Rhea-Beth Markowitz

BK virus (BKV) and JC virus (JCV) are present within the renal system of most adults. Reactivation may be linked to immunodeficiency, since many of the extant virus strains have been isolated from urine or kidney tissue of patients who were receiving immunosuppressive therapy or who had disorders of the immune system. To more critically evaluate the relationship between immunodeficiency and viruria, urine samples from individuals infected with human immunodeficiency virus (HIV) with various degrees of immunodeficiency were screened for the presence of viral DNA. JCV viruria occurred in 24%-27% of immunocompetent control subjects and was not increased with immunodeficiency. By contrast, there were both qualitative and quantitative changes in BKV viruria in immunodeficient subjects. The incidence of BKV viruria was increased, and some immunodeficient subjects shed BKV at levels up to 3000 times greater than levels shed by any of the nonimmunodeficient controls. DNA sequence rearrangements in the viral regulatory region did not appear to be required for shedding of virus, although they were present in approximately 20% of samples.

Twenty-three BK virus and JC virus DNA samples obtained from urine of pregnant women had almost exclusively archetypal transcriptional control regions. Rearrangements characteristic of laboratory strains are apparently not required for reactivation in humans. Unexpectedly, alignment shows that many elements identified previously in the BK virus enhancer are conserved in the JC virus archetype.

The human papovavirus BK has a noncoding regulatory region located between the divergently transcribed early and late coding regions. Many strains of BK virus (BKV) have direct DNA sequence repeats in the regulatory region, although the number and extent of these repeats varies widely between independent isolates. Until recently, little was known about the individual functional elements within the BKV regulatory region, and the biological significance of the variable repeat structure has been unclear. To characterize the interaction between sequences in the BKV regulatory region and host cell transcription factors, we have carried out DNase I footprinting and competitive binding experiments on three strains of BKV, including one strain that does not contain direct sequence repeats. We have used relatively crude fractions from HeLa cell nuclear extracts, as well as DNA affinity-purified preparations of proteins. Our results demonstrate that BK(Dunlop), BK(WW), and BK(MM) each contain multiple binding sites for a factor, NF-BK, that is a member of the nuclear factor 1 family of transcription factors. We predict the presence of three to eight binding sites for NF-BK in the other strains of BKV for which a DNA sequence is available. This suggests that the binding of this protein is likely to be required for biological activity of the virus. In addition to NF-BK sites, BK(WW) and BK(MM) each contain a single binding site for transcription factor Sp1, and BK(Dunlop) contains two binding sites for transcription factor AP-1. The AP-1 sites in BK(Dunlop) span the junction of adjacent direct repeats, suggesting that repeat formation may be an important mechanism for de novo formation of binding sites not present in a parental strain.

The human T-cell leukemia virus type I (HTLV-I) regulatory protein Tax activates transcription of the proviral long terminal repeats and a number of cellular promoters. We have developed an in vitro system to characterize the mechanism by which Tax interacts with the host cell transcription machinery. Tax was purified from cells infected with a baculovirus expression vector. Addition of these Tax preparations to nuclear extracts from uninfected human T lymphocytes activated transcription of the HTLV-I long terminal repeat approximately 10-fold. Transcription-stimulatory activity copurified with the immunoreactive 40-kDa Tax polypeptide on gel filtration chromatography, and, as expected, the effect of recombinant Tax was diminished in HTLV-I-infected T-lymphocyte extracts containing endogenous Tax. Tax-mediated transactivation in vivo has been previously shown to require 21-bp-repeat Tax-responsive elements (TxREs) in the promoter DNA. Stimulation of transcription in vitro was also strongly dependent on these sequences. To investigate the mechanism of Tax transactivation, cellular proteins that bind the 21-bp-repeat TxREs were prepared by DNA affinity chromatography. Recombinant Tax markedly increased the formation of a specific host protein-DNA complex detected in an electrophoretic mobility shift assay. These data suggest that Tax activates transcription through a direct interaction with cellular proteins that bind to the 21-bp-repeat TxREs.

The archetypal strain of BK virus directed very little early gene expression compared with rearranged laboratory strains of the virus. One laboratory strain that was analyzed in detail contained newly created AP-1 binding enhancer modules spanning the junction between adjacent sequence repeats. Introduction of these sequences into the archetype activated the previously quiescent early promoter.