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Fibroblast Growth Factor Homologous Factors are Important Modulators of Cardiac Ion Channels

dc.contributor.advisor Pitt, Geoffrey S
dc.contributor.author Hennessey, Jessica Amenta
dc.date.accessioned 2014-05-14T19:15:53Z
dc.date.available 2016-05-03T04:30:04Z
dc.date.issued 2014
dc.identifier.uri https://hdl.handle.net/10161/8633
dc.description.abstract <p>Fibroblast growth factor (FGF) homologous factors (FHFs, FGF11-14) are a family of FGFs that are not secreted, nor activate FGF receptors. Instead, they remain intracellular and bind to the voltage-gated Na<super>+</super> channel C-terminus and modulate function. FGF14 is a locus for the neurodegenerative disease spinocerebellar ataxia 27 and the disease has been attributed to decreased neuronal excitability from changes in Na<super>+</super> channel function. However, several lines of evidence, including data from heterologous expression systems and the distribution of FGF13 within the ventricular cardiomyocyte suggested that it also modulates the Ca<sub>V</sub>1.2 voltage-gated Ca<super>2+</super> channel. The central hypothesis to this study is that FHFs modulate both voltage-gated Na<super>+</super> and Ca<super>2+</super> channel channels in the ventricular cardiomyocyte and therefore are loci for cardiac arrhythmia. Using an adult ventricular cardiomyocyte system with adenoviral gene transfer, we manipulated the levels of FGF13 in the cell and performed electrophysiology, biochemistry and immunocytochemistry to analyze the effects on voltage-gated Ca<super>2+</super> channel channel localization and function. We showed that FGF13 is in complex with Junctophilin-2 and modulates Ca<sub>V</sub>1.2 current density and localization to the t-tubule, leading to changes in Ca<super>2+</super> channel-induced Ca<super>2+</super> channel release and ultimately a shortened ventricular action potential. Through collaboration with the Mayo Clinic, a mutation in FGF12, the most highly expressed FHF in human ventricle was found in a patient with Brugada syndrome. Using similar methodology, we determined that this mutation results specifically in a Na<sub>V</sub>1.5 loss of function without affecting Ca<sub>V</sub>1.2 function, resulting in a Brugada-like ventricular action potential. This data shows that FHFs are potent modulators of multiple ion channels and novel arrhythmogenic loci.</p>
dc.subject Cellular biology
dc.subject Physiology
dc.title Fibroblast Growth Factor Homologous Factors are Important Modulators of Cardiac Ion Channels
dc.type Dissertation
dc.department Pharmacology
duke.embargo.months 24


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