Progressive multifocal leucoencephalopathy in an immunocompetent patient with favourable outcome. A case report.

BACKGROUND: To report the clinical course of PML in an apparently immunocompetent patient treated with cidofovir. CASE PRESENTATION: A 35-year-old immunocompetent man who developed progressive hemianopsia, aphasia, and limb weakness underwent repeated MRI scans of the brain, spinal fluid analyses, and brain biopsy. Before diagnosis was established based on brain biopsy, he was consecutively treated with methylprednisolone, acyclovir, ceftriaxone and plasmapheresis, but he deteriorated rapidly suggestive of the immune reconstitution inflammatory syndrome (IRIS). He started to recover two weeks after the initiation of treatment with cidofovir and has had no relapse at 3 1/2 years of follow-up. MRI has shown marked improvement. CONCLUSIONS: PML should be considered in immunocompetent patients with a typical clinical course and MRI findings compatible with PML. Treatment with cidofovir should be considered as early as possible in the disease course.

The polyomavirus BK agnoprotein co-localizes with lipid droplets.

Agnoprotein encoded by human polyomavirus BK (BKV) is a late cytoplasmic protein of 66 amino acids (aa) of unknown function. Immunofluorescence microscopy revealed a fine granular and a vesicular distribution in donut-like structures. Using BKV(Dunlop)-infected or agnoprotein-transfected cells, we investigated agnoprotein co-localization with subcellular structures. We found that agnoprotein co-localizes with lipid droplets (LD) in primary human renal tubular epithelial cells as well as in other cells supporting BKV replication in vitro (UTA, Vero cells). Using agnoprotein-enhanced green fluorescent protein (EGFP) fusion constructs, we demonstrate that agnoprotein aa 20-42 are required for targeting LD, whereas aa 1-20 or aa 42-66 were not. Agnoprotein aa 22-40 are predicted to form an amphipathic helix, and mutations A25D and F39E, disrupting its hydrophobic domain, prevented LD targeting. However, changing the phosphorylation site serine-11 to alanine or aspartic acid did not alter LD co-localization. Our findings provide new clues to unravel agnoprotein function.

Leflunomide inhibition of BK virus replication in renal tubular epithelial cells.

The immunomodulatory drug leflunomide is frequently used for treating polyomavirus-associated nephropathy, yet its antiviral mechanism is unclear. We characterized the effects of the active leflunomide metabolite A771726 (LEF-A) on the polyomavirus BK (BKV) life cycle in human renal tubular epithelial cells. LEF-A at 10 microg/ml reduced the extracellular BKV load by 90% (IC(90)) but with significant host cytostatic effects. BKV genome replication, late protein expression, and virion assembly and release were inhibited with visible disruption of the nuclear replication architecture. Both host cell and antiviral effects were largely reversed by uridine addition, implicating nonspecific pyrimidine depletion as the major anti-BKV mechanism of leflunomide.

Polyomavirus BK with rearranged noncoding control region emerge in vivo in renal transplant patients and increase viral replication and cytopathology.

Immunosuppression is required for BK viremia and polyomavirus BK-associated nephropathy (PVAN) in kidney transplants (KTs), but the role of viral determinants is unclear. We examined BKV noncoding control regions (NCCR), which coordinate viral gene expression and replication. In 286 day-matched plasma and urine samples from 129 KT patients with BKV viremia, including 70 with PVAN, the majority of viruses contained archetypal (ww-) NCCRs. However, rearranged (rr-) NCCRs were more frequent in plasma than in urine samples (22 vs. 4%; P < 0.001), and were associated with 20-fold higher plasma BKV loads (2.0 x 10(4)/ml vs. 4.4 x 10(5)/ml; P < 0.001). Emergence of rr-NCCR in plasma correlated with duration and peak BKV load (R(2) = 0.64; P < 0.001). This was confirmed in a prospective cohort of 733 plasma samples from 227 patients. For 39 PVAN patients with available biopsies, rr-NCCRs were associated with more extensive viral replication and inflammation. Cloning of 10 rr-NCCRs revealed diverse duplications or deletions in different NCCR subregions, but all were sufficient to increase early gene expression, replication capacity, and cytopathology of recombinant BKV in vitro. Thus, rr-NCCR BKV emergence in plasma is linked to increased replication capacity and disease in KTs.

Impact of a polyomavirus (BKV) infection on mRNA expression in human endothelial cells.

Polyomavirus BK-associated nephropathy (PVAN) is an emerging cause of early renal transplant failure. In order to learn more about the cellular response to BK virus, microarrays were used to study its effect on mRNA expression in human endothelial cells. The oligo-based, 35k arrays used cover the predicted 25,000 human protein-expressing genes, and distinguish between a number of alternatively spliced mRNAs. Four parallel experiments were performed for each of two time-points (24 and 40 h) during the first round of the 48 h viral replicative cycle. Immunoperoxidase staining demonstrated that the pulse exposure to virus caused infection in at least 75% of the cells. At 24 h, 55 genes were more than doubly up-regulated and 249 genes were similarly down-regulated; at 40 h, the numbers were 242 and 104, respectively. Gene ontology analyses suggested that immune/defence response genes were selectively down-regulated. Genes involved in cell division and DNA replication tended to be up-regulated, which may reflect an attempt on behalf of the virus to promote viral replication. Genes associated with PVAN were not induced, suggesting that these genes are not required for viral replication, but rather reflect circumstances specific for the disease. Only a few immuno-related genes were turned on, including the interferon response genes G1P2 and IFIT3. However, some of the up-regulated genes of unknown function may be involved in viral defence.

Genetic variability in BK Virus regulatory regions in urine and kidney biopsies from renal-transplant patients.

The human Polyomavirus BK (BKV) contains a hypervariable non-coding control region (NCCR), which regulates DNA replication and RNA transcription. The aim of this study was to characterize BKV NCCR-variants in kidney biopsies and urine samples from renal-transplant patients and to see whether there is any association between NCCR variability and BKV-nephropathy. Kidney biopsies and urine samples were examined from 11 patients with elevated serum creatinine and >5,000 genomic BKV copies per ml of urine. BKV-nephropathy was diagnosed in seven patients. Using PCR, BKV NCCR was amplified from urine from all BKV-nephropathy patients. The dominant NCCR corresponded to the archetype (WWT). In addition, a total of 14 non-archetype NCCR-variants were detected. Thirteen of these NCCR-variants were found in urine from one single BKV-nephropathy patient also suffering from hepatitis C. The NCCR of BKV was amplified from kidney biopsies of six BKV-nephropathy patients. Three patients demonstrated WWT NCCR, while three other patients harbored rearranged NCCR variants. The WWT NCCR was also detected in urine from control patients, except for one patient who harbored two non-archetypal NCCR variants. However, these variants were not resulting from complex rearrangements but instead had a linear NCCR anatomy with deletion(s) in the P-block. No BKV DNA was detected in biopsies from control patients. The results indicate that rearranged BKV NCCR is associated with BKV-nephropathy.