TY - JOUR
T1 - Contribution of coiled-coil assembly to ca2+/ calmodulin-dependent inactivation of TRPC6 channel and its impacts on FSGS-associated phenotypes
AU - Polat, Onur K.
AU - Uno, Masatoshi
AU - Maruyama, Terukazu
AU - Tran, Ha Nam
AU - Imamura, Kayo
AU - Wong, Chee Fah
AU - Sakaguchi, Reiko
AU - Ariyoshi, Mariko
AU - Itsuki, Kyohei
AU - Ichikawa, Jun
AU - Morii, Takashi
AU - Shirakawa, Masahiro
AU - Inoue, Ryuji
AU - Asanuma, Katsuhiko
AU - Reiser, Jochen
AU - Tochio, Hidehito
AU - Mori, Yasuo
AU - Mori, Masayuki X.
N1 - Publisher Copyright:
© 2019 by the American Society of Nephrology.
PY - 2019/9
Y1 - 2019/9
N2 - Background TRPC6 is a nonselective cation channel, and mutations of this gene are associated with FSGS. These mutations are associated with TRPC6 current amplitude amplification and/or delay of the channel inactivation (gain-of-function phenotype). However, the mechanism of the gain-of-function in TRPC6 activity has not yet been clearly solved. Methods We performed electrophysiologic, biochemical, and biophysical experiments to elucidate the molecular mechanism underlying calmodulin (CaM)-mediated Ca2+-dependent inactivation (CDI) of TRPC6. To address the pathophysiologic contribution of CDI, we assessed the actin filament organization in cultured mouse podocytes. Results Both lobes of CaM helped induce CDI. Moreover, CaM binding to the TRPC6 CaM-binding domain (CBD) was Ca2+-dependent and exhibited a 1:2 (CaM/CBD) stoichiometry. The TRPC6 coiled-coil assembly, which brought two CBDs into adequate proximity, was essential for CDI. Deletion of the coiled-coil slowed CDI of TRPC6, indicating that the coiled-coil assembly configures both lobes of CaM binding on two CBDs to induce normal CDI. The FSGS-associated TRPC6 mutations within the coiled-coil severely delayed CDI and often increased TRPC6 current amplitudes. In cultured mouse podocytes, FSGS-associated channels and CaM mutations led to sustained Ca2+ elevations and a disorganized cytoskeleton. Conclusions The gain-of-function mechanism found in FSGS-causing mutations in TRPC6 can be explained by impairments of the CDI, caused by disruptions of TRPC’s coiled-coil assembly which is essential for CaM binding. The resulting excess Ca2+ may contribute to structural damage in the podocytes.
AB - Background TRPC6 is a nonselective cation channel, and mutations of this gene are associated with FSGS. These mutations are associated with TRPC6 current amplitude amplification and/or delay of the channel inactivation (gain-of-function phenotype). However, the mechanism of the gain-of-function in TRPC6 activity has not yet been clearly solved. Methods We performed electrophysiologic, biochemical, and biophysical experiments to elucidate the molecular mechanism underlying calmodulin (CaM)-mediated Ca2+-dependent inactivation (CDI) of TRPC6. To address the pathophysiologic contribution of CDI, we assessed the actin filament organization in cultured mouse podocytes. Results Both lobes of CaM helped induce CDI. Moreover, CaM binding to the TRPC6 CaM-binding domain (CBD) was Ca2+-dependent and exhibited a 1:2 (CaM/CBD) stoichiometry. The TRPC6 coiled-coil assembly, which brought two CBDs into adequate proximity, was essential for CDI. Deletion of the coiled-coil slowed CDI of TRPC6, indicating that the coiled-coil assembly configures both lobes of CaM binding on two CBDs to induce normal CDI. The FSGS-associated TRPC6 mutations within the coiled-coil severely delayed CDI and often increased TRPC6 current amplitudes. In cultured mouse podocytes, FSGS-associated channels and CaM mutations led to sustained Ca2+ elevations and a disorganized cytoskeleton. Conclusions The gain-of-function mechanism found in FSGS-causing mutations in TRPC6 can be explained by impairments of the CDI, caused by disruptions of TRPC’s coiled-coil assembly which is essential for CaM binding. The resulting excess Ca2+ may contribute to structural damage in the podocytes.
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U2 - 10.1681/ASN.2018070756
DO - 10.1681/ASN.2018070756
M3 - Article
C2 - 31266820
AN - SCOPUS:85071788389
SN - 1046-6673
VL - 30
SP - 1587
EP - 1603
JO - Journal of the American Society of Nephrology
JF - Journal of the American Society of Nephrology
IS - 9
ER -