BackgroundLeft ventricular assist devices (LVADs) have revolutionized and improved the care of the sickest heart failure (HF) patients, and it is imperative that they receive appropriate ventricular unloading. Assessing this critical parameter with current methodologies (labs, imaging) is usually suboptimal in this patient population. Hence it is imperative to elucidate the molecular underpinnings involved in ventricular unloading. We have previously identified the cytoskeletal protein βII spectrin as an essential nodal protein involved in post-translational targeting and βII spectrin protein levels are significantly altered in multiple forms of human and animal HF. We therefore hypothesized that the βII spectrin pathway would play a critical role in LVAD remodeling.MethodsHuman heart failure samples were obtained from patients undergoing heart transplantation. Wild type (WT) mice and our previously validated βII spectrin conditional knock out (βII cKO) mice were used for animal experiments. Transaortic constriction (TAC) was performed on WT mice. Protein expression was assessed via immunoblots, and protein interactions were assessed with co-immunoprecipitation. Transcriptome analysis was performed using isolated whole hearts from control adult WT mice (n = 3) compared to βII cKO spectrin mice (n = 3).ResultsWe report that hearts from mice selectively lacking βII spectrin expression in cardiomyocytes displayed altered transcriptional regulation of cardiac ankyrin repeat protein (CARP). Notably, CARP protein expression is increased after TAC. Additionally, our findings illustrate that prior to LVAD support, CARP levels are elevated in HF patients compared to normal healthy controls. Further, for the first time in a LVAD population, we show that elevated CARP levels in HF patients return to normal following LVAD support.ConclusionOur findings illustrate that CARP is a dynamic molecule that responds to reduced afterload and stress, and has the potential to serve as a prognostic biomarker to assess for an adequate response to LVAD therapy.
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