Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
3424827 | Virology | 2010 | 8 Pages |
Adenovirus disrupts endosomal membranes during cell entry. The membrane lytic capsid protein VI (pVI) facilitates entry by fragmenting membranes. Although an N-terminal amphipathic α-helix (VI-Φ) possesses similar membrane affinity as pVI, truncated protein lacking VI-Φ (VIΔ54) still possesses moderate membrane affinity. We demonstrate that incorporation of nickel–NTA lipids in membranes enhances the membrane affinity and the membrane lytic activity of VIΔ54. We also demonstrate that 3 predicted pVI α-helices within residues 54–114 associate with membranes, sitting roughly parallel to the membrane surface. His-tagged VIΔ54 is capable of fragmenting membranes similar to pVI and the VI-Φ peptide. Interestingly, neither VI-Φ nor His-tagged VIΔ54 can induce tubule formation in giant lipid vesicles as observed for pVI. These data suggest cooperativity between the amphipathic α-helix and residues in VIΔ54 to induce positive membrane curvature and tubule formation. These results provide additional details regarding the mechanism of nonenveloped virus membrane penetration.