M.-C. Lavoir scite author profile

Gonadal cell suspensions were made from bovine fetuses of 35-55-, 56-80-, and 80-130-day age groups corresponding to the periods predominated by primordial germ cells (PGCs), oogonia, and meiotic cells, respectively. Germ cells identified on morphological criteria prior to their isolation from suspensions were compared histochemically and morphologically with cells in cryosections, impression smears, and semithin sections of similar gonads. Oocytes were distinguished by their chromosomal configurations in cell spreads. In suspensions from 35-55-day fetuses, cells considered to be PGCs stood out by their size, large nucleus, intracytoplasmic vesicles, and occasional blebbing. The somatic cells were smaller and contained little cytoplasm and few vesicles. In bovine gonads, in contrast to murine gonads, alkaline phosphatase (AP) activity was not specific enough to identify germ cells once they had entered the gonad. In ovaries from the 56-80-day age group, cells similar to PGCs, but slightly larger and with more cytoplasmic vesicles, were identified as oogonia. The cytoplasmic vesicles stained positively for lipid. In ovaries of 80-130-day fetuses, oogonia, oocytes, degenerating germ cells, and multinucleate germ cells were recognized. Degenerating germ cells exhibited a variety of morphological characteristics and were consistently positive for acid-phosphatase activity. Binucleate germ cells appeared around day 85 of gestation, while multinucleate germ cells were seen from day 95. It was concluded that bovine mitotic germ cells can be isolated from gonadal cell suspensions and that the best time to recover them is between 50 and 70 days of gestation.

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Transcription and translation in bovine nuclear transfer embryos

Lavoir

Kelk

Rumph

et al. 1997

Biology of Reproduction

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The development of bovine embryos reconstructed by nuclear transfer (NT) is poor compared to that of embryos produced by in vitro fertilization. One reason for this could be incomplete reprogramming of the transferred nucleus. Therefore, with a view to optimizing the conditions for NT, the reprogramming of blastomere nuclei from 16- to 32-cell-stage in vitro-fertilized (IVF) embryos was investigated following NT by fusion of individual blastomeres with cytoplasts prepared from oocytes at two different stages of maturation. Heterogeneous RNA (hnRNA) production, nucleolar ultrastructure, and protein profiles of the NT embryos up to the 8-cell stage were analyzed. In all NT embryos analyzed for their hnRNA production (n = 133), [3H]uridine incorporation was higher at the 1-, 2-, and 4-cell stages than in control IVF embryos (n = 50). Ultrastructural examination of 11 NT embryos revealed evidence of transcriptional activity; fibrillar and granular components were seen in the nucleolus at the 1-cell stage. At the 2-, 4-, and 8-cell stages, fibrillar components were still evident but granular components had become scarce. The hnRNA synthesis, however, was not reflected in the one-dimensional electrophoretic patterns of protein production in the NT embryos (n = 56); these were largely similar to those of IVF embryos (n = 34) of corresponding stages. Thus, NT embryos made in this way do not behave like equivalent IVF embryos, suggesting that reprogramming of the transferred nucleus is absent or incomplete.

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Nucleolar and mitochondrial morphology in bovine embryos reconstructed by nuclear transfer

et al. 1996

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The nucleolar and mitochondrial morphology of developing reconstructed bovine nuclear transfer (NT) embryos and stage‐matched in vivo‐produced control embryos were examined under the electron microscope. Each reconstructed embryo at the one‐cell (n = 12), two‐cell (n = 5), three‐cell (n = 3), four‐cell (n = 5), 5–8 cell (n = 5) and blastocyst (n = 3) stages was produced by fusion of a 16–32‐cell‐stage blatomere with an aged enucleated bovine oocyte. The normal and reconstructed embryos showed similar mitochondrial morphology. However, NT embryos produced several pleiomorphic forms not seen in controls, and were more heterogenous at early stages of development. Control embryos exhibited nucleolar features considered indicative of rRNA synthesis from the eight‐cell stage onwards. In contrast, the NT embryos presented nucleoli with morphology consistent with rRNA synthesis in all embryos examined, except in the three‐cell and in two of the five four‐cell embryos. From this nucleolar morphology, it was concluded that nuclear reprogramming does not occur immediately following nuclear transfer, but occurs gradually over the first two or three cell cycles. © 1996 Wiley‐Liss, Inc.

