The Maturation of Murine Dendritic Cells Induced by Human Adenovirus Is Mediated by the Fiber Knob Domain

Valérie Molinier-Frenkel,Armelle Prévost-Blondel,Saw-See Hong,Renée Lengagne,Sarah Boudaly,Maria K Magnusson,Pierre Boulanger,Jean-Gérard Guillet

doi:10.1074/jbc.m303496200

Abstract

We investigated the mechanism of adenovirus serotype 5 (Ad5)-mediated maturation of bone marrow-derived murine dendritic cells (DC) using (i) Ad5 vectors with wild-type capsid (AdE1 degrees, AdGFP); (ii) Ad5 vector mutant deleted of the fiber C-terminal knob domain (AdGFPDeltaknob); and (iii) capsid components isolated from Ad5-infected cells or expressed as recombinant proteins, hexon, penton, penton base, full-length fiber, fiber knob, and fiber mutants. We found that penton capsomer (penton base linked to its fiber projection), full-length fiber protein, and its isolated knob domain were all capable of inducing DC maturation, whereas no significant DC maturation was observed for hexon or penton base alone. This capacity was severely reduced for AdGFPDeltaknob and for fiber protein deletion mutants lacking the beta-stranded region F of the knob (residues Leu-485-Thr-486). The DC maturation effect was fully retained in a recombinant fiber protein deleted of the HI loop (FiDeltaHI), a fiber (Fi) deletion mutant that failed to trimerize, suggesting that the fiber knob-mediated DC activation did not depend on the integrity of the HI loop and on the trimeric status of the fiber. Interestingly, peptide-pulsed DC that had been stimulated with Ad5 knob protein induced a potent CD8+ T cell response in vivo.

Highlights

We investigated the mechanism of adenovirus serotype 5 (Ad5)-mediated maturation of bone marrow-derived murine dendritic cells (DC) using (i) Ad5 vectors with wildtype capsid (AdE1°, AdGFP); (ii) Ad5 vector mutant deleted of the fiber C-terminal knob domain (AdGFP⌬knob); and (iii) capsid components isolated from Ad5-infected cells or expressed as recombinant proteins, hexon, penton, penton base, full-length fiber, fiber knob, and fiber mutants
We found that penton capsomer, full-length fiber protein, and its isolated knob domain were all capable of inducing DC maturation, whereas no significant DC maturation was observed for hexon or penton base alone
The results indicated that isolated Fi protein reproduced the entire stimulatory effect of Pn, whereas penton base (Pb) protein alone showed no detectable effect on DC maturation (Fig. 2b)

Summary

Introduction

We investigated the mechanism of adenovirus serotype 5 (Ad5)-mediated maturation of bone marrow-derived murine dendritic cells (DC) using (i) Ad5 vectors with wildtype capsid (AdE1°, AdGFP); (ii) Ad5 vector mutant deleted of the fiber C-terminal knob domain (AdGFP⌬knob); and (iii) capsid components isolated from Ad5-infected cells or expressed as recombinant proteins, hexon, penton, penton base, full-length fiber, fiber knob, and fiber mutants. We found that penton capsomer (penton base linked to its fiber projection), full-length fiber protein, and its isolated knob domain were all capable of inducing DC maturation, whereas no significant DC maturation was observed for hexon or penton base alone. Experimental data obtained with deletion mutants of recombinant fiber protein mapped this function to region F, one of the 10 ␤-stranded regions defined by crystallographic analysis of the knob

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Conclusion