Global ischemia induces stemness and dedifferentiation in human adult cardiomyocytes after cardiac arrest

Author:

Jinton Helen,Sopasakis Victoria Rotter,Sjölin Linnéa,Oldfors Anders,Jeppsson Anders,Oras Jonatan,Wernbom Mathias,Vukusic Kristina

Abstract

AbstractGlobal ischemia has been shown to induce cardiac regenerative response in animal models. One of the suggested mechanisms behind cardiac regeneration is dedifferentiation of cardiomyocytes. How human adult cardiomyocytes respond to global ischemia is not fully known. In this study, biopsies from the left ventricle (LV) and the atrioventricular junction (AVj), a potential stem cell niche, were collected from multi-organ donors with cardiac arrest (N = 15) or without cardiac arrest (N = 6). Using immunohistochemistry, we investigated the expression of biomarkers associated with stem cells during cardiomyogenesis; MDR1, SSEA4, NKX2.5, and WT1, proliferation markers PCNA and Ki67, and hypoxia responsive factor HIF1α. The myocyte nuclei marker PCM1 and cardiac Troponin T were also included. We found expression of cardiac stem cell markers in a subpopulation of LV cardiomyocytes in the cardiac arrest group. The same cells showed a low expression of Troponin T indicating remodeling of cardiomyocytes. No such expression was found in cardiomyocytes from the control group. Stem cell biomarker expression in AVj was more pronounced in the cardiac arrest group. Furthermore, co-expression of PCNA and Ki67 with PCM1 was only found in the cardiac arrest group in the AVj. Our results indicate that a subpopulation of human cardiomyocytes in the LV undergo partial dedifferentiation upon global ischemia and may be involved in the cardiac regenerative response together with immature cardiomyocytes in the AVj.

Funder

Foundation of Mats Kleberg

Foundation of Magnus Bergwall

Foundations Lars Hiertas

Foundation of Konrad and Helfrid Johansson

Foundation of Åke Wiberg

The Swedish Heart and Lung Foundation

University of Gothenburg

Publisher

Springer Science and Business Media LLC

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