueous phase. Fractions containing these high molecular weight proteins as well as fractions enriched in 88-kDa and 66-kDa polypeptides contain Mg(2+)-ATPase activities. Detergent-solubilized tubulins partition into the TX-114 aqueous phase, are not biotinylated, and must not be exposed to the ciliary surface. The detergent-insoluble axoneme and membrane fraction contains a 36-kDa polypeptide and a portion of the 50-kDa polypeptides that otherwise partition into the detergent phase. These polypeptides could not be solubilized by ATP or by NaCl extraction and appear to be associated with pieces of ciliary membrane tightly linked to the axoneme. The ciliary membrane polypeptides were also tested for Concanavalin A binding and at least sixteen Con A-binding polypeptides were resolved. Of the major Con A-binding polypeptides, three are hydrophobic and partition into the TX-114 detergent phase, three partition into the TX-114 aqueous phase, and four partition exclusively in the detergent-insoluble fraction, which contains axonemes and detergent-resistant membrane vesicles.     

Assessment of mitochondrial function in the surviving cytoplasts of cultured cells of pig embryonic kidney by using ethylrhodamine

A study was made of the functional state of chondriome in cytoplasts previously cultivated for a long time under vital staining with fluorescent dye ethylrhodamine (10 micrograms/ml) which is known to accumulate preferentially in mitochondria. The energization was estimated by the intensity of mitochondrial fluorescence. It was realized that 30 minutes after enucleation cytoplasts retained the same fluorescence as did the untreated cells, and that the mitochondrial distribution within the cell was very similar. Such a high intensity of fluorescence seen within one day after enucleation gives a strong evidence on the high degree of independence on the cell nucleus of organelles that provide the energy to metabolic processes. In the course of survival in the cultivation medium for 1-4 days the intensity of fluorescence is shown to fall, especially on the second day after enucleation. All these changes coincide with the changes in cytoplast shape: originally well spread bodies transform into squeezed, ball-shaped or strongly deformed ones. The adhesive ability is going down, and in result only single units of cytoplast can hardly be found on the cover slips by the 4th day after enucleation. These changes give evidence on the enhanced degeneration of cultured cytoplasts.     

Degradation of nuclear proteins: studies on transplanted B82 cell karyoplast proteins

Karyoplasts were prepared from B82 cells (thymidine kinase deficient mouse L cells) by cytochalasin B mediated enucleation. Morphological measurements show that the nucleus constitutes 89% of a karyoplast by volume. Homokaryons were obtained by Sendai virus mediated karyoplast-B82 cell fusion. Transplanted nuclei were not destroyed catastrophically but were maintained intracellularly for at least 140 h. Transplanted nuclear proteins were degraded with an average half-life of 84 +/- 7 h by processes partially sensitive to inhibition by NH4Cl (50%) and leupeptin (30%). The data therefore suggest that some nuclear proteins are translocated to the cytoplasm for lysosomal degradation.     

Identification of Tetrahymena Ciliary Surface Proteins Labeled with Sulfosuccinimidyl 6-(Biotinamido) Hexanoate and Concanavalin A and Fractionated with Triton X-114

ABSTRACT. Tetrahymena thermophila cells were labeled with sulfosuccinimidyl 6-(biotinamido) hexanoate, a sensitive nonradioactive probe for cell surface proteins, and Western blots of axonemes and ciliary membrane vesicles were compared to cilia fractionated with Triton X-114 (TX-114) in order to study the orientation of ciliary membrane proteins. Greater than 40 ciliary surface polypeptides, from >350 kDa to <20 kDa, were resolved. The major surface 50–60 kDa proteins are hydrophobic and partition into the TX-114 detergent phase. Two high molecular weight proteins, one of which is biotinylated, comigrate with the heavy chains of ciliary dynein, sediment at 14S in a sucrose gradient, and partition into the TX-114 aqueous phase. Fractions containing these high molecular weight proteins as well as fractions enriched in 88-kDa and 66-kDa polypeptides contain Mg²⁺-ATPase activities. Detergent-solubilized tubulins partition into the TX-114 aqueous phase, are not biotinylated, and must not be exposed to the ciliary surface. The detergent-insoluble axoneme and membrane fraction contains a 36-kDa polypeptide and a portion of the 50-kDa polypeptides that otherwise partition into the detergent phase. These polypeptides could not be solubilized by ATP or by NaCl extraction and appear to be associated with pieces of ciliary membrane tightly linked to the axoneme. The ciliary membrane polypeptides were also tested for Concanavalin A binding and at least sixteen Con A-binding polypeptides were resolved. Of the major Con A-binding polypeptides, three are hydrophobic and partition into the TX-114 detergent phase, three partition into the TX-114 aqueous phase, and four partition exclusively in the detergent-insoluble fraction, which contains axonemes and detergent-resistant membrane vesicles.     

