Abstract
Tva is the receptor for subgroup A Rous sarcoma virus, and it contains a single LDL-A module which is the site of virus interaction. In this study, we expressed the entire extracellular region of Tva (referred to as Ecto-Tva) as a GST fusion protein and characterized its refolding properties. We demonstrated that the correct folding of the Ecto-Tva protein, like that of the Tva LDL-A module, is calcium dependent. We used the IAsys system to measure the kinetics of binding between the surface (SU) subunit of the viral glycoprotein and Tva in real time. We found that the Ecto-Tva protein and the Tva LDL-A module displayed similar affinities for SU, providing direct evidence that the LDL-A module of Tva is the only viral interaction domain of the receptor. Furthermore, misfolded Tva proteins displayed lower binding affinities to SU, largely due to a decrease in their association rates, suggesting that a high association rate between SU and Tva is crucial for efficient virus-host interaction. Furthermore, we found that calcium did not influence the overall binding affinity between Tva and SU. These results indicate that, although calcium is important in facilitating correct folding of the LDL-A module of Tva, it is not essential for ligand binding. Thus, these results may have broad implications for the mechanism of protein folding and ligand recognition of the LDL receptor and other members of the LDL receptor superfamily.
Highlights
The cellular receptor for subgroup A Rous sarcoma virus (RSV-A) is Tva, a small membrane-associated glycoprotein [2, 3, 34]
We found that the Ecto-Tva protein and the Tva LDL-A module displayed similar affinities for SU, providing direct evidence that the LDL-A module of Tva is the only viral interaction domain of the receptor
Because receptor-triggered conformational changes on the cognate viral glycoprotein as a prerequisite for membrane fusion and viral entry appear to be a common mechanism used by many enveloped viruses, and because the elucidation of the viral entry mechanism depends on an integrated approach of biochemical, structural, and functional analyses of these components, we believe that analysis of Tva/EnvA interactions can serve as a model for dissecting the entry mechanism(s) of a large number of enveloped viruses
Summary
The cellular receptor for subgroup A Rous sarcoma virus (RSV-A) is Tva, a small membrane-associated glycoprotein [2, 3, 34]. It has been demonstrated that the LDL-A module of Tva could efficiently mediate RSV-A entry when it was anchored to the membrane by a heterologous membrane-spanning domain [20]. This module of Tva could be functionally replaced by a modified human LDL-A4 module in mediating efficient RSV-A entry [21]. These results suggested that the LDL-A module of Tva is the viral interaction site. These results may have broad implications for LDLRligand interactions
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