Allogeneic Mesenchymal Precursor Cell Therapy to Limit Remodeling After Myocardial Infarction: the Effect of Cell Dosage

Overview

Journal Ann Thorac Surg

Publisher Elsevier

Specialties General Surgery
Pulmonary Medicine

Date 2009 Feb 24

PMID 19231391

Citations 51

Authors

Hirotsugu Hamamoto

Joseph H Gorman 3rd

Liam P Ryan

Robin Hinmon

Timothy P Martens

Michael D Schuster

Theodore Plappert

Matti Kiupel

Martin G St John-Sutton

Silviu Itescu

Robert C Gorman

Affiliations

Soon will be listed here.

Abstract

Background: This experiment assessed the dose-dependent effect of a unique allogeneic STRO-3-positive mesenchymal precursor cell (MPC) on postinfarction left ventricular (LV) remodeling. The MPCs were administered in a manner that would simulate an off-the-self, early postinfarction, preventative approach to cardiac cell therapy in a sheep transmural myocardial infarct (MI) model.

Methods: Allogeneic MPCs were isolated from male crossbred sheep. Forty-six female sheep underwent coronary ligation to produce a transmural LV anteroapical infarction. One hour after infarction, the borderzone myocardium received an injection of 25, 75, 225, or 450 x 10(6) MPCs, or cell medium. Echocardiography was performed at 4 and 8 weeks after MI to quantify LV end-diastolic (LVEDV) and end-systolic volumes (LVESV), ejection fraction (EF), and infarct expansion. CD31 and smooth muscle actin (SMA) immunohistochemical staining was performed on infarct and borderzone specimens to quantify vascular density.

Results: Compared with controls, low-dose (25 and 75 x 10(6) cells) MPC treatment significantly attenuated infarct expansion and increases in LVEDV and LVESV. EF was improved at all cell doses. CD31 and SMA immunohistochemical staining demonstrated increased vascular density in the borderzone only at the lower cell doses. There was no evidence of myocardial regeneration within the infarct.

Conclusion: Allogeneic STRO-3 positive MPCs attenuate the remodeling response to transmural MI in a clinically relevant large-animal model. This effect is associated with vasculogenesis and arteriogenesis within the borderzone and infarct and is most pronounced at lower cell doses.

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