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An off-the-shelf artificial cardiac patch improves cardiac repair after myocardial infarction in rats and pigs.一种现成的人工心脏补片可改善大鼠和猪心肌梗死后的心脏修复。
Sci Transl Med. 2020 Apr 8;12(538). doi: 10.1126/scitranslmed.aat9683.
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Transcriptomic analysis of 3D Cardiac Differentiation of Human Induced Pluripotent Stem Cells Reveals Faster Cardiomyocyte Maturation Compared to 2D Culture.三维诱导多能干细胞心脏分化的转录组分析显示与二维培养相比,心肌细胞成熟更快。
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Human embryonic stem cell-derived cardiomyocytes restore function in infarcted hearts of non-human primates.人类胚胎干细胞衍生的心肌细胞可恢复非人灵长类动物梗死心脏的功能。
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Characterizing the Key Metabolic Pathways of the Neonatal Mouse Heart Using a Quantitative Combinatorial Omics Approach.使用定量组合组学方法表征新生小鼠心脏的关键代谢途径。
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Modeling human diseases with induced pluripotent stem cells: from 2D to 3D and beyond.利用诱导多能干细胞模拟人类疾病:从二维到三维及更深入发展
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Comparison of Non-human Primate versus Human Induced Pluripotent Stem Cell-Derived Cardiomyocytes for Treatment of Myocardial Infarction.非人灵长类动物与人类诱导多能干细胞衍生心肌细胞治疗心肌梗死的比较。
Stem Cell Reports. 2018 Feb 13;10(2):422-435. doi: 10.1016/j.stemcr.2018.01.002. Epub 2018 Feb 1.
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Lack of Remuscularization Following Transplantation of Human Embryonic Stem Cell-Derived Cardiovascular Progenitor Cells in Infarcted Nonhuman Primates.移植人胚胎干细胞衍生的心血管祖细胞后在梗死的非人灵长类动物中缺乏再肌化。
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Translational cardiac stem cell therapy: advancing from first-generation to next-generation cell types.转化性心脏干细胞治疗:从第一代细胞类型向新一代细胞类型迈进。
NPJ Regen Med. 2017 Jun 13;2:17. doi: 10.1038/s41536-017-0024-1. eCollection 2017.
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Coronary microvascular dysfunction and future risk of heart failure with preserved ejection fraction.冠状动脉微血管功能障碍与射血分数保留的心力衰竭的未来风险。
Eur Heart J. 2018 Mar 7;39(10):840-849. doi: 10.1093/eurheartj/ehx721.
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EphrinA1-Fc attenuates myocardial ischemia/reperfusion injury in mice.EphrinA1-Fc减轻小鼠心肌缺血/再灌注损伤。
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二维单层培养与三维工程心脏组织中非灵长类动物诱导多能干细胞衍生心肌细胞的转录组分析。

Transcriptome analysis of non human primate-induced pluripotent stem cell-derived cardiomyocytes in 2D monolayer culture vs. 3D engineered heart tissue.

机构信息

Stanford Cardiovascular Institute, 265 Campus Drive G1120B, Stanford, CA 94305-5454, USA.

Division of Cardiology, Department of Medicine, 265 Campus Drive G1120B, Stanford, CA 94305-5454, USA.

出版信息

Cardiovasc Res. 2021 Jul 27;117(9):2125-2136. doi: 10.1093/cvr/cvaa281.

DOI:10.1093/cvr/cvaa281
PMID:33002105
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8318103/
Abstract

AIMS

Stem cell therapy has shown promise for treating myocardial infarction via re-muscularization and paracrine signalling in both small and large animals. Non-human primates (NHPs), such as rhesus macaques (Macaca mulatta), are primarily utilized in preclinical trials due to their similarity to humans, both genetically and physiologically. Currently, induced pluripotent stem cell-derived cardiomyocytes (iPSC-CMs) are delivered into the infarcted myocardium by either direct cell injection or an engineered tissue patch. Although both approaches have advantages in terms of sample preparation, cell-host interaction, and engraftment, how the iPSC-CMs respond to ischaemic conditions in the infarcted heart under these two different delivery approaches remains unclear. Here, we aim to gain a better understanding of the effects of hypoxia on iPSC-CMs at the transcriptome level.

METHODS AND RESULTS

NHP iPSC-CMs in both monolayer culture (2D) and engineered heart tissue (EHT) (3D) format were exposed to hypoxic conditions to serve as surrogates of direct cell injection and tissue implantation in vivo, respectively. Outcomes were compared at the transcriptome level. We found the 3D EHT model was more sensitive to ischaemic conditions and similar to the native in vivo myocardium in terms of cell-extracellular matrix/cell-cell interactions, energy metabolism, and paracrine signalling.

CONCLUSION

By exposing NHP iPSC-CMs to different culture conditions, transcriptome profiling improves our understanding of the mechanism of ischaemic injury.

摘要

目的

干细胞疗法通过在小动物和大动物中再肌化和旁分泌信号传递显示出治疗心肌梗死的潜力。非人类灵长类动物(NHP),如恒河猴(Macaca mulatta),由于在遗传和生理上与人类相似,主要用于临床前试验。目前,诱导多能干细胞衍生的心肌细胞(iPSC-CMs)通过直接细胞注射或工程化组织贴片递送到梗死的心肌中。尽管这两种方法在样品制备、细胞-宿主相互作用和植入方面都有优势,但在这两种不同的递送方法下,iPSC-CMs 如何应对梗死心脏中的缺血条件仍不清楚。在这里,我们旨在更好地了解缺氧对单层培养(2D)和工程心脏组织(EHT)(3D)格式的 NHP iPSC-CMs 转录组水平的影响。

方法和结果

NHP iPSC-CMs 在单层培养(2D)和工程心脏组织(EHT)(3D)格式中分别暴露于缺氧条件下,作为直接细胞注射和组织植入体内的替代物。在转录组水平上比较了结果。我们发现 3D EHT 模型对缺血条件更敏感,并且在细胞-细胞外基质/细胞-细胞相互作用、能量代谢和旁分泌信号传递方面与天然体内心肌相似。

结论

通过将 NHP iPSC-CMs 暴露于不同的培养条件下,转录组谱分析提高了我们对缺血损伤机制的理解。