Abstract
Murine polyomavirus (Py) infection initiates by the recognition of cell membrane molecules containing terminal sialic acid (SA) residues through specific binding pockets formed at the major capsid protein VP1 surface. VP1 Pockets 1, 2, and 3 bind terminal SA, Gal, and second branched SA, respectively. The consequence of recognition on viral cell entry remains elusive. In this work, we show that preincubation of Py with soluble compounds within Pocket 1 (N-acetyl or N-glycolyl neuraminic acids) increases Py cell binding and infectivity in murine 3T6 fibroblasts. In contrast, Gal does not significantly alter Py binding nor infectivity, whereas sialyllactose, in Pockets 1 and 2, decreases cell binding and infectivity. Binding experiments with Py virus-like particles confirmed the direct involvement of VP1 in this effect. To determine whether such results could reflect VP1 conformational changes induced by SA binding, protease digestion assays were performed after pretreatment of Py or virus-like particles with soluble receptor fragments. Binding of SA with the VP1 Pocket 1, but not of compounds interacting with Pocket 2, was associated with a transition of this protein from a protease-sensitive to a protease-resistant state. This effect was transmitted to the minor capsid proteins VP2 and VP3 in virus particles. Attachment of Py to cell monolayers similarly led to a VP1 trypsin-resistant pattern. Taken together, these data present evidence that initial binding of Py to terminal SA induces conformational changes in the viral capsid, which may influence subsequent virus cell entry steps.
Highlights
The first phase of viral infection is determined by the interaction of virus particles with specific receptors on host cell membranes followed by subsequent cell penetration
The same experiments performed with Py Virus-like Particles (VLPs), constituted by auto-assembled VP1 protein, showed effects similar to those observed with the viral particles (Fig. 1), indicating that the effects of sugars on cell binding were attributable solely to interactions involving the major capsid protein VP1
These data indicate that the interaction of Py and VLPs, but not of Wheat germ agglutinin (WGA), with compounds accommodated within the VP1 binding Pocket 1, determines an increased cell binding ability
Summary
Polyomavirus; SA, sialic acid; VLP, virus-like particles; NANA, N-acetyl neuraminic acid; NGNA, N-glycolyl neuraminic acid; PBS, phosphate-buffered saline; SL, sialyllactose; WGA, wheat germ agglutinin; Ab, antibody; FACS, fluorescence-activated cell sorter. We demonstrated that Py cell binding can be restored in neuraminidase-treated fibroblast cells if the virus is first preincubated with soluble SA [13] Taken together, these data led us to hypothesize that the initial interaction of Py with SA moieties may induce an alteration of the capsid conformation, which is necessary for the recognition of post-binding cell receptors and subsequent cell penetration. Potential conformational changes of the viral capsid induced by receptor binding have been investigated by testing the sensitivity of capsid proteins to protease digestion
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