[Cell engineering and genetic approaches to the development of models of human embryonic stem cells for studying genetic disorders].

A novel approach to the establishment of genetically modified human embryonic stem cell (hESC) lines has been developed, and it has been shown that mutant hESC may be derived from affected embryos after preimplantation genetic diagnosis screening for a particular single gene disorder. Here we provide the description of embryo and cell manipulation procedures, diagnostic lay out, analysis of the efficiency of embryo development and hESC establishment, as well as developments for hESC derivation in animal free conditions. The high efficiency of the approach (50%) is especially crucial in the work with rare and unique resources, such as genetically screened embryos necessary for the derivation of hESC lines representative of specific genetic diseases.

Cytogenetic analysis of human somatic cell haploidization.

Despite recent interest in the derivation of female and male gametes through somatic cell nuclear transfer, there is still insufficient data on chromosomal analysis of these gametes resulting from haploidization, especially involving a human nuclear donor and recipient oocytes. The objective of this study was to investigate the fidelity of chromosomal separation during haploidization of human cumulus cells by in-vitro matured human enucleated MII oocytes. A total of 129 oocytes were tested 4-7, 8-14, or 15-21 h after nuclear transfer (NT) followed by electro-stimulation, resulting in 71.3% activation efficiency on average. Haploidization was documented by the formation of two separate groups of chromosomes, originating from either polar body/pronucleus (PB/PN), or only 2PN, which were tested by 5-colour FISH, or DNA analysis for copy number of chromosomes 13, 16, 18, 21, 22 and X. Two PN were formed more frequently than PB/PN, irrespective of incubation time. In agreement with recent reports on mouse oocytes, as many as 90.2% of the resulting haploid sets tested showed abnormal chromosome segregation, suggesting unsuitability of the resulting artificial gametes for practical application at the present time.

Human embryonic stem cell lines with genetic disorders.

A previous study described the establishment of human embryonic stem cell (ESC) lines from different sources of embryonic material, including morula, whole blastocyst and isolated inner cell mass. Using these methods, a repository of ESC lines has been established with different genetic abnormalities, which provides an unlimited source of disease cells in culture for undertaking research on the primary disturbances of the cellular processes in the genetically abnormal cells. ESC lines with genetic disorders were derived from the mutant embryos detected and avoided from transfer in the ongoing practice of preimplantation genetic diagnosis (PGD). The current repository contains 18 ESC lines with genetic disorders, including adrenoleukodystrophy, Duchenne and Becker muscular dystrophy, Fanconi anaemia, complementation group A, fragile-X syndrome, Huntington disease (three lines), Marfan syndrome, myotonic dystrophy (two lines), neurofibromatosis type I (five lines) and thalassaemia (two lines). These ESC lines are presently used for research purposes and may be available on request.

Effect of donor cell age on the efficiency of nuclear transfer in rabbits.

The ability of rabbit fibroblasts of different ages to be reprogrammed following nuclear transfer (NT) to aged recipient oocytes was evaluated. The rate of NT blastocysts reconstructed with presumptive G1 stage morula cells or fetal fibroblasts was significantly higher (41.5% and 51.4%) than was those of cloned embryos reconstructed with fibroblasts from young (4-month-old) or aged (5-year-old) animals (16.7% and 7.1%, respectively, P < 0.025). Serum starvation significantly increased the development of NT embryos to the morula-blastocyst stage (67.6% versus 22.9%, P < 0.025). Transfer of 168 NT embryos derived from nuclei of morula cells and 106 control embryos into 21 recipients resulted in 10 pregnancies, 2 NT and 18 control pups, respectively. In the first experiment, transfer of 142 cleaved NT embryos reconstructed with fetal fibroblasts and 86 control embryos into eight recipient does resulted in five pregnancies and the birth of 20 control pups. In the second experiment, after transfer of 112 NT embryos derived from fetal fibroblasts into six recipients, 10 (8.9%) sites of implantation were revealed in two does (33.3%) on day 14 of gestation. This study provides evidence that nuclei of morula cells and fetal and adult fibroblasts differ in their ability to be reprogrammed by recipient cytoplasm following nuclear transfer.

[A study of factors affecting the efficiency of electrofusion of enucleated eggs and cell-donors of nuclei]. / Issledovanie faktorov, vliiaiushchikh na éffektivnost' élektrosliianiia énukleirovannykh iaitsekletok s kletkami-donorami iader.

