1. The antiviral cytokines IFN-α and IFN-β modulate parietal epithelial cells and promote podocyte loss: implications for IFN toxicity, viral glomerulonephritis, and glomerular regeneration
- Author
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Adriana, Migliorini, Maria L, Angelotti, Shrikant R, Mulay, Onkar O, Kulkarni, Jana, Demleitner, Alexander, Dietrich, Costanza, Sagrinati, Lara, Ballerini, Anna, Peired, Stuart J, Shankland, Helen, Liapis, Paola, Romagnani, and Hans-Joachim, Anders
- Subjects
Cell Death ,Cell Survival ,Podocytes ,Kidney Glomerulus ,Interferon-alpha ,Cell Differentiation ,Epithelial Cells ,HIV Infections ,Interferon-beta ,Mice, SCID ,Antiviral Agents ,Mice ,Glomerulonephritis ,Cell Movement ,Doxorubicin ,Animals ,Humans ,Regeneration ,Female ,Cells, Cultured ,Cell Proliferation - Abstract
Interferon (IFN)-α and IFN-β are the central regulators of antiviral immunity but little is known about their roles in viral glomerulonephritis (eg, HIV nephropathy). We hypothesized that IFN-α and IFN-β would trigger local inflammation and podocyte loss. We found that both IFNs consistently activated human and mouse podocytes and parietal epithelial cells to express numerous IFN-stimulated genes. However, only IFN-β significantly induced podocyte death and increased the permeability of podocyte monolayers. In contrast, only IFN-α caused cell-cycle arrest and inhibited the migration of parietal epithelial cells. Both IFNs suppressed renal progenitor differentiation into mature podocytes. In Adriamycin nephropathy, injections with either IFN-α or IFN-β aggravated proteinuria, macrophage influx, and glomerulosclerosis. A detailed analysis showed that only IFN-β induced podocyte mitosis. This did not, however, lead to proliferation, but was associated with podocyte loss via podocyte detachment and/or mitotic podocyte death (mitotic catastrophe). We did not detect TUNEL-positive podocytes. Thus, IFN-α and IFN-β have both common and differential effects on podocytes and parietal epithelial cells, which together promote glomerulosclerosis by enhancing podocyte loss while suppressing podocyte regeneration from local progenitors.
- Published
- 2012