2023
DOI: 10.26599/bsa.2023.9050002
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Substrate stiffness in nerve cells

Abstract: Recently, substrate stiffness has been involved in the physiology and pathology of the nervous system. However, the role and function of substrate stiffness remain unclear. Here, we review known effects of substrate stiffness on nerve cell morphology and function in the central and peripheral nervous systems and their involvement in pathology. We hope this review will clarify the research status of substrate stiffness in nerve cells and neurological disorder.

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Cited by 7 publications
(4 citation statements)
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“…Despite the growing importance of PEGylated fibrin hydrogels, little is known about their mechanical properties, and even less about their evolution with time in realistic experimental conditions. Indeed, the mechanical properties of the matrix can affect axon stability and development, which can result in different neuronal networks depending on the final stiffness of the material [ 22 , 48 , 49 ]. The relative composition of thrombin and fibrinogen in the fibrin hydrogel significantly influences its bulk properties [ 32 ].…”
Section: Resultsmentioning
confidence: 99%
“…Despite the growing importance of PEGylated fibrin hydrogels, little is known about their mechanical properties, and even less about their evolution with time in realistic experimental conditions. Indeed, the mechanical properties of the matrix can affect axon stability and development, which can result in different neuronal networks depending on the final stiffness of the material [ 22 , 48 , 49 ]. The relative composition of thrombin and fibrinogen in the fibrin hydrogel significantly influences its bulk properties [ 32 ].…”
Section: Resultsmentioning
confidence: 99%
“…We note that thrombin concentration not only regulates the stiffness and architecture of the fibrin structure, but also the stability of the gel when used for culturing cells. Tissue stiffness determines the length of neuronal axons and their degree of spreading [41][42][43]. Therefore, the mechanical characterization of hydrogels is in general important to understand the behavior and emerging functional organization of the neuronal network growing within them.…”
Section: Discussion: Hydrogel Stability and Network Formationmentioning
confidence: 99%
“…This altered mechanical signaling from the extracellular space can be sensed via integrin receptors on the membrane and Hippo pathway and consequently triggers cytoskeleton remodeling as a response (Cai et al, 2021 ). Increased stiffness of brain tissue may cause age-related alterations such as loss of function of progenitor cells over time (Segel et al, 2019 ) or modulation of neuronal morphology (Si et al, 2023 ). The relationship between NDR kinases and ECM is tightly conserved across species.…”
Section: Altered Intracellular Communicationmentioning
confidence: 99%