Christine N. Zanghi scite author profile

Aims Bacteriophage vectors have potential as gene transfer and vaccine delivery vectors because of their low cost, safety and physical stability. However, little is known concerning phage-mediated gene transfer in mammalian hosts. We therefore performed experiments to examine phage-mediated gene transfer in vivo . Methods and Results Mice were inoculated with recombinant lambda phage containing a mammalian expression cassette encoding firefly luciferase (luc). Efficient, dose-dependent in vivo luc expression was detected, which peaked within 24 h of delivery and declined to undetectable levels within a week. Display of an integrin-binding peptide increased cellular internalization of phage in vitro and enhanced phage-mediated gene transfer in vivo . Finally, in vivo depletion of phagocytic cells using clodronate liposomes had only a minor effect on the efficiency of phage-mediated gene transfer. Conclusions Unmodified lambda phage particles are capable of transducing mammalian cells in vivo , and may be taken up – at least in part – by nonphagocytic mechanisms. Surface modifications that enhance phage uptake result in more efficient in vivo gene transfer. Significance and Impact of the Study These experiments shed light on the mechanisms involved in phage-mediated gene transfer in vivo , and suggest new approaches that may enhance the efficiency of this process.

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A simple method for displaying recalcitrant proteins on the surface of bacteriophage lambda

Zanghi

Lankes²,

Bradel-Tretheway³

et al. 2005

Nucleic Acids Research

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Bacteriophage lambda (λ) permits the display of many foreign peptides and proteins on the gpD major coat protein. However, some recombinant derivatives of gpD are incompatible with the assembly of stable phage particles. This presents a limitation to current λ display systems. Here we describe a novel, plasmid-based expression system in which gpD deficient λ lysogens can be co-complemented with both wild-type and recombinant forms of gpD. This dual expression system permits the generation of mosaic phage particles that contain otherwise recalcitrant recombinant gpD fusion proteins. Overall, this improved gpD display system is expected to permit the expression of a wide variety of peptides and proteins on the surface of bacteriophage λ and to facilitate the use of modified λ phage vectors in mammalian gene transfer applications.

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The Effective Concentration of Epsilon-Aminocaproic Acid for Inhibition of Fibrinolysis in Neonatal Plasma in Vitro

Yurka¹,

Wissler²,

Zanghi³

et al. 2010

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The Effective Concentration of Tranexamic Acid for Inhibition of Fibrinolysis in Neonatal Plasma In Vitro

Yee¹,

Wissler²,

Zanghi³

et al. 2013

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