LGR5 receptor promotes cell-cell adhesion in stem cells and colon cancer cells via the IQGAP1 -Rac1 pathway

Leucine-rich repeat-containing G protein–coupled receptor 5 (LGR5) is a bona fide marker of adult stem cells in several epithelial tissues, most notably in the intestinal crypts, and is highly up-regulated in many colorectal, hepatocellular, and ovarian cancers. LGR5 activation by R-spondin (RSPO) ligands potentiates Wnt/β-catenin signaling in vitro; however, deletion of LGR5 in stem cells has little or no effect on Wnt/β-catenin signaling or cell proliferation in vivo. Remarkably, modulation of LGR5 expression has a major impact on the actin cytoskeletal structure and cell adhesion in the absence of RSPO stimulation, but the molecular mechanism is unclear. Here, we show that LGR5 interacts with IQ motif-containing GTPase-activating protein 1 (IQGAP1), an effector of Rac1/CDC42 GTPases, in the regulation of actin cytoskeleton dynamics and cell–cell adhesion. Specifically, LGR5 decreased levels of IQGAP1 phosphorylation at Ser-1441/1443, leading to increased binding of Rac1 to IQGAP1 and thus higher levels of cortical F-actin and enhanced cell–cell adhesion. LGR5 ablation in colon cancer cells and crypt stem cells resulted in loss of cortical F-actin, reduced cell–cell adhesion, and disrupted localization of adhesion-associated proteins. No evidence of LGR5 coupling to any of the four major subtypes of heterotrimeric G proteins was found. These findings suggest that LGR5 primarily functions via the IQGAP1–Rac1 pathway to strengthen cell–cell adhesion in normal adult crypt stem cells and colon cancer cells

Anchored Protein Kinase A Recruitment of Active Rac GTPase

Protein kinase A-anchoring proteins (AKAPs) influence fundamental cellular processes by directing the cAMP-dependent protein kinase (PKA) toward its intended substrates. In this report we describe the identification and characterization of a ternary complex of AKAP220, the PKA holoenzyme, and the IQ domain GTPase-activating protein 2 isoform (IQGAP2) that is enriched at cortical regions of the cell. Formation of an IQGAP2-AKAP220 core complex initiates a subsequent phase of protein recruitment that includes the small GTPase Rac. Biochemical and molecular biology approaches reveal that PKA phosphorylation of Thr-716 on IQGAP2 enhances association with the active form of the Rac GTPase. Cell-based experiments indicate that overexpression of an IQGAP2 phosphomimetic mutant (IQGAP2 T716D) enhances the formation of actin-rich membrane ruffles at the periphery of HEK 293 cells. In contrast, expression of a nonphosphorylatable IQGAP2 T716A mutant or gene silencing of AKAP220 suppresses formation of membrane ruffles. These findings imply that IQGAP2 and AKAP220 act synergistically to sustain PKA-mediated recruitment of effectors such as Rac GTPases that impact the actin cytoskeleton