Abstract

Introduction: Doxorubicin (DOX) is widely used for chemotherapy, but cardiotoxicity and cardiomyopathy are major adverse effects. The canonical transient receptor potential 6 gene ( TRPC6) is a putative risk gene for cardiomyopathy. Recently, a TRPC6 N338S mutation was found in a patient with DOX-induced heart failure. However, the TRPC6 N338S mutant has not been characterized, and how it affects cardiac function is unknown. Hypothesis: We hypothesized that TRPC6 N338S is a gain-of-function mutation producing intracellular Ca 2+ overload in cardiomyocytes. Methods: Using patch clamp recording, molecular biological and molecular docking analyses, we assessed the function of TRPC6 N338S heterologously expressed in HL-1 cardiac cells. Results: TRPC6 N338S significantly increased the current densities of TRPC6 (defined as 1 μM BI-749327 sensitive components, a highly selective TRPC6 inhibitor) in HL-1 cells at baseline and after exposure to 50 μM 1-oleoyl 2-acetyl-sn-glycerol (OAG, an activator of TRPC6), compared to cells expressing TRPC6 WT. Moreover, a 24-h pretreatment with 0.5 μM DOX further potentiated the OAG effects on TRPC6 WT currents with a significantly greater response in the N338S currents. Ca 2+ imaging also showed enhanced intracellular Ca 2+ levels in cells expressing the N338S mutant with OAG and DOX treatment. Biological studies found that the cytoplasmic and surface expression of TRPC6 WT and N338S mutant were identical in HL-1 cells, but those of TRPC6 N338S were markedly upregulated after treatment with 0.5 μM DOX, compared to TRPC6 WT. Molecular docking and dynamics simulation analysis unraveled that OAG binds to a pocket constituted by the pore-helix, S5 and S6 domains of TRPC6 through polar interactions. OAG binds to the same site in TRPC6 N338S with shortened interfacial distances due to additional polar and hydrogen bonding between OAG and the N338S mutant. Conclusions: TRPC6 N338S mutation strengthens the interaction with OAG, stabilizes the OAG-TRPC6 N338S complex, and enhances the OAG effects. Treatment with DOX significantly increases the expression and function of TRPC6 N338S in HL-1 cells. Hence, the TRPC6 N338S is a gain-of-function mutation and may contribute to cardiotoxicity in patients with anthracycline treatment.

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