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Development of Bovine Nuclear Transfer Embryos Made with Oogonia1

Lavoir

Rumph

Moens

et al. 1997

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The pluripotency of embryonic germ cells in the mouse suggests that mitotic bovine fetal germ cells might also be a source of pluripotent cells. To investigate the pluripotency of bovine oogonia, the development in vitro of bovine embryos reconstructed by fusing oogonia with enucleated oocytes was compared with that of embryos made similarly with either blastomeres or granulosa cells. The donor cells (fresh oogonia, cryopreserved oogonia, 16- to 32-cell-stage blastomeres, or granulosa cells) were fused to the enucleated oocytes electrically. The proportions of reconstructed embryos that had cleaved at 40 h after fusion using these types of donor cells were not significantly different (37%, 33%, 56%, and 31%, respectively; p > 0.05). However, the proportions of cleaved reconstructed embryos that developed to the blastocyst stage were 9%, 13%, 36%, and 3%, respectively, significantly higher (p < or = 0.05) with blastomeres than with the other three types of donor cells. After transfer of 3 morulae and 4 blastocysts made with oogonia into three recipient heifers, embryonic and extra-embryonic tissues developed in one animal. On recovery after 43 days gestation, this conceptus was shown to be genetically identical, at 11 microsatellite loci, to the fetus that had provided the oogonia. Cytological analysis of the embryos made with oogonia at 40-44 h after fusion and at the morula and blastocyst stages revealed that aberrant cytokinesis and nucleokinesis had given rise to multinucleated, anucleate, and polyploid cells in the reconstructed embryos. It is concluded that limited pluripotency of bovine oogonia has been demonstrated, warranting further study in this area.

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Culture of human embryos for studies on the derivation of human pluripotent cells: a preliminary investigation

Lavoir

Conaghan²,

Pedersen³

1998

Reprod. Fertil. Dev.

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Several different culture conditions were evaluated for culturing grade 4embryos (containing 2–4 blastomeres and with >50%fragmentation) 68 h after fertilization to the blastocyst stage. Embryos wereco-cultured with buffalo rat liver (BRL) cells in Menezo's B2 medium withor without 10% v/v synthetic serum substitute (SSS), co-culturedwith BRL cells in KSOM with or without 10% SSS, or cultured in KSOMwith 100 nM heparin binding epidermal growth factor. The most consistentdevelopment was obtained when embryos were co-cultured with BRL cells in KSOM.Rates of development to the blastocyst stage were between 27% and40%. After reaching the blastocyst stage, continued culture of theseblastocysts was only possible in a medium without serum. In a serum-deprivedmedium cells attached and showed initial outgrowth, but did not survivepassaging. Using another approach, inner cell masses (ICMs), isolated fromblastocysts with high efficiency using immunosurgery, were able to attach to afeeder layer in the presence of serum. Some ICMs differentiated whereas otherscould be succesfully passaged up to four times. The embryonic cells were morphologically different from murine embryonic stem cells. Instead ofwell-defined colonies, the human colonies were characterized by individualcells and colonies without defined borders.

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M.-C. Lavoir

Isolation and identification of germ cells from fetal bovine ovaries

Transcription and translation in bovine nuclear transfer embryos

Nucleolar and mitochondrial morphology in bovine embryos reconstructed by nuclear transfer

Development of Bovine Nuclear Transfer Embryos Made with Oogonia1

Culture of human embryos for studies on the derivation of human pluripotent cells: a preliminary investigation

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