Abstract

Abstract Oncogenic activation of ERK occurs in as many as 50% of human tumors and in the majority of melanomas. Activated BRAF V600E hyperactivates ERK signaling and causes ERK dependent dysregulation of proliferation. However, BRAF V600E alone is insufficient to drive melanoma formation in genetically engineered mice models. Moreover, 82% of benign nevi harbor BRAF V600E mutations. In contrast, in BRAF V600E/PTEN-/- GEMM models, rapid onset of aggressive and disseminated melanomas occurs. We show here that cell migration and invasion of melanocytes expressing BRAFV600E is depressed in vitro and in vivo and significantly accelerated by pharmacologic inhibition of ERK signaling or by deletion of PTEN. Upon ERK inhibition, cells lose their cell-cell junctions and become single cells with actin rich protrusions and a mesenchymal morphology. ERK pathway activation affects each step of the migration cycle, impeding cell spreading, assembly of stress fibers, and focal contact formation, all of which are associated with decreased mobility and invasion. Hyperactivation of ERK signaling by BRAF V600E has been shown to cause potent feedback inhibition of RTK signaling and wild type RAS. We now show that this is associated with feedback inhibition of RAC1, a RAS-like small GTPase required for cell migration. Moreover, ERK pathway inhibition reactivates RAC in an RTK-dependent manner. Consistent with these findings, expression of RAC1 P29S, an activating mutant, and overexpression of PREX2, an activator of RAC1, both rescue migration in BRAF V600E cells, as does loss of PTEN expression, which converges with RAC1 activation downstream. Taken together, these data suggest that whereas hyperactivation of ERK signaling by BRAFV600E dysregulates proliferation, ERK dependent feedback inhibition of RAC1 inhibits cell mobility and invasiveness and prevents full transformation. Selection of secondary genetic events that overcome or bypass RAC1 feedback is thus required for full transformation. In support of this view, RAC1 mutation, PTEN loss, or PREX2 amplification occurs in 38% of human melanomas. Thus, oncogene induced feedback may be deleterious and directs tumor evolution by causing selection of mutations that restore functions necessary for transformation Citation Format: Sunyana Gadal, Jacob A. Boyer, Hongyan Li, Ning Fan, Eric Chan, Yevgeniy Romin, Elisa De Stanchina, Rona Yeager, Marcus Bosenberg, Katia M. Todorova, Neal Rosen. Migration of V600E-expressing cells is suppressed by ERK-dependent feedback inhibition of RAC1 and rescued in melanoma by secondary mutations [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 2422.

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