Sonia Castillo-Lluva scite author profile

The Hace1-HECT E3 ligase is a tumor suppressor that ubiquitylates the activated GTP-bound form of the Rho family GTPase Rac1, leading to Rac1 proteasomal degradation. Here we show that, in vertebrates, Hace1 targets Rac1 for degradation when Rac1 is localized to the nicotinamide adenine dinucleotide phosphate (NADPH) oxidase holoenzyme. This event blocks de novo reactive oxygen species generation by Rac1-dependent NADPH oxidases, and thereby confers cellular protection from reactive oxygen species-induced DNA damage and cyclin D1-driven hyper-proliferation. Genetic inactivation of Hace1 in mice or zebrafish, as well as Hace1 loss in human tumor cell lines or primary murine or human tumors, leads to chronic NADPH oxidase-dependent reactive oxygen species elevation, DNA damage responses and enhanced cyclin D1 expression. Our data reveal a conserved ubiquitin-dependent molecular mechanism that controls the activity of Rac1-dependent NADPH oxidase complexes, and thus constitutes the first known example of a tumor suppressor protein that directly regulates reactive oxygen species production in vertebrates.

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SUMOylation of the GTPase Rac1 is required for optimal cell migration

Castillo-Lluva

et al. 2010

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The Rho-like GTPase Rac1 induces cytoskeletal rearrangements required for cell migration. Rac activity is regulated through a number of mechanisms, including control of nucleotide exchange and hydrolysis, regulation of subcellular localization, or modulation of protein expression levels1-3. Here, we identify the Small Ubiquitin-like MOdifier (SUMO) E3-ligase, PIAS3, as a new Rac1 interactor required for increased Rac activity and optimal cell migration in response to Hepatocyte Growth Factor (HGF) signalling. We show that Rac1 can be conjugated to SUMO-1 in response to HGF and that SUMOylation is enhanced by PIAS3. Moreover, we identify non-consensus sites within the polybasic region of Rac1 as the main locations for SUMO conjugation. We demonstrate that PIAS3-mediated SUMOylation of Rac1 controls its GTP-bound levels and its ability to stimulate lamellipodia, cell migration and invasion. This is the first time that a Ras superfamily member is found to be SUMOylated, providing a new insight into the regulation of these critical mediators of cell behaviour. Moreover, our data reveal a previously undescribed role for SUMO in the regulation of cell migration and invasion.

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