Open Biology (Jan 2024)

IqgC is a potent regulator of macropinocytosis in the presence of NF1 and its loading to macropinosomes is dependent on RasG

  • Darija Putar,
  • Anja Čizmar,
  • Xiaoting Chao,
  • Marija Šimić,
  • Marko Šoštar,
  • Tamara Ćutić,
  • Lucija Mijanović,
  • Ana Smolko,
  • Hui Tu,
  • Pierre Cosson,
  • Igor Weber,
  • Huaqing Cai,
  • Vedrana Filić

DOI
https://doi.org/10.1098/rsob.230372
Journal volume & issue
Vol. 14, no. 1

Abstract

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RasG is a major regulator of macropinocytosis in Dictyostelium discoideum. Its activity is under the control of an IQGAP-related protein, IqgC, which acts as a RasG-specific GAP (GTPase activating protein). IqgC colocalizes with the active Ras at the macropinosome membrane during its formation and for some time after the cup closure. However, the loss of IqgC induces only a minor enhancement of fluid uptake in axenic cells that already lack another RasGAP, NF1. Here, we show that IqgC plays an important role in the regulation of macropinocytosis in the presence of NF1 by restricting the size of macropinosomes. We further provide evidence that interaction with RasG is indispensable for the recruitment of IqgC to forming macropinocytic cups. We also demonstrate that IqgC interacts with another small GTPase from the Ras superfamily, Rab5A, but is not a GAP for Rab5A. Since mammalian Rab5 plays a key role in early endosome maturation, we hypothesized that IqgC could be involved in macropinosome maturation via its interaction with Rab5A. Although an excessive amount of Rab5A reduces the RasGAP activity of IqgC in vitro and correlates with IqgC dissociation from endosomes in vivo, the physiological significance of the Rab5A–IqgC interaction remains elusive.

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