Physiological and ultrastructural features of human induced pluripotent and embryonic stem cell-derived skeletal myocytes in vitro

Skoglund, Gunnar; Lainé, Jeanne; Darabi, Radbod; Fournier, Emmanuel; Perlingeiro, Rita C.R.; Tabti, Nacira

doi:10.1073/pnas.1322258111

Cited by 38 publications

(57 citation statements)

References 45 publications

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“…While these studies are encouraging, ultrastructural analyses have shown that hPSC-derived myofibers have myofibrils that are less regularly organized than those found in vivo, featuring irregular and misaligned Z-disks. They also fail to form a mature T-tubule network, a hallmark of adult myofibers (Skoglund et al, 2014). Although triad-like structures could be identified, they were limited to the subsarcolemmal space, lacking the orthogonal alignment to myofibrils observed in vivo.…”

Section: Myofiber Maturation In Vitro Sarcomeres and Structural Assemblymentioning

confidence: 96%

“…Remarkably, the formation of such long striated myofibers is rarely observed when primary myoblasts, myogenic lines (such as C2C12) or satellite cells are differentiated in vitro, as they tend to form poorly organized multinucleated myosacs. Electron microscopy analysis of mouse and human PSC-derived myofibers revealed that they exhibit highly organized sarcomeric units, reminiscent of the cytoarchitecture found in vivo (Hirsch et al, 1998;Skoglund et al, 2014). Myofibrils generated in these fibers can exhibit the appropriate organization of MyHC, troponin T, nebulin and titin, and undergo the stage-specific developmental transitions through α-actins (cardiac to skeletal) and MyHC (embryonic, fetal, and perinatal/fast) isoforms (Chal et al, 2015;Hirsch et al, 1998;Mizuno et al, 2009;Rohwedel et al, 1998b).…”

Section: Myofiber Maturation In Vitro Sarcomeres and Structural Assemblymentioning

confidence: 97%

“…Mature striated myotubes have been generated in vitro from mESCs spontaneously differentiated from EBs (Hirsch et al, 1998;Rohwedel et al, 1998b), as well as from Pax7-reprogrammed hPSCs (Skoglund et al, 2014). Demestre et al (2015) compared these two methods in their ability to produce human actinin + myotubes and reported that myotubes generated by Pax7-mediated reprogramming were slower to mature.…”

Section: Myofiber Maturation In Vitro Sarcomeres and Structural Assemblymentioning

confidence: 99%

“…In vivo, early embryonic myofibers exhibit transient, low voltageactivated calcium currents (T-type, ICaT), which are progressively replaced during fetal stages by slow, high voltage-activated currents (L-type, ICaL) (Beam et al, 1986;Cognard et al, 1986). Myofibers derived from Pax7-reprogrammed hPSCs exhibit excitable properties (Skoglund et al, 2014) but have immature ion handling characterized by slow calcium buffering and a small potassium conductance, which could explain the spontaneous fiber twitches observed in these cultures (Skoglund et al, 2014).…”

Section: Excitation-contraction Couplingmentioning

confidence: 99%

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Making muscle: skeletal myogenesisin vivoandin vitro

2017

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Skeletal muscle is the largest tissue in the body and loss of its function or its regenerative properties results in debilitating musculoskeletal disorders. Understanding the mechanisms that drive skeletal muscle formation will not only help to unravel the molecular basis of skeletal muscle diseases, but also provide a roadmap for recapitulating skeletal myogenesis in vitro from pluripotent stem cells (PSCs). PSCs have become an important tool for probing developmental questions, while differentiated cell types allow the development of novel therapeutic strategies. In this Review, we provide a comprehensive overview of skeletal myogenesis from the earliest premyogenic progenitor stage to terminally differentiated myofibers, and discuss how this knowledge has been applied to differentiate PSCs into muscle fibers and their progenitors in vitro.

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Section: Myofiber Maturation In Vitro Sarcomeres and Structural Assemblymentioning

confidence: 96%

Section: Myofiber Maturation In Vitro Sarcomeres and Structural Assemblymentioning

confidence: 97%

Section: Myofiber Maturation In Vitro Sarcomeres and Structural Assemblymentioning

confidence: 99%

Section: Excitation-contraction Couplingmentioning

confidence: 99%

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Making muscle: skeletal myogenesisin vivoandin vitro

2017

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“…Second, the generation of hiPSC-derived myoblasts by PAX7 over expression was done as previously described by Darabi and colleagues (Darabi et al, 2012;Skoglund et al, 2014). Details are described in supplemental methods.…”

Section: Differentiation Of Hipsc Into Myoblasts or Motoneuronsmentioning

confidence: 99%

Formation and characterisation of neuromuscular junctions between hiPSC derived motoneurons and myotubes

Demestre

Orth

Föhr³

et al. 2015

Stem Cell Research

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Striated skeletal muscle cells from humans represent a valuable source for in vitro studies of the motoric system as well as for pathophysiological investigations in the clinical settings. Myoblasts can readily be grown from human muscle tissue. However, if muscle tissue is unavailable, myogenic cells can be generated from human induced pluripotent stem cells (hiPSCs) preferably without genetic engineering. Our study aimed to optimize the generation of hiPSCs derived myogenic cells by employing selection of CD34 positive cells and followed by distinct, stepwise culture conditions. Following the expansion of CD34 positive single cells under myogenic cell culture conditions, serum deprived myoblast-like cells finally fused and formed multinucleated striated myotubes that expressed a set of key markers for muscle differentiation. In addition, these myotubes contracted upon electrical stimulation, responded to acetylcholine (Ach) and were able to generate action potentials. Finally, we co-cultured motoneurons and myotubes generated from identical hiPSCs cell lines. We could observe the early aggregation of acetylcholine receptors in muscle cells of immature co-cultures. At later stages, we identified and characterised mature neuromuscular junctions (NMJs). In summary, we describe here the successful generation of an iPS cell derived functional cellular system consisting of two distinct communicating cells types. This in vitro co-culture system could therefore contribute to research on diseases in which the motoneurons and the NMJ are predominantly affected, such as in amyotrophic lateral sclerosis or spinal muscular atrophy.

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Micropatterned substrates with physiological stiffness promote cell maturation and Pompe disease phenotype in human induced pluripotent stem cell‐derived skeletal myocytes

Jiwlawat

Lynch

Napiwocki

et al. 2019

Biotech & Bioengineering

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Recent advances in bioengineering have enabled cell culture systems that more closely mimic the native cellular environment. Here, we demonstrated that human induced pluripotent stem cell (iPSC)-derived myogenic progenitors formed highlyaligned myotubes and contracted when seeded on two-dimensional micropatterned platforms. The differentiated cells showed clear nuclear alignment and formed elongated myotubes dependent on the width of the micropatterned lanes.

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Physiological and ultrastructural features of human induced pluripotent and embryonic stem cell-derived skeletal myocytes in vitro

Cited by 38 publications

References 45 publications

Making muscle: skeletal myogenesisin vivoandin vitro

Making muscle: skeletal myogenesisin vivoandin vitro

Formation and characterisation of neuromuscular junctions between hiPSC derived motoneurons and myotubes

Micropatterned substrates with physiological stiffness promote cell maturation and Pompe disease phenotype in human induced pluripotent stem cell‐derived skeletal myocytes

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