2018
DOI: 10.2139/ssrn.3155604
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Gradients Of Rac1 Nanoclusters Support Spatial Patterns of Rac1 Signaling

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Cited by 12 publications
(19 citation statements)
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“…The signaling mechanisms leading to the reduction in MPA density prior to protrusion may not be identical between cell types, as RhoGTPases and their effectors, capping and severing proteins, as well as Arp2/3 and formins, are known to have context-dependent roles in migration (37). Beyond the control of cell motility, the interface between membrane and cortex plays vital roles in exocytosis (39), generation of ER-PM junctions (40), diffusionreaction dynamics kinetics at the membrane (5,41), and mechanotransduction (42). MPA density changes likely control specific steps in these processes and future studies are needed to explore the role of local MPA density in controlling other membrane localized processes regulated by cortical actin.…”
Section: Discussionmentioning
confidence: 99%
“…The signaling mechanisms leading to the reduction in MPA density prior to protrusion may not be identical between cell types, as RhoGTPases and their effectors, capping and severing proteins, as well as Arp2/3 and formins, are known to have context-dependent roles in migration (37). Beyond the control of cell motility, the interface between membrane and cortex plays vital roles in exocytosis (39), generation of ER-PM junctions (40), diffusionreaction dynamics kinetics at the membrane (5,41), and mechanotransduction (42). MPA density changes likely control specific steps in these processes and future studies are needed to explore the role of local MPA density in controlling other membrane localized processes regulated by cortical actin.…”
Section: Discussionmentioning
confidence: 99%
“…It is likely that balance in the activity of GEFs and GAPs at the front of moving cells is important for turnover of protrusions and adhesions to drive polarized migration. [16][17][18][19][20] Moreover, spatial separation of GEFs and GAPs may be required for precise regulation of Rac activity to form a single polarized protrusion. 17 How Rac GEFs and GAPs spatiotemporally collaborate to ensure front-rear polarization and efficient migration should be explored in future studies.…”
Section: Discussionmentioning
confidence: 99%
“…[13][14][15] At the front of polarized cells, Rac1 activity is spatiotemporally regulated by GEFs and GAPs, and continuous GTP/GDP cycling through these proteins is thought to be necessary for turnover of protrusions and adhesions to drive efficient migration. [16][17][18] Indeed, highly or constitutively activated Rac1 in cells leads to loss of cell polarity and inhibition of directed migration. 19,20 Therefore, precise regulation of Rac activity by GEFs and GAPs should be required for effective motility with front-rear cell axis.…”
mentioning
confidence: 99%
“…For example, Ras/Rho signaling is intimately linked with membrane lipids in all eukaryotes. Interaction with anionic lipids is important for their plasma membrane targeting (3,4), but also mediates the clustering of these small GTPases at the cell surface into nanometer scale membrane domains (5)(6)(7)(8). In particular, the phospholipid phosphatidylserine is involved in the nanoclustering and signaling of some GTPase, such as K-Ras in human and Cdc42 in yeast (2,7,8).…”
Section: Main Textmentioning
confidence: 99%