Abstract
One of the important questions in the field of virus research is about the balance between latent and lytic cycles of replication. Kaposi's sarcoma-associated herpesvirus (KSHV) remains predominantly in a latent state, with only 1-3% of cells supporting a lytic replication at any time. KSHV glycoprotein B (gB) is expressed not only on the virus envelope but also on the surfaces of the few cells supporting lytic replication. Using co-culture experiments, we determined that expression of KSHV gB on as few as 1-2% of human dermal microvascular endothelial cells resulted in a 10-fold inhibition of expression of ORF50, a viral gene critical for the onset of lytic replication. Also, we demonstrate that such a profound inhibitory effect of gB on the lytic cycle of virus replication is by repressing the ability of Egr-1 (early growth response-1) to bind and activate the ORF50 promoter. In general, virus-encoded late stage structural proteins, such as gB, are said to play major roles in virus entry and egress. The present report provides initial evidence supporting a role for membrane-associated gB expressed in a minimal number of cells to promote virus latency. These findings may have ramifications leading to a better understanding of the role of virus-encoded structural proteins not only in KSHV-related diseases but also in other viruses causing latent infections.
Highlights
Earlier studies have reported the ability of inflammatory cytokines and virus-encoded K1 and virus-encoded G protein-coupled receptor to inhibit lytic replication of Kaposi’s sarcoma-associated herpesvirus (KSHV) [3,4,5,6]
We demonstrate that KSHV glycoprotein B, one of the essential glycoproteins [7], is involved
In all (Figs. 1 and 2), these results demonstrate a direct link between the expression of egr-1 and ORF50 transcription and a possible role for KSHV glycoprotein B (gB) to prolong the onset of a lytic infection by blocking egr-1 and ORF50 expression
Summary
Earlier studies have reported the ability of inflammatory cytokines and virus-encoded K1 and virus-encoded G protein-coupled receptor to inhibit lytic replication of KSHV [3,4,5,6]. KSHV gB Expressed on a Minimal Number of Cells Is Sufficient to Regulate ORF50 and Egr-1 Expression—In order to test the ability of gB to promote virus latency under conditions similar to what may be observed in KS lesions, we developed an assay based on co-culturing cells. The results from using effector cells transfected with either empty vector (pCDNA) (Fig. 3B) or gL/pCDNA (data not shown) were comparable with the control (KSHV-infected target cells).
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