Idiopathic Focal Segmental Glomerulosclerosis (FSGS) is a progressive and proteinuric kidney disease that starts with podocyte injury. Podocytes cover the external side of the glomerular capillary by a complex web of primary and secondary ramifications. Similar to dendritic spines of neuronal cells, podocyte processes rely on a dynamic actin-based cytoskeletal architecture to maintain shape and function. Brain Derived Neurotrophic Factor (BDNF) is a pleiotropic neurotrophin that binds to the tropomyosin-related kinase B receptor (TrkB) and has crucial roles in neuron maturation, survival, and activity. In neuronal cultures, exogenously added BDNF increases number and size of dendritic spines. In animal models, BDNF administration is beneficial in both central and peripheral nervous system disorders. Here we show that BDNF has a TrkB-dependent trophic activity on podocyte cell processes; by affecting microRNA-134 and microRNA-132 signaling, BDNF upregulates Limk1 translation and phosphorylation, and increases cofilin phosphorylation which results in actin polymerization. Importantly, BDNF effectively repairs podocyte damage "in vitro", and contrasts proteinuria and glomerular lesions in "in vivo" models of FSGS, opening a potential new perspective to the treatment of podocyte disorders.
BDNF repairs podocyte damage by microRNA-mediated increase of actin polymerization / M. Li, S. Armelloni, C. Zennaro, C. Wei, A. Corbelli, M. Ikehata, S. Berra, L. Giardino, D. Mattinzoli, S. Watanabe, C. Agostoni, A. Edefonti, J. Reiser, P. Messa, M.P. Rastaldi. - In: JOURNAL OF PATHOLOGY. - ISSN 0022-3417. - 235:5(2015 Apr), pp. 731-735. [10.1002/path.4484]
BDNF repairs podocyte damage by microRNA-mediated increase of actin polymerization
S. Berra;L. Giardino;C. Agostoni;P. Messa;
2015
Abstract
Idiopathic Focal Segmental Glomerulosclerosis (FSGS) is a progressive and proteinuric kidney disease that starts with podocyte injury. Podocytes cover the external side of the glomerular capillary by a complex web of primary and secondary ramifications. Similar to dendritic spines of neuronal cells, podocyte processes rely on a dynamic actin-based cytoskeletal architecture to maintain shape and function. Brain Derived Neurotrophic Factor (BDNF) is a pleiotropic neurotrophin that binds to the tropomyosin-related kinase B receptor (TrkB) and has crucial roles in neuron maturation, survival, and activity. In neuronal cultures, exogenously added BDNF increases number and size of dendritic spines. In animal models, BDNF administration is beneficial in both central and peripheral nervous system disorders. Here we show that BDNF has a TrkB-dependent trophic activity on podocyte cell processes; by affecting microRNA-134 and microRNA-132 signaling, BDNF upregulates Limk1 translation and phosphorylation, and increases cofilin phosphorylation which results in actin polymerization. Importantly, BDNF effectively repairs podocyte damage "in vitro", and contrasts proteinuria and glomerular lesions in "in vivo" models of FSGS, opening a potential new perspective to the treatment of podocyte disorders.
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