Silvia Colleoni scite author profile

We have shown previously that transgene expression can be suppressed in hematopoietic cells using vectors that are responsive to microRNA (miRNA) regulation. Here we investigate the potential of this approach for more sophisticated control of transgene expression. Analysis of the relationship between miRNA expression levels and target mRNA suppression suggested that suppression depends on a threshold miRNA concentration. Using this information, we generated vectors that rapidly adjust transgene expression in response to changes in miRNA expression. These vectors sharply segregated transgene expression between closely related states of therapeutically relevant cells, including dendritic cells, hematopoietic and embryonic stem cells, and their progeny, allowing positive/negative selection according to the cells' differentiation state. Moreover, two miRNA target sites were combined to restrict transgene expression to a specific cell type in the liver. Notably, the vectors did not detectably perturb endogenous miRNA expression or regulation of natural targets. The properties of miRNA-regulated vectors should allow for safer and more effective therapeutic applications.

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Gene editing in human stem cells using zinc finger nucleases and integrase-defective lentiviral vector delivery

Lombardo

et al. 2007

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Achieving the full potential of zinc-finger nucleases (ZFNs) for genome engineering in human cells requires their efficient delivery to the relevant cell types. Here we exploited the infectivity of integrase-defective lentiviral vectors (IDLV) to express ZFNs and provide the template DNA for gene correction in different cell types. IDLV-mediated delivery supported high rates (13-39%) of editing at the IL-2 receptor common gamma-chain gene (IL2RG) across different cell types. IDLVs also mediated site-specific gene addition by a process that required ZFN cleavage and homologous template DNA, thus establishing a platform that can target the insertion of transgenes into a predetermined genomic site. Using IDLV delivery and ZFNs targeting distinct loci, we observed high levels of gene addition (up to 50%) in a panel of human cell lines, as well as human embryonic stem cells (5%), allowing rapid, selection-free isolation of clonogenic cells with the desired genetic modification.

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Gene editing in human stem cells using zinc finger nucleases and integrase-defective lentiviral vector delivery

Lombardo

Genovese

Beauséjour

et al. 2008

Blood Cells, Molecules, and Diseases

187

272

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A cloned horse born to its dam twin

Galli

Lagutina

Crotti

et al. 2003

Nature

390

195

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Several animal species, including sheep, mice, cattle, goats, rabbits, cats, pigs and, more recently, mules have been reproduced by somatic cell cloning, with the offspring being a genetic copy of the animal donor of the nuclear material used for transfer into an enucleated oocyte. Here we use this technology to clone an adult horse and show that it is possible to establish a viable, full-term pregnancy in which the surrogate mother is also the nuclear donor. The cloned offspring is therefore genetically identical to the mare who carried it, challenging the idea that maternal immunological recognition of fetal antigens influences the well-being of the fetus and the outcome of the pregnancy.

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Bovine embryo technologies

et al. 2003

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Developmental capability of denuded bovine oocyte in a Co‐culture system with intact cumulus‐oocyte complexes: Role of cumulus cells, cyclic adenosine 3′,5′‐monophosphate, and glutathione

