Tumorigenesis Driven by BRAFV600E Requires Secondary Mutations That Overcome Its Feedback Inhibition of RAC1 and Migration

Sunyana Gadal; Jacob A. Boyer; Simon F. Roy; Noah A. Outmezguine; Malvika Sharma; Hongyan Li; Ning Fan; Eric Chan; Yevgeniy Romin; Afsar Barlas; Qing Chang; Priya Pancholi; Neilawattie Merna Timaul; Michael Overholtzer; Rona Yaeger; Katia Manova-Todorova; Elisa de Stanchina; Marcus W. Bosenberg; Neal Rosen

doi:10.1158/0008-5472.CAN-24-2220

Tumorigenesis Driven by BRAF^V600E Requires Secondary Mutations That Overcome Its Feedback Inhibition of RAC1 and Migration

Sunyana Gadal
, Jacob A. Boyer
, Simon F. Roy
, Noah A. Outmezguine
, Malvika Sharma
, Hongyan Li
, Ning Fan
, Eric Chan
, Yevgeniy Romin
, Afsar Barlas
, Qing Chang
, Priya Pancholi
, Neilawattie Merna Timaul
, Michael Overholtzer
, Rona Yaeger
, Katia Manova-Todorova
, Elisa de Stanchina
, Marcus W. Bosenberg
, Neal Rosen

Princeton Branch of the Ludwig Institute for Cancer Research

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

BRAF^V600E mutations occur in 46% of melanomas and drive high levels of ERK activity and ERK-dependent proliferation. However, BRAF^V600E is insufficient to drive melanoma in genetically engineered mouse models, and 82% of human benign nevi harbor BRAF^V600E mutations. We found that BRAF^V600E inhibited mesenchymal migration by causing feedback inhibition of RAC1 activity. ERK pathway inhibition induced RAC1 activation and restored migration and invasion. In cells with BRAF^V600E, mutant RAC1 or PTEN inactivation restored RAC1 activity and cell motility. Together, these lesions occurred in 26% of melanomas with BRAF^V600E mutations. Thus, although BRAF^V600E activation of ERK deregulates cell proliferation, it prevents full malignant transformation by causing feedback inhibition of RAC1. Secondary mutations are, therefore, required for tumorigenesis. One mechanism underlying tumor evolution may be the selection of lesions that rescue the deleterious effects of oncogenic drivers.

Original language	English (US)
Pages (from-to)	1611-1627
Number of pages	17
Journal	Cancer Research
Volume	85
Issue number	9
DOIs	https://doi.org/10.1158/0008-5472.CAN-24-2220
State	Published - May 1 2025

All Science Journal Classification (ASJC) codes

Oncology
Cancer Research

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10.1158/0008-5472.CAN-24-2220

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Gadal, S., Boyer, J. A., Roy, S. F., Outmezguine, N. A., Sharma, M., Li, H., Fan, N., Chan, E., Romin, Y., Barlas, A., Chang, Q., Pancholi, P., Timaul, N. M., Overholtzer, M., Yaeger, R., Manova-Todorova, K., de Stanchina, E., Bosenberg, M. W., & Rosen, N. (2025). Tumorigenesis Driven by BRAF^V600E Requires Secondary Mutations That Overcome Its Feedback Inhibition of RAC1 and Migration. Cancer Research, 85(9), 1611-1627. https://doi.org/10.1158/0008-5472.CAN-24-2220

@article{c1ece1401f9245aaa207323d4dd79865,

title = "Tumorigenesis Driven by BRAFV600E Requires Secondary Mutations That Overcome Its Feedback Inhibition of RAC1 and Migration",

abstract = "BRAFV600E mutations occur in 46\% of melanomas and drive high levels of ERK activity and ERK-dependent proliferation. However, BRAFV600E is insufficient to drive melanoma in genetically engineered mouse models, and 82\% of human benign nevi harbor BRAFV600E mutations. We found that BRAFV600E inhibited mesenchymal migration by causing feedback inhibition of RAC1 activity. ERK pathway inhibition induced RAC1 activation and restored migration and invasion. In cells with BRAFV600E, mutant RAC1 or PTEN inactivation restored RAC1 activity and cell motility. Together, these lesions occurred in 26\% of melanomas with BRAFV600E mutations. Thus, although BRAFV600E activation of ERK deregulates cell proliferation, it prevents full malignant transformation by causing feedback inhibition of RAC1. Secondary mutations are, therefore, required for tumorigenesis. One mechanism underlying tumor evolution may be the selection of lesions that rescue the deleterious effects of oncogenic drivers.",