We studied the capacity of rabbit oocytes for electrofusion with morula blastomeres and fetal fibroblasts. The morula blastomeres fused with aging ooplasts more readily than the fetal fibroblasts: 92.9 versus 63.0%, p < 0.001. The fetal fibroblasts fused with young enucleated oocytes more efficiently than with the aging ones: 98.4 versus 63.0%, p < 0.001. Serum starvation of the fetal fibroblasts in DMEM medium for 7-14 days reduced their capacity for fusion with young ooplasts, as compared to that after starvation for 0-4 days: 67.2 versus 98.9%, p < 0.01). The increased time of "starvation" in an "impoverished" medium reduced the capacity of fetal fibroblasts with aging ooplasts as compared to the fibroblasts cultivated in the full medium and in the "impoverished" medium for one or two days: 64.5 versus 37.4%, p < 0.01. Hence, the efficiency of the fusion of the oocytes with nuclear donor cells depends on the age of the recipient oocyte, the origin of nuclear donor cells, and the conditions of cultivation.

[Effect of age of cell donors of nuclei on effectivness of developing cloned rabbit embryos]. / Vliianie vozrasta kletok-donorov iader na éffektivnost' razvitiia klonirovannykh émbrionov krolika.

We studied the capacity of nuclei of rabbit fibroblasts taken from various developmental stages for reprogramming in the cytoplasm of mature aging enucleated oocytes and development of the cloned embryos to the preimplantation stages. A negative correlation was found between the age of an animal--donor of fibroblasts and efficiency of the development of cloned embryos (rmorula-blastocyst = -0.826, rblastocyst = -0.7139). A reliably decreased capacity for reprogramming of the nuclei of donor fibroblasts was shown upon transition from prenatal development to the postnatal one, as well as a trend to a decreased capacity of nuclei for reprogramming during aging. Aging of cells in the culture, at least until the 10th passage, did not affect the capacity of the nuclei of fetal fibroblasts for reprogramming and development of cloned embryos.

[Cloning of mammals]. / Klonirovanie mlekopitaushchix.

A review of the development of the method of nuclear transplantation and cloning of animals with the use of nuclei of embryonic and adult cells is presented. We also present the results of studies of nuclear remodeling and reprogramming in the reconstructed oocyte and of cytoplasmic factors that control these processes.

[Apoptosis of L929 cells induced by tumor necrosis factor]. / Apoptoz kletok L929 pod deistviem faktora nekroza opukholei.

We investigated the mode of TNF-dependent death of L929 murine fibroblasts and the influence of overexpression of bcl-2 family genes on this process. Based on morphological and biochemical data it has been shown that L929 cells died after TNF treatment by apoptosis irrespective of TNF dose and protein synthesis inhibition. Analysis of bcl-2 family gene transfectants revealed a down-regulation of TNF-induced apoptosis by bcl-2 and bclX overexpression, and an up-regulation by bax gene.

[Methods of sperm microinjection as an instrument of assisted reproduction and a study of the biology of fertilization]. / Metody mikroin''ektsii serpmeiv kak instrument vspomogatel'noi reproduktsii i izucheniia biologii oplodotvoreniia.

Recent success in assisted fertilization mainly depended on the development of sperm microinjection methods: intracytoplasmic sperm injection and subzonal insemination. Some basic mechanisms that underlie fertilization were revealed by using intracytoplasmic sperm injection. In respect to this, problems of fertility, oocyte activation, formation of pronuclei and practical aspects of intracytoplasmic sperm injection are discussed.

[Effect of millimeter waves on the early development of the mouse and sea urchin embryo]. / Deistvie millimetrovykh voln na rannee razvitie zarodyshei myshei i morskikh ezhei.

The action of nonthermal electromagnetic radiation (EMR) of the millimeter range on the early development of murine and sea urchin embryos was investigated. An MRTA-01E-03 generator with a frequency of 54-78 GHz and radiation intensity of 0.06 mWt/cm2 was used. The embryos were irradiated during 30 min at the stage of two blastomeres. The number of murine embryos that reached the blastocyst stage increased (up to 97.3% in comparison with 87.5% in control). The total time of cultivation up to the blastocyst stage was also shorter (72 h) than in control (96 h). The irradiation had effect on the development of sea urchin embryos only if embryos with a weakened viability were tested. The results indicate that millimeter electromagnetic radiation has a stimulating effect on the early development of embryos, increasing the resistance of embryos to unfavorable environmental conditions.

[The effect of serum starvation on the efficacy of the nuclear reprogramming of rabbit embryonic fibroblasts]. / Vliianie syvorotochnogo golodaniia na éffektivnost' reprogrammirovaniia iader émbrional'nykh fibroblastov krolika.

Successful transplantation of mammalian nuclei from differentiated cells has become possible after the application of original methods directed at the synchronization of cell cycles of the donor cell and recipient cytoplasm. We obtained a line of rabbit fetal fibroblasts which was used to study factors affecting the success of reprogramming. The nuclei of fetal fibroblasts (up to the 10th passage inclusive) proved to be capable of reprogramming and ensuring development of the cloned embryos until the preimplantation stages. The influence of synchronization of the cell cycles of the nucleus donor and recipient on the efficiency of reprogramming was studied. The rate of development of the cloned rabbit embryos to the morula-blastocyst stage reached 67% when the nuclei used were from stationary culture cells (G0-phase).