Literature DB >> 22472558

Isolation of myogenic stem cells from cultures of cryopreserved human skeletal muscle.

Bo Zheng1, Chien-Wen Chen, Guangheng Li, Seth D Thompson, Minakshi Poddar, Bruno Péault, Johnny Huard.   

Abstract

We demonstrate that subpopulations of adult human skeletal muscle-derived stem cells, myogenic endothelial cells (MECs), and perivascular stem cells (PSCs) can be simultaneously purified by fluorescence-activated cell sorting (FACS) from cryopreserved human primary skeletal muscle cell cultures (cryo-hPSMCs). For FACS isolation, we utilized a combination of cell lineage markers: the myogenic cell marker CD56, the endothelial cell marker UEA-1 receptor (UEA-1R), and the perivascular cell marker CD146. MECs expressing all three cell lineage markers (CD56(+)UEA-1R(+)CD146(+)/CD45(-)) and PSCs expressing only CD146 (CD146(+)/CD45(-)CD56(-)UEA-1R(-)) were isolated by FACS. To evaluate their myogenic capacities, the sorted cells, with and without expansion in culture, were transplanted into the cardiotoxin-injured skeletal muscles of immunodeficient mice. The purified MECs exhibited the highest regenerative capacity in the injured mouse muscles among all cell fractions tested, while PSCs remained superior to myoblasts and the unpurified primary skeletal muscle cells. Our findings show that both MECs and PSCs retain their high myogenic potentials after in vitro expansion, cryopreservation, and FACS sorting. The current study demonstrates that myogenic stem cells are prospectively isolatable from long-term cryopreserved primary skeletal muscle cell cultures. We emphasize the potential application of this new approach to extract therapeutic stem cells from human muscle cells cryogenically banked for clinical purposes.

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Year:  2012        PMID: 22472558      PMCID: PMC4356195          DOI: 10.3727/096368912X636876

Source DB:  PubMed          Journal:  Cell Transplant        ISSN: 0963-6897            Impact factor:   4.064


  19 in total

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5.  Dystrophin expression following the transplantation of normal muscle precursor cells protects mdx muscle from contraction-induced damage.

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  16 in total

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3.  Isolation of Human Myoblasts, Assessment of Myogenic Differentiation, and Store-operated Calcium Entry Measurement.

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Review 4.  Tendon stem progenitor cells: Understanding the biology to inform therapeutic strategies for tendon repair.

Authors:  Bhavita Walia; Alice H Huang
Journal:  J Orthop Res       Date:  2018-10-18       Impact factor: 3.494

5.  The use of blood vessel-derived stem cells for meniscal regeneration and repair.

Authors:  Aki Osawa; Christopher D Harner; Burhan Gharaibeh; Tomoyuki Matsumoto; Yutaka Mifune; Sebastian Kopf; Sheila J M Ingham; Verena Schreiber; Arvydas Usas; Johnny Huard
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6.  Human myocardial pericytes: multipotent mesodermal precursors exhibiting cardiac specificity.

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7.  Isolation of blood-vessel-derived multipotent precursors from human skeletal muscle.

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Review 8.  Human blood-vessel-derived stem cells for tissue repair and regeneration.

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9.  Therapeutic isolation and expansion of human skeletal muscle-derived stem cells for the use of muscle-nerve-blood vessel reconstitution.

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10.  Human myogenic endothelial cells exhibit chondrogenic and osteogenic potentials at the clonal level.

Authors:  Bo Zheng; Guangheng Li; William C W Chen; Bridget M Deasy; Jonathan B Pollett; Bin Sun; Lauren Drowley; Burhan Gharaibeh; Arvydas Usas; Bruno Péault; Johnny Huard
Journal:  J Orthop Res       Date:  2013-04-01       Impact factor: 3.494
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