The Significant Cardiomyogenic Potential of Human Umbilical Cord Blood-Derived Mesenchymal Stem Cells in Vitro

doi:10.1634/stemcells.2006-0662

TISSUE-SPECIFIC STEM CELLS

The Significant Cardiomyogenic Potential of Human Umbilical Cord Blood-Derived Mesenchymal Stem Cells in Vitro

Nobuhiro Nishiyama ¹, Shunichiro Miyoshi ²^*, Naoko Hida Miss³, Taro Uyama ⁴, Kazuma Okamoto ⁵, Yukinori Ikegami ¹, Kenji Miyado ⁴, Kaoru Segawa ⁶, Masanori Terai ⁴, Michiie Sakamoto ⁷, Satoshi Ogawa ¹, Akihiro Umezawa ⁴

¹ Cardio-pulmonary division of Keio University School of Medicine, Tokyo, JAPAN
² Cardio-pulmonary division of Keio University School of Medicine, Tokyo, JAPAN; Keio University School of Medicine Institute for Advanced Cardiac Therapeutics, Tokyo, JAPAN
³ Cardio-pulmonary division of Keio University School of Medicine, Tokyo, JAPAN; Department of Reproductive Biology and Pathology, National Research Institute for Child Health and Development, Tokyo, JAPAN
⁴ Department of Reproductive Biology and Pathology, National Research Institute for Child Health and Development, Tokyo, JAPAN
⁵ Department of Surgery, Keio University School of Medicine, Tokyo, JAPAN
⁶ Department of Microbiology and Immunology, Keio University School of Medicine, Tokyo, JAPAN
⁷ Department of Pathology, Keio University School of Medicine, Tokyo, JAPAN

^* To whom correspondence should be addressed. E-mail: smiyoshi{at}cpnet.med.keio.ac.jp.

Abstract

We tested the cardiomyogenic (CM) potential of the human umbilicalcord blood-derived mesenchymal stem cells (UCBMSCs). Both thenumber and function of stem cells may be depressed in senilepatients with severe coronary risk factors. Therefore, stemcells obtained from such patients may not function well. Forthis reason, UCBMSCs are potentially a new cell source for stemcell-based therapy, since such cells can be obtained from youngerpopulations and are being routinely utilized for clinical patients.

Methodsand Results: The human UCBMSCs (5x10³/cm²) were co-culturedwith fetal murine cardiomyocytes (CM:1x10⁵/cm²). On day 5 ofco-cultivation, about half of the GFP-labeled UCBMSCs contractedrhythmically and synchronously, suggesting the presence of electricalcommunication between the UCBMSCs. The fractional shorteningof the contracted UCBMSCs was 6.5 ± 0.7 % (n=20). The UCBMSC-derivedcardiomyocytes stained positive for cardiac troponin-I (clearstriation +) and connexin 43 (diffuse dot-like staining at themargin of the cell) by the immunocytochemical method. Cardiactroponin-I positive cardiomyocytes accounted for 45 ± 3% of GFP-labeled UCBMSCs. The cardiomyocyte-specific long actionpotential duration (186 ± 12 msec) was recorded with aglass microelectrode from the GFP-labeled UCBMSCs. CM was observedin UCBMSCs, which were co-cultivated in the same dish with mousecardiomyocytes separated by a collagen membrane. Cell fusion,therefore, was not a major cause of CM in the UCBMSCs.

Conclusions:About half of the human UCBMSCs were successfully transdifferentiatedinto cardiomyocytes in vitro. UCBMSCs can be a promising cellularsource for cardiac stem cell-based therapy.
Key Words. Physiology, Transplantation, Action potentials, Cells, Heart failure

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