Tumor Cell Migration and Invasion Are Enhanced by Depletion of Rap1 GTPase-activating Protein (Rap1GAP)

Oxana M Tsygankova,Hongbin Wang,Judy L Meinkoth

doi:10.1074/jbc.m113.464594

Oxana M Tsygankova, Hongbin Wang + Show 1 more

Open Access

https://doi.org/10.1074/jbc.m113.464594

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Abstract

The functional significance of the widespread down-regulation of Rap1 GTPase-activating protein (Rap1GAP), a negative regulator of Rap activity, in human tumors is unknown. Here we show that human colon cancer cells depleted of Rap1GAP are endowed with more aggressive migratory and invasive properties. Silencing Rap1GAP enhanced the migration of confluent and single cells. In the latter, migration distance, velocity, and directionality were increased. Enhanced migration was a consequence of increased endogenous Rap activity as silencing Rap expression selectively abolished the migration of Rap1GAP-depleted cells. ROCK-mediated cell contractility was suppressed in Rap1GAP-depleted cells, which exhibited a spindle-shaped morphology and abundant membrane protrusions. Tumor cells can switch between Rho/ROCK-mediated contractility-based migration and Rac1-mediated mesenchymal motility. Strikingly, the migration of Rap1GAP-depleted, but not control cells required Rac1 activity, suggesting that loss of Rap1GAP alters migratory mechanisms. Inhibition of Rac1 activity restored membrane blebbing and increased ROCK activity in Rap1GAP-depleted cells, suggesting that Rac1 contributes to the suppression of contractility. Collectively, these findings identify Rap1GAP as a critical regulator of aggressive tumor cell behavior and suggest that the level of Rap1GAP expression influences the migratory mechanisms that are operative in tumor cells.

Highlights

Widespread, the significance of Rap1 GTPase-activating protein (Rap1GAP) down-regulation in human tumors is unknown
Our previous study revealed that depleting Rap1GAP from human colon cancer cells impaired cell/cell adhesion and enhanced adhesion and spreading on collagen [32]
As these changes are reminiscent of those observed at the early stages of tumor cell dissemination, we set out to explore whether silencing Rap1GAP altered migratory properties

Summary

Background

The significance of Rap1GAP down-regulation in human tumors is unknown. We show that human colon cancer cells depleted of Rap1GAP are endowed with more aggressive migratory and invasive properties. Enhanced migration was a consequence of increased endogenous Rap activity as silencing Rap expression selectively abolished the migration of Rap1GAP-depleted cells. Tumor cells can switch between Rho/ROCK-mediated contractility-based migration and Rac1-mediated mesenchymal motility. Inhibition of Rac activity restored membrane blebbing and increased ROCK activity in Rap1GAPdepleted cells, suggesting that Rac contributes to the suppression of contractility. These findings identify Rap1GAP as a critical regulator of aggressive tumor cell behavior and suggest that the level of Rap1GAP expression influences the migratory mechanisms that are operative in tumor cells. Rap regulates the balance in cell/matrix and cell/cell adhesion through effects on integrin activation [2, 18, 19] and cadherin-mediated cell/cell (20 –24) adhesion

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EXPERIMENTAL PROCEDURES

The abbreviations used are

RESULTS

DISCUSSION