Therapeutic Ultrasound: Increased HDL-Cholesterol Following Infusions of Acoustic Microspheres and Apolipoprotein A-I Plasmids

Overview

Journal Atherosclerosis

Publisher Elsevier

Specialty Cardiology & Vascular Diseases

Date 2015 May 14

PMID 25969892

Citations 1

Authors

Jason W Castle

Kevin P Kent

Ying Fan

Kirk D Wallace

Cynthia E L Davis

Jeannette C Roberts

Michael E Marino

Kai E Thomenius

Hae W Lim

Eric Coles

Michael H Davidson

Steven B Feinstein

Anthony DeMaria

Affiliations

Soon will be listed here.

Abstract

Background: Low levels of HDL-C are an independent cardiovascular risk factor associated with increased premature cardiovascular death. However, HDL-C therapies historically have been limited by issues relating to immunogenicity, hepatotoxicity and scalability, and have been ineffective in clinical trials.

Objective: We examined the feasibility of using injectable acoustic microspheres to locally deliver human ApoA-I DNA plasmids in a pre-clinical model and quantify increased production of HDL-C in vivo.

Methods: Our novel site-specific gene delivery system was examined in naïve rat model and comprised the following steps: (1) intravenous co-administration of a solution containing acoustically active microspheres (Optison™, GE Healthcare, Princeton, New Jersey) and human ApoA-I plasmids; (2) ultrasound verification of the presence of the microspheres within the liver vasculature; (3) External application of locally-directed acoustic energy, (4) induction of microsphere disruption and in situ sonoporation; (4) ApoA-I plasmid hepatic uptake; (5) transcription and expression of human ApoA-I protein; and (6) elevation of serum HDL-C.

Results: Co-administration of ApoA-I plasmids and acoustic microspheres, activated by external ultrasound energy, resulted in transcription and production of human ApoA-I protein and elevated serum HDL-C in rats (up to 61%; p-value < 0.05).

Conclusions: HDL-C was increased in rats following ultrasound directed delivery of human ApoA-I plasmids by microsphere sonoporation. The present method provides a novel approach to promote ApoA-I synthesis and nascent HDL-C elevation, potentially permitting the use of a minimally-invasive ultrasound-based, gene delivery system for treating individuals with low HDL-C.

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