Kreysing EM, Gautier H, Humphrey R, Mooslehner K, Muresan L, Haarhoff D, Mukherjee S, Zhao X, Winkel AK, Dimitracopoulos A, Pillai EK, Karadottir RT, Franze K (2025)
Publication Status: Submitted
Publication Type: Unpublished / Preprint
Future Publication Type: Journal article
Publication year: 2025
DOI: 10.1101/2024.07.25.605128
During brain development, neurons extend axons to connect to their target cells while initiating a maturation process, during which neurons start expressing voltage-gated ion channels, form synapses, express synaptic transmitters and receptors, and start communicating via action potentials. Little is known about external factors regulating this process. Here, we identified environmental mechanics as an important regulator of neuronal maturation, and a molecular pathway linking tissue stiffness to this process. Using patch clamp electrophysiology, calcium imaging and immunofluorescence, we found that neurons cultured on stiffer substrates showed a delay in voltage-gated ion channel activity, spontaneous and evoked action potentials, and synapse formation. RNA sequencing and CRISPR/Cas9 knockdown strategies revealed that the mechanosensitive ion channel Piezo1 supresses transthyretin (TTR) expression on stiffer substrates, slowing down synaptic receptor expression and consequently electrical maturation. Stiffening of brain tissue in Xenopus laevis embryos also resulted in a significant delay of synaptic activity in vivo. Our data indicate that environmental stiffness represents a fundamental regulator of neuronal maturation, which is important for the development of normal circuitry in the brain, and potentially for neurodevelopmental disorders.
APA:
Kreysing, E.M., Gautier, H., Humphrey, R., Mooslehner, K., Muresan, L., Haarhoff, D.,... Franze, K. (2025). Environmental stiffness regulates neuronal maturation via Piezo1-mediated TTR activity. (Unpublished, Submitted).
MLA:
Kreysing, Eva Maria, et al. Environmental stiffness regulates neuronal maturation via Piezo1-mediated TTR activity. Unpublished, Submitted. 2025.
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