Laura Bonneau scite author profile

Laura Bonneau

4Publications

63Citation Statements Received

0Citation Statements Given

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134

Affiliations

University of Vermont, Fred Hutch Cancer Center, University of Washington

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Use of Perfluorochemical Liquid Allows Earlier Detection of Gene Expression and Use of Less Vector in Normal Lung and Enhances Gene Expression in Acutely Injured Lung

2001

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One of the obstacles to successful lung gene transfer is effective delivery of vector to lung, particularly injured or diseased lung. We have previously demonstrated that intratracheal instillation of perfluorochemical (PFC) liquids along with instillation of recombinant adenovirus and adeno-associated virus vectors, or with cationic liposome vectors, increased total lung gene expression and enhanced distribution of gene expression throughout the lung. To further explore the potential benefits of PFC liquid use, we evaluated the effect of PFC liquid instillation on several other aspects of adenovirus-mediated gene expression in lung. Use of PFC liquid resulted in earlier detection of gene expression and allowed the use of less vector to achieve expression comparable to that observed with the use of higher amounts of vector alone. Using PFC liquid also enhanced gene expression in a rodent model of acute lung injury. PFC liquid did cause a transient inflammation when instilled into normal lungs but did not cause any additional inflammation when instilled alone or with adenovirus vector into acutely injured lungs. Thus, PFC liquid may be a useful adjunct for clinical lung gene transfer, particularly for injured or diseased lungs.

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Comparison of Surfactant and Perfluorochemical Liquid Enhanced Adenovirus-Mediated Gene Transfer in Normal Rat Lung

et al. 2002

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Both surfactant- and perfluorochemical (PFC)-based vehicles enhance adenovirus-mediated gene transfer in the lung. To compare the relative effects of surfactant and PFC liquid, we infected orotracheally intubated Sprague-Dawley rats with 4 x 10(9) pfu of an E1a(-)/E3(-) adenovirus expressing either an Escherichia coli lacZ (AdlacZ) mini-gene or no cDNA (Adnull). Surfactant-mediated delivery was achieved via instillation of four, 200-microl aliquots of virus suspended in a 50% surfactant (Survanta) vehicle over a 15-minute period. PFC rats received virus in 100 microl of saline followed by instillation of the PFC liquid FC-75 (10 cc/kg body weight) over a 2- to 3- minute period. Lungs were collected 3 days later for measurement of beta-galactosidase (beta-gal) expression and indices of inflammation. Both PFC liquid and surfactant-based vehicles produced widespread beta-gal expression and increased total beta-gal activity over that observed with instillation of vector alone. Both vehicles comparably increased bronchoalveolar lavage fluid (BALF), total cell counts, neutrophils, total protein, and IFN(gamma). FC-75 was also associated with increased BALF IL1beta. In conclusion, surfactant and FC-75 are similarly effective vehicles for adenovirus-mediated gene transfer to the lung.

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Perfluorochemical Liquid Enhances Adeno-Associated Virus-Mediated Transgene Expression in Lungs

et al. 2000

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Use of adeno-associated virus (AAV) vectors for lung gene therapy is limited, in part, by low levels of AAV-mediated transgene expression in lungs. Generally, less than 1% of total airway and alveolar epithelial cells express transgene activity following vector administration. A means of improving AAV vector delivery could potentially enhance AAV-mediated gene expression in lungs. We have previously demonstrated that use of perfluorochemical (PFC) liquids improved overall levels of adenovirus vector-mediated gene expression as well as distribution of expression in lungs of spontaneously breathing rodents. To evaluate whether use of PFC liquids might similarly enhance AAV-mediated expression, spontaneously breathing rodents received intratracheal instillation of the AAV vectors CWRAP and ARAP4 (2-5 x 10(8) FFU/animal) with or without 10 cc/kg body wt PFC liquid (FC-75, ACROS). Animals were sacrificed 4 weeks later and lungs assessed for overall and in situ alkaline phosphatase (AP) expression. Animals receiving vector alone exhibited scattered sparse in situ activity, predominantly in alveolar epithelium. In contrast, animals receiving vector with FC-75 exhibited increased and more widespread AP expression as well as up to a 26-fold increase in AP activity. These results demonstrate that use of the PFC liquid FC-75 improves overall and in situ AAV-mediated gene expression in rodent lungs.

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Transient increase in lung epithelial tight junction permeability: an additional mechanism for enhancement of lung transgene expression by perfluorochemical liquids

et al. 2003

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Intratracheal instillation of perfluorochemical (PFC) liquids enhances lung epithelial transgene expression by improved vector propulsion throughout lung airways. We now demonstrate that PFC liquids also facilitate gene transfer by increasing transepithelial permeability. Apical application of PFC liquid to well-differentiated human airway epithelial cells resulted in a transient decrease in transepithelial resistance peaking approximately 2 h after PFC liquid administration and returning to normal approximately 24 h later. The permeability change was sufficient to enhance access of apically applied 100-nm latex beads and adenoviral vectors to the basolateral side of the culture. Adenovirus-mediated gene expression was concurrently enhanced. Following intratracheal instillation of PFC liquid into mouse lungs, tight junction permeability, as assessed by electron microscopic evaluation of lanthanum deposition, was increased with peak effect between 6 h and 1 day after instillation. Importantly, alveolar-capillary permeability remained unchanged with the treatment. Administration of PFC liquid 6 h or 1 day, but not 3 days, prior to instillation of a recombinant adenovirus vector enhanced gene expression comparable to that observed with concurrent administration of PFC liquid and vector. We conclude that transient increase in epithelial permeability after PFC liquid administration contributes to the enhancement of adenovirus vector-mediated gene expression in lung epithelium.

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Laura Bonneau

Use of Perfluorochemical Liquid Allows Earlier Detection of Gene Expression and Use of Less Vector in Normal Lung and Enhances Gene Expression in Acutely Injured Lung

Comparison of Surfactant and Perfluorochemical Liquid Enhanced Adenovirus-Mediated Gene Transfer in Normal Rat Lung

Perfluorochemical Liquid Enhances Adeno-Associated Virus-Mediated Transgene Expression in Lungs

Transient increase in lung epithelial tight junction permeability: an additional mechanism for enhancement of lung transgene expression by perfluorochemical liquids

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