A hallmark of all herpesvirus is the ability to exist in either a latent, or lytic, state of replication, enabling the lifelong infection of its host. Kaposi's sarcoma (KS)-associated herpesvirus (KSHV) can efficiently establish a latent infection in a variety of cell types in vitro, making it a valuable model for the study of latency and reactivation. To facilitate the identification of KSHV lytic replication, and allow subsequent experiments with live cells, a recombinant virus, rKSHV.219, was constructed using JSC-1 cells that expresses the red fluorescent protein (RFP) from the KSHV lytic PAN promoter, the green fluorescent protein (GFP) from the EF-1alpha promoter, and with the gene for puromycin resistance as a selectable marker. rKSHV.219 from JSC-1 cells was used to infect Vero cells for purification of the recombinant virus. Vero cells were also used for the production of rKSHV.219 at levels of 10(5)-10(6) infectious units (IU) of virus per milliliter using a combination of KSHV/RTA expressed from a baculovirus vector, BacK50, and butyrate. Virus produced from Vero cells was used to infect human fibroblasts (HF), 293, DU145, T24, HaCaT, and HEp-2 cells, and in all cells except 293 cells, only a latent infection was established with GFP expression, but no RFP expression. In 293 cells, 10-15% of cells showed lytic gene expression. Both primary and immortalized microvascular endothelial cells (MVEC) were also infected with rKSHV.219, and reduced spontaneous lytic replication was found in immortalized cells. In all cells used in this study, rKSHV.219 efficiently established latent infections from which the virus could be reactivated to productive lytic replication. This work also demonstrated strong synergy between KSHV/RTA and butyrate for the activation of KSHV lytic replication and the production of infectious virus.
Human cytomegalovirus (HCMV) infection of smooth muscle cells (SMCs) in vivo has been linked to a viral etiology of vascular disease. In this report, we demonstrate that HCMV infection of primary arterial SMCs results in significant cellular migration. Ablation of the chemokine receptor, US28, abrogates SMC migration, which is rescued only by expression of the viral homolog and not a cellular G protein-coupled receptor (GPCR). Expression of US28 in the presence of CC chemokines including RANTES or MCP-1 was sufficient to promote SMC migration by both chemokinesis and chemotaxis, which was inhibited by protein tyrosine kinase inhibitors. US28-mediated SMC migration provides a molecular basis for the correlative evidence that links HCMV to the acceleration of vascular disease.
Human herpesvirus 8 (HHV-8) or Kaposi's sarcoma associated herpesvirus (KSHV) is associated with Kaposi's sarcoma and primary effusion lymphoma. In vivo, HHV-8 DNA and transcripts have been detected in B cells, endothelial cells, macrophages, and epithelial cells. HHV-8 infects a variety of cell lines of human and animal origin, leading to latent or abortive infection. This study shows that the broad cellular tropism of HHV-8 may be in part due to its interaction with the ubiquitous host cell surface molecule, heparan sulfate (HS). This conclusion is based on the following findings: (i) HHV-8 infection of human foreskin fibroblast (HFF) cells was inhibited in a dose-dependent manner by soluble heparin, a glycosaminoglycan closely related to HS. Chondroitin sulfates A and C did not inhibit HHV-8 infection. (ii) Enzymatic removal of HFF cell surface HS with heparinase I and III reduced HHV-8 infection. (iii) Soluble heparin inhibited the binding of radiolabeled HHV-8 to human B cell lines, embryonic kidney epithelial (293) cells, and HFF cells, suggesting interference at the virus attachment stage. (iv) Cell surface adsorbed HHV-8 was displaced by soluble heparin. (v) Radiolabeled HHV-8 also bound to wild-type HS expressing Chinese hamster ovary (CHO-K1) cells. In contrast, binding of virus to mutant CHO cells deficient in HS was significantly reduced. These data show that the gamma2 herpesvirus HHV-8, similar to some members of alpha, beta, and gamma2 herpesviruses, adsorbs to cells by binding to cell surface HS-like moieties. Heparin did not completely prevent the binding and infectivity of HHV-8, suggesting that HHV-8 interactions with HS could be the first set of ligand-receptor interaction leading to the binding with one or more host cell receptors essential for the subsequent viral entry process.
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