Kaarin K. Goncz scite author profile

These results demonstrate that adult marrow cells can be recruited to airway epithelium and induced to express Cftr in mice otherwise lacking this protein. However, the number of observed chimeric epithelial cells is small and new strategies for enhancing airway epithelial remodeling by adult bone marrow-derived cells will be necessary for correction of defective CFTR-dependent chloride transport.

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Isolation of CF cell lines corrected at ΔF508-CFTR locus by SFHR-mediated targeting

Bruscia

et al. 2002

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Transfer and Expression of Foreign Genes in Mammalian Cells

et al. 2000

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The transfer of foreign genes into eukaryotic cells, in particular mammalian cells, has been essential to our understanding of the functional significance of genes and regulatory sequences as well as the development of gene therapy strategies. To this end, different mammalian expression vector systems have been designed. The choice of a particular expression system depends on the nature and purpose of the study and will involve selecting particular parameters of expression systems such as the type of promoter/enhancer sequences, the type of expression (transient versus stable) and the level of desired expression. In addition, the success of the study depends on efficient gene transfer. The purification of the expression vectors, as well as the transfer method, affects transfection efficiency. Numerous approaches have been developed to facilitate the transfer of genes into cells via physical, chemical or viral strategies. While these systems have all been effective in vitro they need to be optimized for individual cell types and, in particular, for in vivo transfection.

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Targeted replacement of normal and mutant CFTR sequences in human airway epithelial cells using DNA fragments

Goncz

Kunzelmann

et al. 1998

Human Molecular Genetics

112

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Recent studies have reported that mutant genomic cystic fibrosis (CF) transmembrane conductance regulator ( CFTR ) sequences can be corrected in transformed CF airway epithelial cell lines by targeted replacement with small fragments of DNA with wild-type sequence. To determine if the observed genotype modification following small fragment homologous replacement (SFHR) was limited to transformed CF cell lines, further studies were carried out in both transformed and non-transformed primary normal airway epithelial cells. The endogenous genotype of these normal cell lines was modified following liposome or dendrimer transfection using DNA fragments with DeltaF508 CFTR sequence (488 nt, complementary single strands) designed to also contain a unique restriction enzyme cleavage site (Xho I). Replacement at the appropriate genomic locus by exogenous DeltaF508 CFTR DNA and its expression as mRNA was demonstrated by PCR amplification of genomic DNA and mRNA-derived cDNA as well as Xho I digestion of the PCR products. These studies show that SFHR occurs in both transformed and non-transformed primary human airway epithelial cells and indicate that single base substitution (the silent mutation giving rise to the Xho I site) and deletion or insertion of at least three consecutive bases can be achieved in both normal and CF epithelial cells. Furthermore, these studies reiterate the potential of SFHR as a strategy for a number of gene targeting applications, such as site-specific mutagenesis, development of transgenic animals, development of isogenic cell lines and for gene therapy.

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Sequence-specific modification of genomic DNA by small DNA fragments

et al. 2003

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Small DNA fragments have been used to modify endogenous genomic DNA in both human and mouse cells. This strategy for sequence-specific modification or genomic editing, known as small-fragment homologous replacement (SFHR), has yet to be characterized in terms of its underlying mechanisms. Genotypic and phenotypic analyses following SFHR have shown specific modification of disease-causing genetic loci associated with cystic fibrosis, β-thalassemia, and Duchenne muscular dystrophy, suggesting that SFHR has potential as a therapeutic modality for the treatment of monogenic inherited disease.

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Kaarin K. Goncz

Limited Restoration of Cystic Fibrosis Lung EpitheliumIn Vivowith Adult Bone Marrow–derived Cells

Isolation of CF cell lines corrected at ΔF508-CFTR locus by SFHR-mediated targeting

Transfer and Expression of Foreign Genes in Mammalian Cells

Targeted replacement of normal and mutant CFTR sequences in human airway epithelial cells using DNA fragments

Sequence-specific modification of genomic DNA by small DNA fragments

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