Matrix Topography Regulates Synaptic Transmission at the Neuromuscular Junction

Ko, Eunkyung; Yu, Seung Jung; Pagan-Diaz, Gelson J.; Mahmassani, Ziad; Boppart, Marni D.; Im, Sung Gap; Bashir, Rashid; Kong, Hyunjoon

doi:10.1002/advs.201801521

Cited by 28 publications

(35 citation statements)

References 45 publications

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“…glutamate stimulation) caused the observed changes in muscle fiber calcium transients and muscle fiber contractions, we studied the effect of BOTOX (BOT, presynaptic blocker) and d-tubocurarine (DTC, post synaptic blocker) treatments in our system. Our studies revealed a significant decrease in calcium transient activity and an absence of tissue contraction in response to glutamate stimulation if neuromuscular co-cultures were pre-treated with BOTOX or d-tubocurarine (Figure 3D and Video 7) doses reported by others to fully block activity (Ko et al, 2019; Madden et al, 2015).…”

Section: Resultssupporting

confidence: 63%

“…However, it should be noted that single fiber level analyses may be easier to perform in a 2D culture setting. As such, we expect that focusing efforts on modifying 2D cultures to control the microenvironment in ways that can accommodate myofiber contractility and alignment, might result in the formation of functional NMJs in vitro at earlier time-points, as was recently demonstrated in work with rodent myoblasts and neural cells (Ko et al, 2019). If successful, it is feasible to imagine de novo AChR subunit switching in 2D neuromuscular cultures as well.…”

Section: Discussionmentioning

confidence: 93%

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A 3D culture model of innervated human skeletal muscle enables studies of the adult neuromuscular junction

Bakooshli

Lippmann

Mulcahy

et al. 2019

eLife

193

241

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Two-dimensional (2D) human skeletal muscle fiber cultures are ill-equipped to support the contractile properties of maturing muscle fibers. This limits their application to the study of adult human neuromuscular junction (NMJ) development, a process requiring maturation of muscle fibers in the presence of motor neuron endplates. Here we describe a three-dimensional (3D) co-culture method whereby human muscle progenitors mixed with human pluripotent stem cell-derived motor neurons self-organize to form functional NMJ connections. Functional connectivity between motor neuron endplates and muscle fibers is confirmed with calcium imaging and electrophysiological recordings. Notably, we only observed epsilon acetylcholine receptor subunit protein upregulation and activity in 3D co-cultures. Further, 3D co-culture treatments with myasthenia gravis patient sera shows the ease of studying human disease with the system. Hence, this work offers a simple method to model and evaluate adult human NMJ de novo development or disease in culture.

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Section: Resultssupporting

confidence: 63%

Section: Discussionmentioning

confidence: 93%

A 3D culture model of innervated human skeletal muscle enables studies of the adult neuromuscular junction

Bakooshli

Lippmann

Mulcahy

et al. 2019

eLife

193

241

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“…[ 144 ] As MNs attach to myofibers, they form NMJs, which have been successfully formed in 3D coculture experiments in vitro and subsequently used to stimulate myofibers both chemically and electrically. [ 98,145 ] Unfortunately, these methods of stimulation frequently result in phenotypically immature myofibers, as the neural networks formed between MNs and myoblasts do not provide enough stimulation to promote mature myogenic differentiation. [ 146 ] Bakooshli et al.…”

Section: External Stimulatorsmentioning

confidence: 99%

“…Since the promotion of alignment is such a crucial aspect in mechanical stimulation studies, researchers have used micro‐grooved substrates to promote the alignment of various myoblast cocultures. [ 2,145,154 ] Ko et al. [ 145 ] advanced neural and muscle cocultures by plating primary myoblasts and neural stem cells together onto a micro‐grooved poly(urethane acrylate) (PLA) substrate, which was coated with Matrigel to promote cell attachment, shown in Figure .…”

Section: External Stimulatorsmentioning

confidence: 99%

“…[ 2,145,154 ] Ko et al. [ 145 ] advanced neural and muscle cocultures by plating primary myoblasts and neural stem cells together onto a micro‐grooved poly(urethane acrylate) (PLA) substrate, which was coated with Matrigel to promote cell attachment, shown in Figure . The authors found that the 1600 nm grooves in the substrate promoted the anisotropic alignment of the myoblasts, with the additional benefit of parallel axon ingrowth into the subsequently differentiated myotubes.…”

Section: External Stimulatorsmentioning

confidence: 99%

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Effects of External Stimulators on Engineered Skeletal Muscle Tissue Maturation

Mueller

Trujillo‐Miranda

Maier

et al. 2020

Adv Materials Inter

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Engineering functional skeletal muscle tissue is an ongoing challenge because of the complexity of the in vivo microenvironment and the various factors that contribute to the development and maintenance of the native tissue. However, the growing understanding of the natural skeletal muscle's microenvironment in vivo, as well as the ability to successfully reproduce these factors in vitro, are contributing to the formation of engineered skeletal muscle tissues (SMTs) with greater biomimetic structure and function. This review first summarizes the structure of skeletal muscle tissue. The role of various hydrogels, biomaterials, and scaffolds as building blocks of complex skeletal muscle structures is then explored. Additionally, the role of external stimuli and regulators that can be applied during in vitro culture that lead to the formation of SMT models with higher functionality is examined. These include various physical, biochemical, electrical, mechanical, and magnetic stimulations, as well as biological stimulation through coculture with fibroblasts, endothelial, or neuronal cells. Finally, examples of recently developed functional tissue models that have been developed for in vitro and in vivo applications and the future outlook for this field are discussed.

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Manipulation of Stem Cells Fates: The Master and Multifaceted Roles of Biophysical Cues of Biomaterials

Wan

Liu

2021

Adv Funct Materials

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Owing to their self‐renewal and differentiation ability, stem cells are conducive for repairing injured tissues, making them a promising source of seed cells for tissue engineering. The extracellular microenvironment (ECM) is under dynamic mechanical control, which is closely related to stem cell behaviors. During the design and fabrication of biomaterials for regenerative medicine, the physiochemical properties of the natural ECM should be closely mimicked, which can reinforce stem cell lineage choice and tissue engineering. By reproducing the biophysical stimulations that stem cells may experience in vivo, many studies have highlighted the key role of biophysical cues in regulation of cell fate. Optimization of biophysical factors leads to desirable stem cell functions, which can maximize the effectiveness of regenerative treatment. In this review, the main biophysical cues of biomaterials, including stiffness, topography, mechanical force, and external physical fields are summarized, and their individual and synergistic influence on stem cell behavior is discussed. Subsequently, the current progress in tissue regeneration using biomaterials is presented, which directs the design and fabrication of functional biomaterial. The mechanisms via which biophysical cues activate cellular responses are also analyzed. Finally, the challenges in basic research as well as for clinical translation in this field are discussed.

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Matrix Topography Regulates Synaptic Transmission at the Neuromuscular Junction

Cited by 28 publications

References 45 publications

A 3D culture model of innervated human skeletal muscle enables studies of the adult neuromuscular junction

A 3D culture model of innervated human skeletal muscle enables studies of the adult neuromuscular junction

Effects of External Stimulators on Engineered Skeletal Muscle Tissue Maturation

Manipulation of Stem Cells Fates: The Master and Multifaceted Roles of Biophysical Cues of Biomaterials

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