We previously reported that cells chronically exposed to ethanol show alterations in actin cytoskeleton organization and dynamics in primary cultures of newborn rat astrocytes, a well-established in vitro model for foetal alcohol spectrum disorders.
These alterations were attributed to a decrease in the cellular levels of active RhoA (RhoA-GTP), which in turn was produced by an increase in the total RhoGAP activity.
We here provide evidence that p190RhoGAPs are the main factors responsible for such increase.
Thus, in astrocytes chronically exposed to ethanol we observe: (1) an increase in p190A- and p190B-associated RhoGAP activity; (2) a higher binding of p190A and p190B to RhoA-GTP; (3) a higher p120RasGAP-p190A RhoGAP complex formation; and (4) the recruitment of both p190RhoGAPs to the plasma membrane.
The simultaneous silencing of both p190 isoforms prevents the actin rearrangements and the total RhoGAP activity increase triggered both by ethanol.
Therefore, our data directly points p190RhoGAPs, as ethanol-exposure molecular targets on glial cells of the central nervous system.
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