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  • Title: Glucocorticoids protect and enhance recovery of cultured murine podocytes via actin filament stabilization.
    Author: Ransom RF, Lam NG, Hallett MA, Atkinson SJ, Smoyer WE.
    Journal: Kidney Int; 2005 Dec; 68(6):2473-83. PubMed ID: 16316324.
    Abstract:
    BACKGROUND: Nephrotic syndrome is a common kidney disease in both children and adults that is characterized by dramatic structural changes in the actin-rich foot processes of glomerular podocytes. Although glucocorticoids are the primary treatment for nephrotic syndrome, neither the target cell nor mechanism of action of glucocorticoids in nephrotic syndrome is known. For the last 30 years glucocorticoids have been presumed to act by reducing the release of soluble mediators of disease by circulating lymphocytes. In contrast, we hypothesized that glucocorticoids exert their beneficial effects in nephrotic syndrome by direct action on podocytes. METHODS: Cultured murine podocytes were treated with glucocorticoids in the presence and absence of mifepristone (to inhibit glucocorticoid-induced transcriptional activation) and challenged using our previously reported in vitro model of puromycin aminonucleoside (PAN)-induced podocyte injury, as well as by direct disruption of actin filaments with latrunculin and cytochalasin. Cell viability, actin filament distribution, total polymerized actin content, and actin-regulating guanine triphosphatase (GTPase) activities were measured. RESULTS: We demonstrated that treatment of cultured murine podocytes with the glucocorticoid dexamethasone both protected and enhanced recovery from PAN-induced injury. Dexamethasone also increased total cellular polymerized actin, stabilized actin filaments against disruption by PAN, latrunculin, or cytochalasin, and induced a significant increase in the activity of the actin-regulating GTPase RhoA. CONCLUSION: These data suggest that, contrary to the current therapeutic paradigm, the beneficial effects of glucocorticoids in nephrotic syndrome may result, at least in part, from direct effects on podocytes leading to enhanced actin filament stability.
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