Response of cultured rat liver epithelial cell lines to tumour-promoting phorbol esters

The membrane effects of a potent tumour promoter, 12-O-tetradecanoyl phorbol-13-acetate (TPA), were studied in a series of cultured rat liver epithelial cell lines. Treatment with TPA resulted in the formation of strand-like aggregates (ridges) of viable cells over the monolayer of IAR 6-1 cells, but not of three other cell lines tested (IAR 20, IAR 6, IAR 6-7). The morphological response of IAR 6-1 to TPA was investigated by determination of phorbol ester receptors, analysis of cellular fucoproteins, surface galactoproteins and iodinatable surface proteins, and specific immunofluorescence for components of the extracellular matrix (fibronectin, laminin-entactin, procollagen type III). A class of specific, saturable, high-affinity receptors for phorbol esters was demonstrated in all four cell lines employing a conventional [20(-3)H]phorbol-12,13-dibutyrate ([3H]PDBu)-binding assay. The dissociation constants were similar in four lines, but the number of receptors per cell in IAR 6-1 cells was about twice that in other lines. Down-regulation of receptors was demonstrated in IAR 20 and IAR 6-1 cells with similar characteristics. Iodinatable surface proteins and galactose-containing surface glycoproteins did not respond to TPA. The distribution of fibronectin, laminin-entactin and procollagen type III was not affected by TPA. A TPA-responsive cell line, IAR 6-1, contained considerably less laminin-entactin than did the other lines. TPA had no influence on metabolic labelling of [3H]fucose-containing cellular glycoprotein in IAR 6-1 cells. One specific protein, with molecular mass of 78 kD, was more heavily labelled with [3H]fucose in IAR 6-1 cells than in the other cell lines. Taken together, the results of this study show that the responsive cells (IAR 6-1) differed from non-responsive ones in having more phorbol ester receptors, increased fucosylation of a specific glycoprotein and decreased deposition of laminin-entactin in the extracellular matrix. These surface properties of IAR 6-1 cells may contribute to their ability to respond to TPA.     

Studies on the iodinated surface membrane proteins and concanavalin A agglutination of transformed Syrian hamster cells.

Chemically transformed Syrian hamster cells exhibit marked agglutination in the presence of the plant lectin, concanavalin A. In this report, we describe conditions which can alter this concanavalin A agglutinability, and compare the surface proteins from transformed cells which express different degrees of agglutinability. Lactoperoxidase-catalyzed iodination of tertiary Syrian hamster cells reveals the major iodinatable protein to be approximately 220 000 daltons. The transformed Syrian hamster cells do not contain this protein in an iodinatable form. Analyses of the transformed cells grown under conditions which decrease the concanavalin A agglutinability do not demonstrate any iodination of the 220 000 mol. wt. protein. These results depict the effects of growth and dibutyryl cyclic AMP on the iodinatable cell surface proteins of transformed cells and indicate that the absence of the I-220 000 mol. wt. protein is probably not a major determinant of concanavalin A agglutination.     

Interaction of vinblastine with the secretagogue action of db-cAMP in the rat exocrine pancreas,.

Developmentally pluripotent embryonal carcinoma cells isolated from mouse teratocarcinomas were fused to whole cells, to cytoplasts, and to karyoplasts of 3T3 fibroblasts. The cybrids (cell X cytoplast fusion product) retained the developmental potency of the embryonal carcinoma cell parent. On the other hand, the karyobrids (cell X karyoplast fusion product) and the hybrids resembled the fibroblast parent cell and were incapable of differentiation. These experiments, therefore, failed to reveal the presence of cytoplasmic regulators of nuclear gene expression.     

Iodination of cells membranes: II. Characterization of HeLa cell membrane surface proteins

The molecular weights of the five iodinatable surface membrane proteins of HeLa cells were determined to be 170 000, 145 000, 130 000, 93 000 and 53 000. The proteolytic digestion of these proteins with pronase, trypsin and chymotrypsin was also studied.Metabolic studies showed that these iodinated surface proteins are released into the medium in both acid-soluble and acid-insoluble forms. Antibodies prepared towards these released membrane fragments as well as antibodies prepared towards whole membrane inhibit the growth of HeLa cells.     

Purification and characterization of regenerating mouse L929 karyoplasts

Within 72–96 hr after preparation, about 10% of the karyoplasts made from mouse L929 cells regenerated to reform whole viable cells. As soon as 30 hr after preparation, however, nearly all of the remaining 90% of karyoplasts were dead. By separating living and dead karyoplasts at 30 hr, therefore, that fraction destined to complete regeneration was effectively purified. Complete separation was accomplished by sedimentation through Ficoll-paque (Pharmacia), a patented preparation originally developed for the separation of monocytes from whole blood. With the addition of this technique to the previously reported purification scheme for karyoplasts, various biochemical and morphological studies were attempted. Of particular importance are results indicating that karyoplasts that regenerate do not initially contain any more cytoplasm than the average karyoplast in a preparation—that is, about 10% of the cytoplasm within a whole cell. Electron microscopy of karyoplasts immediately after preparation indicated an unequal partitioning of cytoplasmic organelles at the time of enucleation. For example, karyoplasts initially contained about 11.4% of the mitochondrial volume of whole cells, but only 2.9% of the Golgi apparatus. The size of the karyoplasts and the volume occupied by a variety of organelles was followed throughout the process of regeneration. Although there was an approximately linear increase in the diameter of regenerating karyoplasts, there appeared not to be a simple concordant increase in the volume occupied by all cellular organelles. An extensive investigation was performed to determine whether or not karyoplasts contained centrioles. Immediately after enucleation, 15,000 random thin sections through karyoplasts, which represented about 100 complete bodies, were examined for the presence or absence of centrioles. No centrioles were observed. Examination of the cytoplasts revealed that they contained a sufficient number of centrioles to account for all of the centrioles that were present in the whole cells before enucleation. Centrioles were first detected in karyoplasts at 24 hr after preparation, about the same time that karyoplasts regained the ability to adhere to the surface of tissue culture dishes. At this time, however, the average karyoplast had less than one centriole. By 72 hr, the regenerated karyoplasts had approximately the same number of centrioles as whole cells.