Efficient Infection Mediated by Viral Receptors Incorporated into Retroviral Particles

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American Society for Microbiology

RESUMO

Many host cell surface proteins, including viral receptors, are incorporated into enveloped viruses. To address the functional significance of these host proteins, murine leukemia viruses containing the cellular receptors for Rous sarcoma virus (Tva) or ecotropic murine leukemia virus (MCAT-1) were produced. These receptor-pseudotyped viruses efficiently infect cells expressing the cognate viral envelope glycoproteins, with titers of up to 105 infectious units per milliliter for the Tva pseudotypes. Receptor and viral glycoprotein specificity and functional requirements are maintained, suggesting that receptor pseudotype infection recapitulates events of normal viral entry. The ability of the Tva and MCAT-1 pseudotypes to infect cells efficiently suggests that, in contrast to human immunodeficiency virus type 1 entry, neither of these retroviral receptors requires a coreceptor for membrane fusion. In addition, the ability of receptor pseudotypes to target infected cells suggests that they may be useful therapeutic reagents for directing infection of viral vectors. Receptor-pseudotyped viruses may be useful for identifying new viral receptors or for defining functional requirements of known receptors. Moreover, this work suggests that the production of receptor pseudotypes in vivo could provide a mechanism for expanded viral tropism with potential effects on the pathogenesis and evolution of the virus.

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