Local differences in baseline sodium shape astrocytic potassium uptake by the NKA
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Abstract
Astrocytes are vital for the maintenance of ion and transmitter homeostasis in the extracellular space, with the inward Na⁺ gradient playing a pivotal role in these processes. Earlier studies not only reported a low baseline Na + concentration ([Na + ]) in astrocytes, but also suggested an equilibration of [Na + ] within the gap-junction-coupled syncytium. This is consistent with the view that the basic homeostatic properties of astrocytes are largely identical due to their critical role in brain function. Here, we used multi-photon fluorescence lifetime imaging for a quantitative determination of astrocytic [Na + ] in mouse forebrain tissue slices and in vivo . Contrary to the prevailing notion of a rather uniform Na⁺ distribution, we detected a previously unobserved subcellular and cellular heterogeneity in astrocytic [Na + ], accompanied by differences in the capacity for Na + /K + -ATPase (NKA)-mediated uptake of extracellular K + . Biophysical modelling showed that this heterogeneity can be replicated by the reported differential expression of NKA isoforms in astrocytes together with a different strength of Na + influx over the plasma membranes. Altogether, our results thus suggest the existence of functionally distinct astrocytes and astrocyte subdomains in which Na + homeostasis is locally adapted to the specific requirements of surrounding neural networks.
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- europepmc
- last seen: 2026-05-20T01:45:00.602351+00:00
- unpaywall
- last seen: 2026-06-02T02:00:03.124865+00:00