5 research outputs found

    The human polyomavirus, JCV, uses serotonin receptors to infect cells

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    The human polyomavirus, JCV, causes the fatal demyelinating disease progressive multifocal leukoencephalopathy in immunocompromised patients. We found that the serotonergic receptor 5HT2AR could act as the cellular receptor for JCV on human glial cells. The 5HT2Areceptor antagonists inhibited JCV infection, and monoclonal antibodies directed at 5HT2Areceptors blocked infection of glial cells by JCV, but not by SV40. Transfection of 5HT2Areceptor–negative HeLa cells with a 5HT2A receptor rescued virus infection, and this infection was blocked by antibody to the 5HT2A receptor. A tagged 5HT2A receptor colocalized with labeled JCV in an endosomal compartment following internalization. Serotonin receptor antagonists may thus be useful in the treatment of progressive multifocal leukoencephalopathy

    Involvement of Cytoskeletal Components in BK Virus Infectious Entry

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    Posttransplant reactivation of BK virus (BKV) in the renal allograft progresses to polyomavirus-associated nephropathy in 1% to 8% of kidney recipients. Graft dysfunction and loss in 30% to 45% of polyomavirus-associated nephropathy-affected patients are secondary to extensive tubular epithelial cell injury induced by the lytic replication of BKV. The early events in productive BKV infection are not thoroughly understood. We have previously shown that BKV enters cells by caveola-mediated endocytosis. In this report we examine the role of microfilaments and microtubules during early viral infection. Our results show that BKV infection of Vero cells is sensitive to nocodazole-induced disassembly of the microtubule network for the initial 8 hours following virus binding. In contrast, suppression of microtubule turnover with the stabilizing agent paclitaxel has no effect on BKV infectivity. Selective disassembly of the actin filaments with latrunculin A does not impede BKV infection, while inhibition of microfilament dynamics with jasplakinolide results in reduced numbers of viral antigen-positive cells. These data demonstrate that BKV, like other polyomaviruses, relies on an intact microtubule network during early infection. BKV, however, does not share the requirement with the closely related JC virus for an intact actin cytoskeleton during intracellular transport

    Infection of Vero Cells by BK Virus Is Dependent on Caveolae

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    Polyomavirus-associated nephropathy occurs in ∼5% of renal transplant recipients and results in loss of graft function in 50 to 70% of these patients. The disease is caused by reactivation of the common human polyomavirus BK (BKV) in the transplanted kidney. The early events in productive BKV infection are unknown. In this report, we focus on elucidating the mechanisms of BKV internalization in its target cell. Our data reveal that BKV entry into permissive Vero cells is slow, is independent of clathrin-coated-pit assembly, is dependent on an intact caveolin-1 scaffolding domain, is sensitive to tyrosine kinase inhibition, and requires cholesterol. BKV colocalizes with the caveola-mediated endocytic marker cholera toxin subunit B but not with the clathrin-dependent endocytic marker transferrin. In addition, BKV infectious entry is sensitive to elevation in intracellular pH. These findings indicate that BKV entry into Vero cells occurs by caveola-mediated endocytosis involving a pH-dependent step

    An N-Linked Glycoprotein with α(2,3)-Linked Sialic Acid Is a Receptor for BK Virus

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    BK virus (BKV) is a common human polyomavirus infecting >80% of the population worldwide. Infection with BKV is asymptomatic, but reactivation in renal transplant recipients can lead to polyomavirus-associated nephropathy. In this report, we show that enzymatic removal of α(2,3)-linked sialic acid from cells inhibited BKV infection. Reconstitution of asialo cells with α(2,3)-specific sialyltransferase restored susceptibility to infection. Inhibition of N-linked glycosylation with tunicamycin reduced infection, but inhibition of O-linked glycosylation did not. An O-linked-specific α(2,3)-sialyltransferase was unable to restore infection in asialo cells. Taken together, these data indicate that an N-linked glycoprotein containing α(2,3)-linked sialic acid is a critical component of the cellular receptor for BKV
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