Luciano

Lodde

Beretta

et al. 2005

Molecular Reproduction Devel

145

114

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Cumulus oophorus cells have been implicated in the regulation of female gamete development, meiotic maturation, and oocyte-sperm interaction. Nevertheless, the specific role of cumulus cells (CCs) during the final stages of oocyte maturation and fertilization processes still remains unclear. Several studies have been conducted in order to clarify the role of follicular cells using culture systems where denuded oocytes (DOs) were co-cultured with isolated CCs, or in the presence of conditioned medium. However, those attempts were ineffective and the initial oocyte competence to become a blastocyst after fertilization was only partially restored. Aim of the present study was to analyze the effect of the interactions between somatic cells and the female gamete on denuded oocyte developmental capability using a system of culture where CCs were present as dispersed CCs or as intact cumulus-oocyte complexes (COCs) in co-culture with oocytes freed of CC investment immediately after isolation from the ovary. Moreover, we analyzed the specific role of cyclic adenosine 3'-5' monophosphate (cAMP) and glutathione (GSH) during FSH-stimulated maturation of denuded oocyte co-cultured with intact COCs. Our data confirm that denuded oocyte has a scarce developmental capability, and the presence of dispersed CCs during in vitro maturation (IVM) does not improve their developmental competence. On the contrary, the co-presence of intact COCs during denuded oocyte IVM partially restores their developmental capability. The absence of CCs investment causes a drop of cAMP content in DOs at the beginning of IVM and the addition of a cAMP analog in the culture medium does not restore the initial oocyte developmental competence. The relative GSH content of denuded oocyte matured in presence of intact COCs is consistent with the partial recovery of their developmental capability. However, the complete restoration of a full embryonic developmental potential is achieved only when DOs are co-cultured with intact COCs during both IVM and in vitro fertilization (IVF). Our results suggest that the direct interaction between oocyte and CCs is not essential during IVM and IVF of denuded oocyte. We hypothesize that putative diffusible factor(s), produced by CCs and/or by the crosstalk between oocyte and CCs in the intact complex, could play a key role in the acquisition of developmental competence of the denuded female gamete.

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Developmental competence of equine oocytes and embryos obtained by in vitro procedures ranging from in vitro maturation and ICSI to embryo culture, cryopreservation and somatic cell nuclear transfer

Galli

Colleoni

Duchi

et al. 2007

Animal Reproduction Science

132

111

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Establishment, Differentiation, Electroporation, Viral Transduction, and Nuclear Transfer of Bovine and Porcine Mesenchymal Stem Cells

Colleoni

Donofrío

Lagutina

et al. 2005

Cloning and Stem Cells

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Mesenchymal stem cells (MSCs) reside in the bone marrow and have the potential for multilineage differentiation, into bone, cartilage, and fat, for example. In this study, bovine and porcine MSCs were isolated, cultured to determine their replication ability, and differentiated with osteogenic medium and 5-azacytine. Both bovine and porcine undifferentiated MSCs were electroporated and virally transduced to test the efficiency of genetic modification and the maintainance of differentiation ability thereafter. Nuclear transfer experiments were carried out with bovine and porcine MSCs, both at the undifferentiated state and following differentiation. Our results indicate that bovine and porcine MSCs have limited lifespans in vitro-approximately 50 population doublings. They can be efficiently differentiated and characterized along the osteogenic lineage by morphology, alkaline phosphatase, Von Kossa, oil red stainings, and RT-PCR. Electroporation and selection induce high levels of EGFP expression in porcine but not in bovine MSCs. Following genetic modification, MSCs retain their pluridifferentiation ability as parental cells. Cloned embryos derived from bovine and porcine undifferentiated MSCs and their derivatives along the osteogenic lineage give rise to consistently high preimplantation development comparable to adult fibroblasts.

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Silvia Colleoni

Endogenous microRNA can be broadly exploited to regulate transgene expression according to tissue, lineage and differentiation state

Gene editing in human stem cells using zinc finger nucleases and integrase-defective lentiviral vector delivery

Gene editing in human stem cells using zinc finger nucleases and integrase-defective lentiviral vector delivery

A cloned horse born to its dam twin

Bovine embryo technologies

Developmental capability of denuded bovine oocyte in a Co‐culture system with intact cumulus‐oocyte complexes: Role of cumulus cells, cyclic adenosine 3′,5′‐monophosphate, and glutathione

Developmental competence of equine oocytes and embryos obtained by in vitro procedures ranging from in vitro maturation and ICSI to embryo culture, cryopreservation and somatic cell nuclear transfer

Establishment, Differentiation, Electroporation, Viral Transduction, and Nuclear Transfer of Bovine and Porcine Mesenchymal Stem Cells

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