Deacetylated αβ-tubulin acts as a positive regulator of Rheb GTPase through increasing its GTP-loading

Ras homolog enriched in brain (Rheb) regulates diverse cellular functions by modulating its nucleotide-bound status. Although Rheb contains a high basal GTP level, the regulatory mechanism of Rheb is not well understood. In this study, we propose soluble αβ-tubulin acts as a constitutively active Rheb activator, which may explain the reason why Rheb has a high basal GTP levels. We found that soluble αβ-tubulin is a direct Rheb-binding protein and that its deacetylated form has a high binding affinity for Rheb. Modulation of both soluble and acetylated αβ-tubulin levels affects the level of GTP-bound Rheb. This occurs in the mitotic phase in which the level of acetylated αβ-tubulin is increased but that of GTP-bound Rheb is decreased. Constitutively active Rheb-overexpressing cells showed an abnormal mitotic progression, suggesting the deacetylated αβ-tubulin-mediated regulation of Rheb status may be important for proper mitotic progression. Taken together, we propose that deacetylated soluble αβ-tubulin is a novel type of positive regulator of Rheb and may play a role as a temporal regulator for Rheb during the cell cycle.

► The mechanism of how GTP-bound Rheb is generated remains unclear.
► Deacetylated tubulin activates Rheb function by increasing the GTP-bound Rheb level.
► Accumulation of acetylated tubulins reduces Rheb-tubulin bindings and GTP-Rheb levels.
► Deacetylated tubulin acts as a temporal Rheb regulator during the cell cycle.
► Our findings provide new insights into small GTPases cycling and tubulin function.