Abstract
RAS oncogenes are among the most frequently mutated genes in human cancer, but effective strategies for therapeutic inhibition of the RAS pathway have been elusive. Sprouty1 (SPRY1) is an upstream antagonist of RAS that is activated by extracellular signal-related kinase (ERK), providing a negative feedback loop for RAS signaling, and other evidence suggests that SPRY1 may have a tumor suppressor function. Studies of RAS status in the human childhood tumor rhabdomyosarcoma (RMS) indicated mutations in approximately half of the tumors of the embryonal rhabdomyosarcoma subtype (ERMS) but not the alveolar subtype (ARMS). ERMS tumors also showed overexpression of SPRY1, which was indeed upregulated by mutant RAS. However, we found that, in the presence of mutant RAS, the function of SPRY1 was changed from an antagonist to an agonist of RAS signaling. Thus, SPRY1 supported formation of activated ERK and mitogen-activated protein/ERK kinase and was essential for ERMS cell proliferation and survival. Conversely, silencing of SPRY1 in ERMS cells (but not ARMS cells) abolished their tumorigenicity in mice. Moreover, silencing of SPRY1 caused regression of established ERMS tumors (but not ARMS tumors) formed in xenograft settings. Our findings argue that SPRY1 inhibition can offer a therapeutic strategy to treat childhood RMS and possibly other tumors carrying oncogenic RAS mutations.
Highlights
About one third of all human cancers are thought to carry a mutated RAS gene [1]
Data presented in this article show that endogenous levels of SPRY1 seem to protect oncogenic RAS-positive embryonal rhabdomyosarcoma subtype (ERMS) cells from the induction of cell death
SPRY proteins are transcriptionally upregulated by the activated RAS pathway, as we have shown in this article
Summary
Mutations are concentrated in codons 12, 13, and 61 of the three RAS family members (HRAS, KRAS, and NRAS) and result in activation of the RAS downstream pathway. Extensive research in this field has revealed much of the downstream signaling pathways that execute the programs initiated by mutant RAS, but therapeutic inhibition of the RAS pathway has not yet been successful [1, 2]. This may indicate that much redundancy exists downstream of oncogenic RAS or vital targets have escaped our attention.
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