author = "Sunyana Gadal and Boyer, \{Jacob A.\} and Roy, \{Simon F.\} and Outmezguine, \{Noah A.\} and Malvika Sharma and Hongyan Li and Ning Fan and Eric Chan and Yevgeniy Romin and Afsar Barlas and Qing Chang and Priya Pancholi and Timaul, \{Neilawattie Merna\} and Michael Overholtzer and Rona Yaeger and Katia Manova-Todorova and \{de Stanchina\}, Elisa and Bosenberg, \{Marcus W.\} and Neal Rosen",

note = "Publisher Copyright: {\textcopyright}2025 The Authors;",

year = "2025",

month = may,

day = "1",

doi = "10.1158/0008-5472.CAN-24-2220",

language = "English (US)",

volume = "85",

pages = "1611--1627",

journal = "Cancer Research",

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Gadal, S, Boyer, JA, Roy, SF, Outmezguine, NA, Sharma, M, Li, H, Fan, N, Chan, E, Romin, Y, Barlas, A, Chang, Q, Pancholi, P, Timaul, NM, Overholtzer, M, Yaeger, R, Manova-Todorova, K, de Stanchina, E, Bosenberg, MW & Rosen, N 2025, 'Tumorigenesis Driven by BRAF^V600E Requires Secondary Mutations That Overcome Its Feedback Inhibition of RAC1 and Migration', Cancer Research, vol. 85, no. 9, pp. 1611-1627. https://doi.org/10.1158/0008-5472.CAN-24-2220

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T1 - Tumorigenesis Driven by BRAFV600E Requires Secondary Mutations That Overcome Its Feedback Inhibition of RAC1 and Migration

AU - Gadal, Sunyana

AU - Boyer, Jacob A.

AU - Roy, Simon F.

AU - Outmezguine, Noah A.

AU - Sharma, Malvika

AU - Li, Hongyan

AU - Fan, Ning

AU - Chan, Eric

AU - Romin, Yevgeniy

AU - Barlas, Afsar

AU - Chang, Qing

AU - Pancholi, Priya

AU - Timaul, Neilawattie Merna

AU - Overholtzer, Michael

AU - Yaeger, Rona

AU - Manova-Todorova, Katia

AU - de Stanchina, Elisa

AU - Bosenberg, Marcus W.

AU - Rosen, Neal

PY - 2025/5/1

Y1 - 2025/5/1

N2 - BRAFV600E mutations occur in 46% of melanomas and drive high levels of ERK activity and ERK-dependent proliferation. However, BRAFV600E is insufficient to drive melanoma in genetically engineered mouse models, and 82% of human benign nevi harbor BRAFV600E mutations. We found that BRAFV600E inhibited mesenchymal migration by causing feedback inhibition of RAC1 activity. ERK pathway inhibition induced RAC1 activation and restored migration and invasion. In cells with BRAFV600E, mutant RAC1 or PTEN inactivation restored RAC1 activity and cell motility. Together, these lesions occurred in 26% of melanomas with BRAFV600E mutations. Thus, although BRAFV600E activation of ERK deregulates cell proliferation, it prevents full malignant transformation by causing feedback inhibition of RAC1. Secondary mutations are, therefore, required for tumorigenesis. One mechanism underlying tumor evolution may be the selection of lesions that rescue the deleterious effects of oncogenic drivers.

AB - BRAFV600E mutations occur in 46% of melanomas and drive high levels of ERK activity and ERK-dependent proliferation. However, BRAFV600E is insufficient to drive melanoma in genetically engineered mouse models, and 82% of human benign nevi harbor BRAFV600E mutations. We found that BRAFV600E inhibited mesenchymal migration by causing feedback inhibition of RAC1 activity. ERK pathway inhibition induced RAC1 activation and restored migration and invasion. In cells with BRAFV600E, mutant RAC1 or PTEN inactivation restored RAC1 activity and cell motility. Together, these lesions occurred in 26% of melanomas with BRAFV600E mutations. Thus, although BRAFV600E activation of ERK deregulates cell proliferation, it prevents full malignant transformation by causing feedback inhibition of RAC1. Secondary mutations are, therefore, required for tumorigenesis. One mechanism underlying tumor evolution may be the selection of lesions that rescue the deleterious effects of oncogenic drivers.

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U2 - 10.1158/0008-5472.CAN-24-2220

DO - 10.1158/0008-5472.CAN-24-2220

M3 - Article

C2 - 39992718

AN - SCOPUS:105004567867

SN - 0008-5472

VL - 85

SP - 1611

EP - 1627

JO - Cancer Research

JF - Cancer Research

IS - 9

ER -

Tumorigenesis Driven by BRAF^V600E Requires Secondary Mutations That Overcome Its Feedback Inhibition of RAC1 and Migration

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