HIV-1 expression induces cyclin D(1) expression and pRb phosphorylation in infected podocytes: cell-cycle mechanisms contributing to the proliferative phenotype in HIV-associated nephropathy

BACKGROUND: The aberrant cell-cycle progression of HIV-1-infected kidney cells plays a major role in the pathogenesis of HIV-associated nephropathy, however the mechanisms whereby HIV-1 induces infected glomerular podocytes or infected tubular epithelium to exit quiescence are largely unknown. Here, we ask whether the expression of HIV-1 genes in infected podocytes induces cyclin D(1) and phospho-pRb (Ser780) expression, hallmarks of cyclin D1-mediated G(1) → S phase progression. RESULTS: We assessed cyclin D(1) and phospho-pRb (Ser780) expression in two well-characterized models of HIV-associated nephropathy pathogenesis: HIV-1 infection of cultured podocytes and HIV-1 transgenic mice (Tg26). Compared to controls, cultured podocytes expressing HIV-1 genes, and podocytes and tubular epithelium from hyperplastic nephrons in Tg26 kidneys, had increased levels of phospho-pRb (Ser780), a target of active cyclin D(1)/cyclin-dependent kinase-4/6 known to promote G(1) → S phase progression. HIV-1-infected podocytes showed markedly elevated cyclin D(1) mRNA and cyclin D(1) protein, the latter of which did not down-regulate during cell-cell contact or differentiation, suggesting post-transcriptional stabilization of cyclin D(1) protein levels by HIV-1. The selective suppression of HIV-1 transcription by the cyclin-dependent kinase inhibitor, flavopiridol, abrogated cyclin D(1) expression, underlying the requirement for HIV-1 encoded products to induce cyclin D(1). Indeed, HIV-1 virus deleted of nef failed to induce cyclin D(1) mRNA to the level of other single gene mutant viruses. CONCLUSIONS: HIV-1 expression induces cyclin D(1) and phospho-pRb (Ser780) expression in infected podocytes, suggesting that HIV-1 activates cyclin D1-dependent cell-cycle mechanisms to promote proliferation of infected renal epithelium.