Abstract
Lung cancer is the leading cause of cancer-related deaths worldwide, with non-small cell lung cancer (NSCLC) representing ∼85% of new diagnoses. The disease is often detected in an advanced metastatic stage, with poor prognosis and clinical outcome. In order to escape from the primary tumor, cancer cells acquire highly motile and invasive phenotypes that involve the dynamic reorganization of the actin cytoskeleton. These processes are tightly regulated by Rac1, a small G-protein that participates in the formation of actin-rich membrane protrusions required for cancer cell motility and for the secretion of extracellular matrix (ECM)-degrading proteases. In this perspective article we focus on the mechanisms leading to aberrant Rac1 signaling in NSCLC progression and metastasis, highlighting the role of Rac Guanine nucleotide Exchange Factors (GEFs). A plausible scenario is that specific Rac-GEFs activate discrete intracellular pools of Rac1, leading to unique functional responses in the context of specific oncogenic drivers, such as mutant EGFR or mutant KRAS. The identification of dysregulated Rac signaling regulators may serve to predict critical biomarkers for metastatic disease in lung cancer patients, ultimately aiding in refining patient prognosis and decision-making in the clinical setting.
Highlights
Lung cancer causes the most cancer-related deaths worldwide, representing ∼25% of annual cancer fatalities
According to the first comprehensive molecular profiling of lung adenocarcinomas, the most common somatic mutations in lung adenocarcinomas occur in TP53 (46%), KRAS (33%), KEAP1 (17%), STK11 (17%) EGFR (14%), NF1 (11%), and BRAF (10%), Rac1 in Lung Cancer Metastasis and less frequently in MET, PIK3CA, RB1, CDKN2A among other genes (The Cancer Genome Atlas Research Network, 2018)
While Rac1 cycling between GDP- and GTP-bound states mediated by Guanine nucleotide Exchange Factors (GEFs) and GTPase-Activating Proteins (GAPs) is essential to elicit biological functions, other regulatory mechanisms play relevant roles in modulating its cellular activity
Summary
Lung cancer causes the most cancer-related deaths worldwide, representing ∼25% of annual cancer fatalities. Similar to most members of the Rho family of guanine-nucleotide binding proteins, Rac1 is a small GTPase (Mw ∼ 21 kDa) that cycles between active GTP-bound and inactive GDPbound states, and is the most prominently expressed Rac GTPase in lung cancer (Caino et al, 2012).
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