Montatip Poomvanicha scite author profile

The L-type Ca2+ channel Cav1.2 controls multiple functions throughout the body including heart rate and neuronal excitability. It is a key mediator of fight-or-flight stress responses triggered by a signaling pathway involving β-adrenergic receptors (βARs), cyclic adenosine monophosphate (cAMP), and protein kinase A (PKA). PKA readily phosphorylates Ser1928 in Cav1.2 in vitro and in vivo, including in rodents and humans. However, S1928A knock-in (KI) mice have normal PKA-mediated L-type channel regulation in the heart, indicating that Ser1928 is not required for regulation of cardiac Cav1.2 by PKA in this tissue. We report that augmentation of L-type currents by PKA in neurons was absent in S1928A KI mice. Furthermore, S1928A KI mice failed to induce long-term potentiation in response to prolonged theta-tetanus (PTT-LTP), a form of synaptic plasticity that requires Cav1.2 and enhancement of its activity by the β2-adrenergic receptor (β2AR)–cAMP–PKA cascade. Thus, there is an unexpected dichotomy in the control of Cav1.2 by PKA in cardiomyocytes and hippocampal neurons.

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Deletion of the C-terminal Phosphorylation Sites in the Cardiac β-Subunit Does Not Affect the Basic β-Adrenergic Response of the Heart and the Cav1.2 Channel

Brandmayr

Poomvanicha

Domes

et al. 2012

Journal of Biological Chemistry

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Background: ␤-Adrenergic receptors stimulate cardiac I Ca via PKA-dependent phosphorylation. Results: Deletion of the C-terminal phosphorylation sites in the ␤ 2 gene did not affect isoproterenol-stimulated I Ca . Conclusion: Phosphorylation of the C terminus of the ␤ 2 subunit in vivo does not contribute to ␤-adrenergic regulation of I Ca . Significance: The PKA-dependent regulation of I Ca does not require the C terminus of the ␤ 2 subunit.

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Facilitation and Ca2+-dependent Inactivation Are Modified by Mutation of the Cav1.2 Channel IQ Motif

Poomvanicha

Wegener²,

Blaich³

et al. 2011

Journal of Biological Chemistry

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Myoscape controls cardiac calcium cycling and contractility via regulation of L-type calcium channel surface expression

et al. 2016

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Calcium signalling plays a critical role in the pathogenesis of heart failure. Here we describe a cardiac protein named Myoscape/FAM40B/STRIP2, which directly interacts with the L-type calcium channel. Knockdown of Myoscape in cardiomyocytes decreases calcium transients associated with smaller Ca2+ amplitudes and a lower diastolic Ca2+ content. Likewise, L-type calcium channel currents are significantly diminished on Myoscape ablation, and downregulation of Myoscape significantly reduces contractility of cardiomyocytes. Conversely, overexpression of Myoscape increases global Ca2+ transients and enhances L-type Ca2+ channel currents, and is sufficient to restore decreased currents in failing cardiomyocytes. In vivo, both Myoscape-depleted morphant zebrafish and Myoscape knockout (KO) mice display impairment of cardiac function progressing to advanced heart failure. Mechanistically, Myoscape-deficient mice show reduced L-type Ca2+currents, cell capacity and calcium current densities as a result of diminished LTCC surface expression. Finally, Myoscape expression is reduced in hearts from patients suffering of terminal heart failure, implying a role in human disease.

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Mutation of the Calmodulin Binding Motif IQ of the L-type Cav1.2 Ca2+ Channel to EQ Induces Dilated Cardiomyopathy and Death

Blaich

Pahlavan

Tian

et al. 2012

Journal of Biological Chemistry

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