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      Synaptopodin Limits TRPC6 Podocyte Surface Expression and Attenuates Proteinuria

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          Abstract

          Gain-of-function mutations of classic transient receptor potential channel 6 (TRPC6) were identified in familial FSGS, and increased expression of wild-type TRPC6 in glomeruli is observed in several human acquired proteinuric diseases. Synaptopodin, an actin binding protein that is important in maintaining podocyte function, is downregulated in various glomerular diseases. Here, we investigated whether synaptopodin maintains podocyte function by regulating podocyte surface expression and activity of TRPC6. We show indirect interaction and nonrandom association of synaptopodin and TRPC6 in podocytes. Knockdown of synaptopodin in cultured mouse podocytes increased the expression of TRPC6 at the plasma membrane, whereas overexpression of synaptopodin decreased it. Mechanistically, synaptopodin-dependent TRPC6 surface expression required functional actin and microtubule cytoskeletons. Overexpression of wild-type or FSGS-inducing mutant TRPC6 in synaptopodin-depleted podocytes enhanced TRPC6-mediated calcium influx and induced apoptosis. In vivo, knockdown of synaptopodin also caused increased podocyte surface expression of TRPC6. Administration of cyclosporin A, which stabilizes synaptopodin, reduced LPS-induced proteinuria significantly in wild-type mice but to a lesser extent in TRPC6 knockout mice. Furthermore, administration of cyclosporin A reversed the LPS-induced increase in podocyte surface expression of TRPC6 in wild-type mice. Our findings suggest that alteration in synaptopodin levels under disease conditions may modify intracellular TRPC6 channel localization and activity, which further contribute to podocyte dysfunction. Reducing TRPC6 surface levels may be a new approach to restoring podocyte function.

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          Involvement of Rab9 and Rab11 in the intracellular trafficking of TRPC6.

          TRPC proteins become involved in Ca2+ entry following the activation of Gq-protein coupled receptors. TRPC6 is inserted into the plasma membrane upon stimulation and remains in the plasma membrane as long as the stimulus is present. However, the mechanism that regulates the trafficking of TRPC6 is unclear. In the present study, we highlighted the involvement of two Rab GTPases in the trafficking of TRPC6. Rab9 co-localized in vesicular structures with TRPC6 in HeLa cells and co-immunoprecipitated with TRPC6. When co-expressed with TRPC6, Rab9(S21N), a dominant negative mutant, caused an increase in the level of TRPC6 at the plasma membrane and in TRPC6-mediated Ca2+ entry upon activation by a muscarinic receptor agonist. Similarly, the expression of Rab11 also caused an increase in TRPC6 expression at the cell surface and an increase in TRPC6-mediated Ca2+ entry. The co-expression of TRPC6 with the dominant negative mutant Rab11(S25N) abolished CCh-induced TRPC6 activation and reduced the level of TRPC6 at the plasma membrane. This study demonstrates that the trans-Golgi network and recycling endosomes are involved in the intracellular trafficking of TRPC6 by regulating channel density at the cell surface.
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            Author and article information

            Journal
            Journal of the American Society of Nephrology
            JASN
            American Society of Nephrology (ASN)
            1046-6673
            1533-3450
            October 31 2016
            November 2016
            November 2016
            March 28 2016
            : 27
            : 11
            : 3308-3319
            Article
            10.1681/ASN.2015080896
            5084886
            27020855
            d3e8bac5-94fd-4824-be3c-87000a2da314
            © 2016
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