Drew Nassal scite author profile

Heart failure remains a major health burden around the world. Despite great progress in delineation of molecular mechanisms underlying development of disease, standard therapy has not advanced at the same pace. The multifunctional signaling molecule Ca 2+ /calmodulin-dependent protein kinase II (CaMKII) has received considerable attention over recent years for its central role in maladaptive remodeling and arrhythmias in the setting of chronic disease. However, these basic science discoveries have yet to translate into new therapies for human patients. This review addresses both the promise and barriers to developing translational therapies that target CaMKII signaling to abrogate pathologic remodeling in the setting of chronic disease. Efforts in small molecule design are discussed, as well as alternative targeting approaches that exploit novel avenues for compound delivery and/or genetic approaches to affect cardiac CaMKII signaling. These alternative strategies provide hope for overcoming some of the challenges that have limited the development of new therapies.

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Antidepressant-induced Ubiquitination and Degradation of the Cardiac Potassium Channel hERG

Dennis

Nassal

Deschênes

et al. 2011

Journal of Biological Chemistry

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Background: Acquired long QT syndrome is usually precipitated by direct hERG block. Results: Tricyclic antidepressants do not only block hERG but inhibit forward trafficking and promote endocytosis via increased channel ubiquitination. Conclusion: Tricyclic antidepressants trigger multiple mechanisms controlling hERG surface expression. Significance: A better mechanistic understanding of acquired long QT syndrome impacts how cardiac safety of therapeutic compounds is assessed.

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βIV-Spectrin regulates STAT3 targeting to tune cardiac response to pressure overload

Unudurthi¹,

Nassal²,

Greer-Short³

et al. 2018

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Heart failure (HF) remains a major source of morbidity and mortality in the US. The multifunctional Ca2+/calmodulin-dependent kinase II (CaMKII) has emerged as a critical regulator of cardiac hypertrophy and failure, although the mechanisms remain unclear. Previous studies have established that the cytoskeletal protein βIV-spectrin coordinates local CaMKII signaling. Here, we sought to determine the role of a spectrin-CaMKII complex in maladaptive remodeling in HF. Chronic pressure overload (6 weeks of transaortic constriction [TAC]) induced a decrease in cardiac function in WT mice but not in animals expressing truncated βIV-spectrin lacking spectrin-CaMKII interaction (qv3J mice). Underlying the observed differences in function was an unexpected differential regulation of STAT3-related genes in qv3J TAC hearts. In vitro experiments demonstrated that βIV-spectrin serves as a target for CaMKII phosphorylation, which regulates its stability. Cardiac-specific βIV-spectrin-KO (βIV-cKO) mice showed STAT3 dysregulation, fibrosis, and decreased cardiac function at baseline, similar to what was observed with TAC in WT mice. STAT3 inhibition restored normal cardiac structure and function in βIV-cKO and WT TAC hearts. Our studies identify a spectrin-based complex essential for regulation of the cardiac response to chronic pressure overload. We anticipate that strategies targeting the new spectrin-based "statosome" will be effective at suppressing maladaptive remodeling in response to chronic stress.

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Molecular Determinants of Pentamidine-Induced hERG Trafficking Inhibition

Dennis¹,

Wang²,

Wan³

et al. 2011

Mol Pharmacol

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Pentamidine is an antiprotozoal compound that clinically causes acquired long QT syndrome (acLQTS), which is associated with prolonged QT intervals, tachycardias, and sudden cardiac arrest. Pentamidine delays terminal repolarization in human heart by acutely blocking cardiac inward rectifier currents. At the same time, pentamidine reduces surface expression of the cardiac potassium channel I Kr /human ether à -gogo-related gene (hERG). This is unusual in that acLQTS is caused most often by direct block of the cardiac potassium current I Kr /hERG. The present study was designed to provide a more complete picture of how hERG surface expression is disrupted by pentamidine at the cellular and molecular levels. Using biochemical and electrophysiological methods, we found that pentamidine exclusively inhibits hERG export from the endoplasmic reticulum to the cell surface in a heterologous expression system as well as in cardiomyocytes. hERG trafficking inhibition could be rescued in the presence of the pharmacological chaperone astemizole. We used rescue experiments in combination with an extensive mutational analysis to locate an interaction site for pentamidine at phenylalanine 656, a crucial residue in the canonical drug binding site of terminally folded hERG. Our data suggest that pentamidine binding to a folding intermediate of hERG arrests channel maturation in a conformational state that cannot be exported from the endoplasmic reticulum. We propose that pentamidine is the founding member of a novel pharmacological entity whose members act as small molecule antichaperones.

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Drew Nassal

Challenges and Opportunities for Therapeutic Targeting of Calmodulin Kinase II in Heart

Antidepressant-induced Ubiquitination and Degradation of the Cardiac Potassium Channel hERG

βIV-Spectrin regulates STAT3 targeting to tune cardiac response to pressure overload

Molecular Determinants of Pentamidine-Induced hERG Trafficking Inhibition

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