Myogenesis and histogenesis of skeletal muscle on flexible membranes in vitro |
| |
Authors: | Richard C. Strohman Ellen Bayne Dennis Spector Takashi Obinata Julie Micou-Eastwood Andrew Maniotis |
| |
Affiliation: | (1) Department of Molecular and Cell Biology, University of California, 94720 Berkeley, California;(2) Department of Immunology, Merck Institute of Therapeutic Research, P.O. Box 2000, 07065 Rahaway, New Jersey;(3) Department of Biology, Chiba University, 260 Chiba, Japan |
| |
Abstract: | Summary Primary muscle cell cultures consisting of single myocytes and fibroblasts are grown on flexible, optically clear biomembranes. Muscle cell growth, fusion and terminal differentiation are normal. A most effective membrane for these cultures is commercially available Saran Wrap. Muscle cultures on Saran will, once differentiated, contract vigorously and will deform the Saran which is pinned to a Sylgard base. At first, the muscle forms a two-dimensional network which ultimately detaches from the Saran membrane allowing an undergrowth of fibroblasts so that these connective tissue cells completely surround groups of muscle fibers. A three-dimensional network is thus formed, held in place through durable adhesions to stainless steel pins. This three-dimensional, highly contractile network is seen to consist of all three connective tissue compartments seenin vivo, the endomysium, perimysium and epimysium. Finally, this muscle shows advanced levels of maturation in that neonatal and adult isoforms of myosin heavy chain are detected together with high levels of myosin fast light chain 3. Antibody 2E9 to neonatal myosin heavy chain was obtained from Dr. Everett Bandman. MF 20 which reacts with all myosin heavy chain isoforms including the embryonic isoform and MF 14 which reacts specifically with adult myosin heavy chain were obtained from Drs. Bader and Fischman. Antibody to myosin fast light chain 3 was obtained from Dr. Susan Lowey. Antibody to fibronectin was obtained from Dr. Douglas Fambrough. This work was supported by grants to R. C. S. from the Muscular Dystrophy Association and from NIH. Editor's Statement The paper represents a novel and interesting approach to the co-culture of myotubes with fibroblasts which allows three dimensional development of endomysium, perimysium and epimysium and expression of adult-type muscle proteins. Such organogenic development is not normally seen in vitro. The technique should prove useful in elucidating development aspects of muscle cells and their relationship with connective support. |
| |
Keywords: | muscle tissue connective tissue heparan sulfate laminin fiber maturation adult myosin gene expression |
本文献已被 SpringerLink 等数据库收录! |
|