Orchestrating aquaporin-4 and connexin-43 expression in brain: Differential roles of α1-and β1-syntrophin

Aquaporin-4 (AQP4) water channels and gap junction proteins (connexins) are two classes of astrocytic membrane proteins critically involved in brain water and ion homeostasis. AQP4 channels are anchored by alpha 1-syntrophin to the perivascular astrocytic endfoot membrane domains where they control water flux at the blood-brain interface while connexins cluster at the lateral aspects of the astrocytic endfeet forming gap junctions that allow water and ions to dissipate through the astrocyte syncytium. Recent studies have pointed to an interdependence between astrocytic AQP4 and astrocytic gap junctions but the underlying mechanism remains to be explored. Here we use a novel transgenic mouse line to unravel whether beta 1-syntrophin (coexpressed with alpha 1-syntrophin in astrocytic plasma membranes) is implicated in the expression of AQP4 isoforms and formation of gap junctions in brain. Our results show that while the effect of beta 1-syntrophin deletion is rather limited, double knockout of alpha 1- and beta 1-syntrophin causes a downregulation of the novel AQP4 isoform AQP4ex and an increase in the number of astrocytic gap junctions. The present study highlight the importance of syntrophins in orchestrating specialized functional domains of brain astrocytes.

Automated summary

The study reveals the interdependence between astrocytic AQP4 and gap junctions, with limited impact on AQP4 isoform expression from deletion of beta 1-syntrophin, but with increased astrocytic gap junctions from double knockout of alpha 1- and beta 1-syntrophin. It highlights the importance of syntrophins in organizing specialized functional domains of brain astrocytes.