ISL1 cardiovascular progenitor cells for cardiac repair after myocardial infarction
Oscar Bartulos, Zhen Wu Zhuang, Yan Huang, Nicole Mikush, Carol Suh, Alda Bregasi, Lin Wang, William Chang, Diane S. Krause, Lawrence H. Young, Jordan S. Pober, Yibing Qyang
Oscar Bartulos, Zhen Wu Zhuang, Yan Huang, Nicole Mikush, Carol Suh, Alda Bregasi, Lin Wang, William Chang, Diane S. Krause, Lawrence H. Young, Jordan S. Pober, Yibing Qyang
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Research Article Cardiology Neuroscience Stem cells Transplantation Vascular biology

ISL1 cardiovascular progenitor cells for cardiac repair after myocardial infarction

Abstract

Cardiovascular progenitor cells (CPCs) expressing the ISL1-LIM–homeodomain transcription factor contribute developmentally to cardiomyocytes in all 4 chambers of the heart. Here, we show that ISL1-CPCs can be applied to myocardial regeneration following injury. We used a rapid 3D methylcellulose approach to form murine and human ISL1-CPC spheroids that engrafted after myocardial infarction in murine hearts, where they differentiated into cardiomyocytes and endothelial cells, integrating into the myocardium and forming new blood vessels. ISL1-CPC spheroid–treated mice exhibited reduced infarct area and increased blood vessel formation compared with control animals. Moreover, left ventricular (LV) contractile function was significantly better in mice transplanted with ISL1-CPCs 4 weeks after injury than that in control animals. These results provide proof-of-concept of a cardiac repair strategy employing ISL1-CPCs that, based on our previous lineage-tracing studies, are committed to forming heart tissue, in combination with a robust methylcellulose spheroid–based delivery approach.

Authors

Oscar Bartulos, Zhen Wu Zhuang, Yan Huang, Nicole Mikush, Carol Suh, Alda Bregasi, Lin Wang, William Chang, Diane S. Krause, Lawrence H. Young, Jordan S. Pober, Yibing Qyang

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Figure 5

Human ISL1-CPC adhesion and cardiac differentiation.

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Human ISL1-CPC adhesion and cardiac differentiation. (A) Human ISL1-CPC ...
(A) Human ISL1-CPC single cells or ISL1-CPC spheroids were plated on Matrigel-coated plates at a density of 1 × 105 cells/well (24-well plate). Human ISL1-CPC single cells but not spheroids required 5 μM Y-27632, which was removed 24 hours after cell plating. While hISL1-CPC spheroids exhibited robust cell survival (green), hISL1-CPC single cell culture showed significant and progressive cell death 48 and 72 hours after seeding (red). Green: calcein staining for live cells. Red: ethidium homodimer staining for dead cells. Scale bars: 100 μm. (B and C) Human ISL1-CPC spheroids were seeded on Matrigel-coated wells and stained for cTnT (green, B) and CD31 (red, C) 10 days after plating. Scale bars: 50 μm for first, second, and third panels from left in B and 20 μm for fourth panel from left in B and panel C. The white rectangle in the third panel from left indicates the area shown in the magnified image displayed in the fourth panel. A magnified inset picture for cTnT is presented to show the sarcomeres in the fourth panel from left in B. See also Movie 3.