Ayako Takeuchi scite author profile

RationaleHuman embryonic and induced pluripotent stem cells (hESCs/hiPSCs) are promising cell sources for cardiac regenerative medicine. To realize hESC/hiPSC-based cardiac cell therapy, efficient induction, purification, and transplantation methods for cardiomyocytes are required. Though marker gene transduction or fluorescent-based purification methods have been reported, fast, efficient and scalable purification methods with no genetic modification are essential for clinical purpose but have not yet been established. In this study, we attempted to identify cell surface markers for cardiomyocytes derived from hESC/hiPSCs.Method and ResultWe adopted a previously reported differentiation protocol for hESCs based on high density monolayer culture to hiPSCs with some modification. Cardiac troponin-T (TNNT2)-positive cardiomyocytes appeared robustly with 30–70% efficiency. Using this differentiation method, we screened 242 antibodies for human cell surface molecules to isolate cardiomyocytes derived from hiPSCs and identified anti-VCAM1 (Vascular cell adhesion molecule 1) antibody specifically marked cardiomyocytes. TNNT2-positive cells were detected at day 7–8 after induction and 80% of them became VCAM1-positive by day 11. Approximately 95–98% of VCAM1-positive cells at day 11 were positive for TNNT2. VCAM1 was exclusive with CD144 (endothelium), CD140b (pericytes) and TRA-1-60 (undifferentiated hESCs/hiPSCs). 95% of MACS-purified cells were positive for TNNT2. MACS purification yielded 5−10×105 VCAM1-positive cells from a single well of a six-well culture plate. Purified VCAM1-positive cells displayed molecular and functional features of cardiomyocytes. VCAM1 also specifically marked cardiomyocytes derived from other hESC or hiPSC lines.ConclusionWe succeeded in efficiently inducing cardiomyocytes from hESCs/hiPSCs and identifying VCAM1 as a potent cell surface marker for robust, efficient and scalable purification of cardiomyocytes from hESC/hiPSCs. These findings would offer a valuable technological basis for hESC/hiPSC-based cell therapy.

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Structure and Function of ∆1-Tetrahydrocannabinolic Acid (THCA) Synthase, the Enzyme Controlling the Psychoactivity of Cannabis sativa

Shoyama

Tamada

Kurihara

et al. 2012

Journal of Molecular Biology

109

134

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The destiny of Ca2+ released by mitochondria

2014

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Mitochondrial Ca2+ is known to regulate diverse cellular functions, for example energy production and cell death, by modulating mitochondrial dehydrogenases, inducing production of reactive oxygen species, and opening mitochondrial permeability transition pores. In addition to the action of Ca2+ within mitochondria, Ca2+ released from mitochondria is also important in a variety of cellular functions. In the last 5 years, the molecules responsible for mitochondrial Ca2+ dynamics have been identified: a mitochondrial Ca2+ uniporter (MCU), a mitochondrial Na+–Ca2+ exchanger (NCLX), and a candidate for a mitochondrial H+–Ca2+ exchanger (Letm1). In this review, we focus on the mitochondrial Ca2+ release system, and discuss its physiological and pathophysiological significance. Accumulating evidence suggests that the mitochondrial Ca2+ release system is not only crucial in maintaining mitochondrial Ca2+ homeostasis but also participates in the Ca2+ crosstalk between mitochondria and the plasma membrane and between mitochondria and the endoplasmic/sarcoplasmic reticulum.

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Isx Participates in the Maintenance of Vitamin A Metabolism by Regulation of β-Carotene 15,15′-Monooxygenase (Bcmo1) Expression

Seino

Miki

Kanazawa

et al. 2008

Journal of Biological Chemistry

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Decreased activity of basolateral organic ion transports in hyperuricemic rat kidney: roles of organic ion transporters, rOAT1, rOAT3 and rOCT2

Habu

Yano

Takeuchi

et al. 2003

Biochemical Pharmacology

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Ayako Takeuchi

Efficient and Scalable Purification of Cardiomyocytes from Human Embryonic and Induced Pluripotent Stem Cells by VCAM1 Surface Expression

Structure and Function of ∆1-Tetrahydrocannabinolic Acid (THCA) Synthase, the Enzyme Controlling the Psychoactivity of Cannabis sativa

The destiny of Ca2+ released by mitochondria

Isx Participates in the Maintenance of Vitamin A Metabolism by Regulation of β-Carotene 15,15′-Monooxygenase (Bcmo1) Expression

Decreased activity of basolateral organic ion transports in hyperuricemic rat kidney: roles of organic ion transporters, rOAT1, rOAT3 and rOCT2

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