Laser Fusion of Mouse Embryonic Cells and Intra-Embryonic Fusion of Blastomeres without Affecting the Embryo Integrity

Manipulation with early mammalian embryos is the one of the most important approach to study preimplantation development. Artificial cell fusion is a research tool for various biotechnological experiments. However, the existing methods have various disadvantages, first of them impossibility to fuse selected cells within multicellular structures like mammalian preimplantation embryos. In our experiments we have successfully used high repetition rate picosecond near infrared laser beam for fusion of pairs of oocytes and oocytes with blastomeres. Fused cells looked morphologically normal and keep their ability for further divisions in vitro. We also fused two or three blastomeres inside four-cell mouse embryos. The presence of one, two or three nuclei in different blastomeres of the same early preimplantation mouse embryo was confirmed under UV-light after staining of DNA with the vital dye Hoechst-33342. The most of established embryos demonstrated high viability and developed in vitro to the blastocyst stage. We demonstrated for the first time the use of laser beam for the fusion of various embryonic cells of different size and of two or three blastomeres inside of four-cell mouse embryos without affecting the embryo’s integrity and viability. These embryos with blastomeres of various ploidy maybe unique model for numerous purposes. Thus, we propose laser optical manipulation as a new tool for investigation of fundamental mechanisms of mammalian development.

[1]  S. Gaines,et al.  The Mouse , 2011 .

[2]  Alexander Heisterkamp,et al.  Femtosecond laser-induced fusion of nonadherent cells and two-cell porcine embryos. , 2011, Journal of biomedical optics.

[3]  M. Bader,et al.  Effects of electric field on early preimplantation development in vitro in mice and rats. , 2011, Human reproduction.

[4]  Alexander Heisterkamp,et al.  Combined multiphoton imaging and automated functional enucleation of porcine oocytes using femtosecond laser pulses. , 2010, Journal of biomedical optics.

[5]  T. A. Sviridova-Chailakhyan,et al.  The possibilities of optical laser technologies in cell engineering , 2009, Doklady Biological Sciences.

[6]  A. Karmenyan,et al.  Use of picosecond infrared laser for micromanipulation of early mammalian embryos , 2009, Molecular reproduction and development.

[7]  D. Ganten,et al.  In vitro formation of tetraploid rat blastocysts after fusion of two‐cell embryos , 2002, Molecular reproduction and development.

[8]  A. Trounson,et al.  Electrofusion of two‐cell bovine embryos for the production of tetraploid blastocysts in vitro , 2000, Molecular reproduction and development.

[9]  T. Stumpf,et al.  Characterization of DNA synthesis during the 2‐cell stage and the production of tetraploid chimeric pig embryos , 1996, Molecular reproduction and development.

[10]  J. Rossant,et al.  Embryonic stem cells alone are able to support fetal development in the mouse. , 1990, Development.

[11]  K. Greulich,et al.  Laser-induced fusion of mammalian cells and plant protoplasts. , 1987, Journal of cell science.

[12]  J. Modliński,et al.  Effects of electric field on fusion rate and survival of 2-cell rabbit embryos. , 1986, Journal of embryology and experimental morphology.

[13]  A. Tarkowski,et al.  Electrofusion of mouse blastomeres. , 1985, Experimental cell research.

[14]  H. Berg 500—Biological implications of electric field effects: Part V.Fusion of blastomeres and blastocysts of mouse embryos , 1982 .

[15]  A. Spindle Polyethylene glycol-induced fusion of two-cell mouse embryo blastomeres. , 1981, Experimental cell research.

[16]  M. Eglitis Formation of tetraploid mouse blastocysts following blastomere fusion with polyethylene glycol. , 1980, The Journal of experimental zoology.

[17]  Abdulhakem Y. Elezzabi,et al.  Prospects and developments in cell and embryo laser nanosurgery. , 2009, Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology.

[18]  J. Rossant,et al.  Developmental Potential of Mouse Embryonic Stem Cells , 1993 .

[19]  M W Berns,et al.  Laser induced cell fusion in combination with optical tweezers: the laser cell fusion trap. , 1991, Cytometry.

[20]  M. Kaufman,et al.  Sex-chromosome constitution of postimplantation tetraploid mouse embryos. , 1990, Cytogenetics and cell genetics.