Abstract
P-Rex1 is a guanine-nucleotide exchange factor (GEF) that activates Rac-type small G proteins in response to the stimulation of a range of receptors, particularly G protein-coupled receptors (GPCRs), to control cytoskeletal dynamics and other Rac-dependent cell responses. P-Rex1 is mainly expressed in leukocytes and neurons. Whereas its roles in leukocytes have been studied extensively, relatively little is known about its functions in neurons. Here, we used CRISPR/Cas9-mediated P-Rex1 deficiency in neuronal PC12 cells that stably overexpress the GPCR S1PR1, a receptor for sphingosine 1-phosphate (S1P), to investigate the role of P-Rex1 in neuronal GPCR signalling and cell responses. We show that P-Rex1 is required for the S1P-stimulated activation of Rac1 and Akt, basal Rac3 activity, and constitutive cAMP production in PC12-S1PR1 cells. The constitutive cAMP production was not due to increased expression levels of major neuronal adenylyl cyclases, suggesting that P-Rex1 may regulate adenylyl cyclase activity. P-Rex1 was required for maintenance of neurite protrusions and spreading in S1P-stimulated PC12-S1PR1 cells, as well as for cell-cycle progression and proliferation. In summary, we identified novel functional roles of P-Rex1 in neuronal Rac, Akt and cAMP signalling, as well as in neuronal cell-cycle progression and proliferation.
Highlights
IntroductionAs a typical activator of Rac proteins, P-Rex controls cell morphology, adhesion, and chemotaxis through cytoskeletal dynamics, as well as reactive oxygen species (ROS) production, gene expression, and cell survival [2,3]
DNA sequencing confirmed that the gene editing had introduced a single nucleotide into exon 4, causing a frameshift, premature Stop, and P-Rex1 knockout (Figure 1D)
We showed that P-Rex1 is required for the sphingosine 1-phosphate (S1P)-stimulated activation of Rac1 and
Summary
As a typical activator of Rac proteins, P-Rex controls cell morphology, adhesion, and chemotaxis through cytoskeletal dynamics, as well as reactive oxygen species (ROS) production, gene expression, and cell survival [2,3]. P-Rex is primarily expressed in leukocytes and in the nervous system, but is found at lower levels in many cell types [1,2,3]. P-Rex function has mostly been studied in leukocytes and platelets, where this GEF is important for a range of proinflammatory and immune functions, including adhesion, migration, and ROS production [1,4,5,6,7,8,9,10,11,12,13,14]. P-Rex levels are commonly deregulated in many types of cancer, including melanoma, breast, and prostate cancer, promoting tumour growth or metastasis [2,3,15,25,26,27]
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