Sari P. Kukkonen scite author profile

Baculoviruses are enveloped insect viruses that can carry large quantities of foreign DNA in their genome. Baculoviruses have proved to be very promising gene therapy vectors but little is known about their transduction mechanisms in mammalian cells. We show in this study that Autographa californica multiple nuclear polyhedrosis virus capsid is compatible with the incorporation of desired proteins in large quantities. Fusions can be made to the N-terminus or C-terminus of the major capsid protein vp39 without compromising the viral titer or functionality. As an example of the baculovirus capsid display we show a tracking of the baculovirus transduction in mammalian cells by an enhanced green fluorescent protein (EGFP)-displaying virus. Our confocal and electron microscopy results suggest that the transduction block in mammalian cells is not in the endosomal escape, as previously proposed, but rather in the cytoplasmic transport or nuclear entry of the virus capsid. Our results also suggest that the EGFP-tagged virus can be used for visualization of the virus biodistribution in vivo. Furthermore, capsid-modified baculoviruses hold great promise for the nuclear and subcellular targeting of transgenes and as a novel peptide display system for a variety of eukaryotic applications.

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Clathrin-Independent Entry of Baculovirus Triggers Uptake of E. coli in Non-Phagocytic Human Cells

Laakkonen

Mäkelä

Kakkonen

et al. 2009

PLoS ONE

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The prototype baculovirus, Autographa californica multiple nucleopolyhedrovirus, an insect pathogen, holds great potential as a gene therapy vector. To develop transductional targeting and gene delivery by baculovirus, we focused on characterizing the nature and regulation of its uptake in human cancer cells. Baculovirus entered the cells along fluid-phase markers from the raft areas into smooth-surfaced vesicles devoid of clathrin. Notably, regulators associated with macropinocytosis, namely EIPA, Pak1, Rab34, and Rac1, had no significant effect on viral transduction, and the virus did not induce fluid-phase uptake. The internalization and nuclear uptake was, however, affected by mutants of RhoA, and of Arf6, a regulator of clathrin-independent entry. Furthermore, the entry of baculovirus induced ruffle formation and triggered the uptake of fluorescent E. coli bioparticles. To conclude, baculovirus enters human cells via a clathrin-independent pathway, which is able to trigger bacterial uptake. This study increases our understanding of virus entry strategies and gives new insight into baculovirus-mediated gene delivery in human cells.

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Improvement in Nuclear Entry and Transgene Expression of Baculoviruses by Disintegration of Microtubules in Human Hepatocytes

Salminen

Airenne

Rinnankoski

et al. 2005

J Virol

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Culture medium induced vimentin reorganization associates with enhanced baculovirus-mediated gene delivery

Makkonen

Laakkonen

Ihalainen

et al. 2010

Journal of Biotechnology

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Sari P. Kukkonen

Baculovirus capsid display: a novel tool for transduction imaging

Clathrin-Independent Entry of Baculovirus Triggers Uptake of E. coli in Non-Phagocytic Human Cells

Improvement in Nuclear Entry and Transgene Expression of Baculoviruses by Disintegration of Microtubules in Human Hepatocytes

Culture medium induced vimentin reorganization associates with enhanced baculovirus-mediated gene delivery

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