SCN5A encodes the a-subunit of the cardiac voltage-gated sodium channel Nav1.5 that plays a fundamental role in the excitability and functionality of the human heart. Nav1.5 T559A is a rare variant that has never been functionally characterized nor clinically described. However, it is present in the hH1a SCN5A clone that has been used as a wild-type control over the years. In this work, we performed a functional electrophysiological characterization of T559A by comparing it with the reverted channel T559. When expressed in a heterologous system, T559A resulted in a significant reduction in sodium current density, suggesting a loss-of-function effect of the mutation. Also, mutation reversion slightly but significantly accelerated the kinetics of both channel activation and inactivation. Thus, caution should be exercised in choosing the most appropriate control and genetic background in functional studies.
Melgari, D., Villa, M., Frosio, A., Calamaio, S., Anastasia, L., Pappone, C., et al. (2025). Functional reassessment of Nav1.5 T559A reveals loss-of-function in a variant commonly used as wild type. AMERICAN JOURNAL OF PHYSIOLOGY. CELL PHYSIOLOGY, 329(2), 585-591 [10.1152/ajpcell.00424.2025].
Functional reassessment of Nav1.5 T559A reveals loss-of-function in a variant commonly used as wild type
Melgari, Dario;Calamaio, Serena;Rivolta, Ilaria
2025
Abstract
SCN5A encodes the a-subunit of the cardiac voltage-gated sodium channel Nav1.5 that plays a fundamental role in the excitability and functionality of the human heart. Nav1.5 T559A is a rare variant that has never been functionally characterized nor clinically described. However, it is present in the hH1a SCN5A clone that has been used as a wild-type control over the years. In this work, we performed a functional electrophysiological characterization of T559A by comparing it with the reverted channel T559. When expressed in a heterologous system, T559A resulted in a significant reduction in sodium current density, suggesting a loss-of-function effect of the mutation. Also, mutation reversion slightly but significantly accelerated the kinetics of both channel activation and inactivation. Thus, caution should be exercised in choosing the most appropriate control and genetic background in functional studies.
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