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The alpha subunit of voltage-gated Na(+) channels of brain, skeletal muscle, and cardiomyocytes is functionally modulated by the accessory beta(1), but not the beta(2) subunit. In the present study, we used beta(1)/beta(2) chimeras to identify molecular regions within the beta(1) subunit that are responsible for both the increase of the current density and the acceleration of recovery from inactivation of the human heart Na(+) channel (hH1). The channels were expressed in Xenopus oocytes. As a control, we coexpressed the beta(1)/beta(2) chimeras with rat brain IIA channels. In agreement with previous studies, the beta(1) extracellular domain sufficed to modulate IIA channel function. In contrast to this, the extracellular domain of the beta(1) subunit alone was ineffective to modulate hH1. Instead, the putative membrane anchor plus either the intracellular or the extracellular domain of the beta(1) subunit was required. An exchange of the beta(1) membrane anchor by the corresponding beta(2) subunit region almost completely abolished the effects of the beta(1) subunit on hH1, suggesting that the beta(1) membrane anchor plays a crucial role for the modulation of the cardiac Na(+) channel isoform. It is concluded that the beta(1) subunit modulates the cardiac and the neuronal channel isoforms by different molecular interactions: hH1 channels via the membrane anchor plus additional intracellular or extracellular regions, and IIA channels via the extracellular region only.
Pubmed ID: 12451056 RIS Download
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