Engineered heart muscle allografts for heart repair in primates and humans

心力衰竭 医学 心脏病学 间质细胞 体内 心肌细胞 收缩性 内科学 诱导多能干细胞 心肌梗塞 射血分数 间充质干细胞 干细胞 病理 细胞生物学 生物 基因 胚胎干细胞 生物技术 生物化学
作者
Ahmad-Fawad Jebran,Tim Seidler,Malte Tiburcy,Maria Anastasia Daskalaki,Ingo Kutschka,Buntaro Fujita,Stephan Ensminger,Felix Bremmer,Amir Moussavi,Huaxiao Yang,Xulei Qin,Sophie Mißbach,Charis Drummer,Hassina Baraki,Susann Boretius,Christopher Hasenauer,Tobias Nette,Johannes T. Kowallick,Christian Ritter,Joachim Lotz
出处
期刊:Nature [Nature Portfolio]
卷期号:639 (8054): 503-511 被引量:107
标识
DOI:10.1038/s41586-024-08463-0
摘要

Abstract Cardiomyocytes can be implanted to remuscularize the failing heart 1–7 . Challenges include sufficient cardiomyocyte retention for a sustainable therapeutic impact without intolerable side effects, such as arrhythmia and tumour growth. We investigated the hypothesis that epicardial engineered heart muscle (EHM) allografts from induced pluripotent stem cell-derived cardiomyocytes and stromal cells structurally and functionally remuscularize the chronically failing heart without limiting side effects in rhesus macaques. After confirmation of in vitro and in vivo (nude rat model) equivalence of the newly developed rhesus macaque EHM model with a previously established Good Manufacturing Practice-compatible human EHM formulation 8 , long-term retention (up to 6 months) and dose-dependent enhancement of the target heart wall by EHM grafts constructed from 40 to 200 million cardiomyocytes/stromal cells were demonstrated in macaques with and without myocardial infarction-induced heart failure. In the heart failure model, evidence for EHM allograft-enhanced target heart wall contractility and ejection fraction, which are measures for local and global heart support, was obtained. Histopathological and gadolinium-based perfusion magnetic resonance imaging analyses confirmed cell retention and functional vascularization. Arrhythmia and tumour growth were not observed. The obtained feasibility, safety and efficacy data provided the pivotal underpinnings for the approval of a first-in-human clinical trial on tissue-engineered heart repair. Our clinical data confirmed remuscularization by EHM implantation in a patient with advanced heart failure.
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