E.W. Overström scite author profile

In this study, we demonstrate the production of transgenic goats by nuclear transfer of fetal somatic cells. Donor karyoplasts were obtained from a primary fetal somatic cell line derived from a 40-day transgenic female fetus produced by artificial insemination of a nontransgenic adult female with semen from a transgenic male. Live offspring were produced with two nuclear transfer procedures. In one protocol, oocytes at the arrested metaphase II stage were enucleated, electrofused with donor somatic cells, and simultaneously activated. In the second protocol, activated in vivo oocytes were enucleated at the telophase II stage, electrofused with donor somatic cells, and simultaneously activated a second time to induce genome reactivation. Three healthy identical female offspring were born. Genotypic analyses confirmed that all cloned offspring were derived from the donor cell line. Analysis of the milk of one of the transgenic cloned animals showed high-level production of human antithrombin III, similar to the parental transgenic line.

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Distinctions in Meiotic Spindle Structure and Assembly During In Vitro and In Vivo Maturation of Mouse Oocytes1

Sanfins

Lee

Plancha³

et al. 2003

131

126

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To better understand the differences in cytoskeletal organization between in vivo (IVO) and in vitro (IVM) matured oocytes, we analyzed remodeling of the centrosome-microtubule complex in IVO and IVM mouse oocytes. Fluorescence imaging revealed dramatic differences in meiotic spindle assembly and organization between these two populations. Metaphase spindles at both meiosis I (M-I) and meiosis II (M-II) in IVO oocytes were compact, displayed focused spindle poles with distinct gamma-tubulin foci, and were composed of acetylated microtubules. In contrast, IVM oocytes exhibited barrel-shaped spindles with fewer acetylated microtubules and gamma-tubulin diffusely distributed throughout the spindle proper. With respect to meiotic progression, IVO oocytes were more synchronous in the rate and extent of anaphase to telophase of M-I and first polar body emission than were IVM counterparts. Furthermore, IVO oocytes showed a twofold increase in cytoplasmic microtubule organizing centers (MTOCs), and constitutive MTOC proteins (gamma-tubulin and pericentrin) were excluded from the first polar body. Inclusion of MTOC constitutive proteins in the polar body and diminished number of cytoplasmic MTOCs was observed in IVM oocytes. These findings were corroborated in IVO oocytes obtained from naturally ovulated and spontaneously cycling mice and highlight a fundamental distinction in the spatial and temporal regulation of microtubule dynamics between IVO and IVM oocytes

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Meiotic spindle morphogenesis in in vivo and in vitro matured mouse oocytes: insights into the relationship between nuclear and cytoplasmic quality

Sanfins

Plancha²,

Overström³

et al. 2004

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Cloned Mice Derived from Embryonic Stem Cell Karyoplasts and Activated Cytoplasts Prepared by Induced Enucleation

Gasparrini

Gao

Ainslie

et al. 2003

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Our objective was to induce enucleation (IE) of activated mouse oocytes to yield cytoplasts capable of supporting development following nuclear transfer. Fluorescence microscopy for microtubules, microfilaments, and DNA was used to evaluate meiotic resumption after ethanol activation and the effect of subsequent transient treatments with 0.4 micro g/ml of demecolcine. Using oocytes from B6D2F1 (C57BL/6 x DBA/2) donors, the success of IE of chromatin into polar bodies (PBs) was dependent on the duration of demecolcine treatment and the time that such treatment was initiated after activation. Similarly, variations in demecolcine treatment altered the proportions of oocytes exhibiting a reversible compartmentalization of chromatin into PBs. Treatment for 15 min begun immediately after activation yielded an optimized IE rate of 21% (n = 80) when oocytes were evaluated after overnight recovery in culture. With this protocol, 30-50% of oocytes were routinely scored as compartmentalized when assessed 90 min postactivation. No oocytes could be scored as such following overnight recovery, with 66% of treated oocytes cleaving to the 2-cell stage (n = 80). Activated cytoplasts were prepared by mechanical removal of PBs from oocytes whose chromatin had undergone IE or compartmentalization. These cytoplasts were compared with mechanically enucleated, metaphase (M) II cytoplasts whose activation was delayed in nuclear transfer experiments using HM-1 embryonic stem cells. Using oocytes from either B6D2F1 or B6CBAF1 (C57BL/6 x CBA) donors, the in vitro development of cloned embryos using activated cytoplasts was consistently inferior to that observed using MII cytoplasts. Live offspring were derived from both oocyte strains using the latter, whereas a single living mouse was cloned from activated B6CBAF1 cytoplasts.

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Transitions in Trophectoderm Cellular Shape and Cytoskeletal Organization in the Elongating Pig Blastocyst1

Mattson

Overström

Albertini

1990

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Changes in cellular shape and filamentous actin (f-actin) organization within the trophectoderm of pig embryos have been studied by fluorescence microscopy during the transitions from spherical to filamentous blastocysts. Cells comprising the trophectoderm of spherical, ovoid, tubular, and filamentous blastocysts are distinctive in their shape, size, and organization of membrane-associated f-actin. Trophectodermal cells of spherical and ovoid embryos are both generally circular in shape. However, as the spherical embryo acquires an ovoid shape, uniformally distributed apical cell surface microvilli relocate to the apical intercellular margins of adjoining trophectodermal cells. Transitional modifications in cellular shape and f-actin organization are observed in tubular blastocysts when apical cell surface microvilli reappear. In elongating filamentous blastocysts, trophectodermal cells assume a spindle-shaped morphology. The f-actin associated with the apical surface is diminished whereas the associated with the basolateral membrane predominates, especially in constricted regions of the blastocyst. These observations, in conjunction with morphometric parameters of trophectodermal cells and whole blastocysts, are discussed in relation to the role of the actin cytoskeleton in processes that modify trophectodermal cell shape and function in the elongating pig blastocyst.

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E.W. Overström

Production of goats by somatic cell nuclear transfer

Distinctions in Meiotic Spindle Structure and Assembly During In Vitro and In Vivo Maturation of Mouse Oocytes1

Meiotic spindle morphogenesis in in vivo and in vitro matured mouse oocytes: insights into the relationship between nuclear and cytoplasmic quality

Cloned Mice Derived from Embryonic Stem Cell Karyoplasts and Activated Cytoplasts Prepared by Induced Enucleation

Transitions in Trophectoderm Cellular Shape and Cytoskeletal Organization in the Elongating Pig Blastocyst1

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