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Sub-membrane actin rings compartmentalize the plasma membrane.

The Journal of cell biology (2024-01-22)
Jakob Rentsch, Selle Bandstra, Batuhan Sezen, Philipp Sigrist, Francesca Bottanelli, Bettina Schmerl, Sarah Shoichet, Frank Noé, Mohsen Sadeghi, Helge Ewers
ABSTRACT

The compartmentalization of the plasma membrane (PM) is a fundamental feature of cells. The diffusivity of membrane proteins is significantly lower in biological than in artificial membranes. This is likely due to actin filaments, but assays to prove a direct dependence remain elusive. We recently showed that periodic actin rings in the neuronal axon initial segment (AIS) confine membrane protein motion between them. Still, the local enrichment of ion channels offers an alternative explanation. Here we show, using computational modeling, that in contrast to actin rings, ion channels in the AIS cannot mediate confinement. Furthermore, we show, employing a combinatorial approach of single particle tracking and super-resolution microscopy, that actin rings are close to the PM and that they confine membrane proteins in several neuronal cell types. Finally, we show that actin disruption leads to loss of compartmentalization. Taken together, we here develop a system for the investigation of membrane compartmentalization and show that actin rings compartmentalize the PM.

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Monoclonal Anti-TUBB3 antibody produced in mouse, clone TU-20, purified immunoglobulin, buffered aqueous solution