Same-Cell Co-Occurrence of RAS Hotspot and BRAF V600E Mutations in Treatment-Naive Colorectal Cancer

Rodrigo Gularte-Mérida; Shaleigh Smith; Anita S. Bowman; Arnaud da Cruz Paula; Walid Chatila; Craig M. Bielski; Monika Vyas; Laetitia Borsu; Ahmet Zehir; Luciano G. Martelotto; Jinru Shia; Rona Yaeger; Fang Fang; Rui Gardner; Ruibang Luo; Michael C. Schatz; Ronglai Shen; Britta Weigelt; Francisco Sánchez-Vega; Jorge S. Reis-Filho; Jaclyn F. Hechtman

doi:10.1200/PO.21.00365

Same-Cell Co-Occurrence of RAS Hotspot and BRAF V600E Mutations in Treatment-Naive Colorectal Cancer

Rodrigo Gularte-Mérida, Shaleigh Smith, Anita S. Bowman, Arnaud da Cruz Paula, Walid Chatila, Craig M. Bielski, Monika Vyas, Laetitia Borsu, Ahmet Zehir, Luciano G. Martelotto, Jinru Shia, Rona Yaeger, Fang Fang, Rui Gardner, Ruibang Luo, Michael C. Schatz, Ronglai Shen, Britta Weigelt, Francisco Sánchez-Vega, Jorge S. Reis-FilhoJaclyn F. Hechtman

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

Abstract

PURPOSE Mitogen-activated protein kinase pathway–activating mutations occur in the majority of colorectal cancer (CRC) cases and show mutual exclusivity. We identified 47 epidermal growth factor receptor/BRAF inhibitor-naive CRC patients with dual RAS hotspot/BRAF V600E mutations (CRC-DD) from a cohort of 4,561 CRC patients with clinical next-generation sequencing results. We aimed to define the molecular phenotypes of the CRC-DD and to test if the dual RAS hotspot/BRAF V600E mutations coexist within the same cell. MATERIALS AND METHODS We developed a single-cell genotyping method with a mutation detection rate of 96.3% and a genotype prediction accuracy of 92.1%. Mutations in the CRC-DD cohort were analyzed for clonality, allelic imbalance, copy number, and overall survival. RESULTS Application of single-cell genotyping to four CRC-DD revealed the co-occurrence of both mutations in the following percentages of cells per case: NRAS G13D/KRAS G12C, 95%; KRAS G12D/NRAS G12V, 48%; BRAF V600E/KRAS G12D, 44%; and KRAS G12D/NRAS G13V, 14%, respectively. Allelic imbalance favoring the oncogenic allele was less frequent in CRC-DD (24 of 76, 31.5%, somatic mutations) compared with a curated cohort of CRC with a single-driver mutation (CRC-SD; 119 of 232 mutations, 51.3%; P = .013). Microsatellite instability–high status was enriched in CRC-DD compared with CRC-SD (23% v 11.4%, P = .028). Of the seven CRC-DD cases with multiregional sequencing, five retained both driver mutations throughout all sequenced tumor sites. Both CRC-DD cases with discordant multiregional sequencing were microsatellite instability–high. CONCLUSION Our findings indicate that dual-driver mutations occur in a rare subset of CRC, often within the same tumor cells and across multiple tumor sites. Their presence and a lower rate of allelic imbalance may be related to dose-dependent signaling within the mitogen-activated protein kinase pathway.

Original language	English (US)
Article number	e2100365
Journal	JCO Precision Oncology
Volume	6
DOIs	https://doi.org/10.1200/PO.21.00365
State	Published - 2022
Externally published	Yes

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1200/PO.21.00365

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Gularte-Mérida, R., Smith, S., Bowman, A. S., da Cruz Paula, A., Chatila, W., Bielski, C. M., Vyas, M., Borsu, L., Zehir, A., Martelotto, L. G., Shia, J., Yaeger, R., Fang, F., Gardner, R., Luo, R., Schatz, M. C., Shen, R., Weigelt, B., Sánchez-Vega, F., ... Hechtman, J. F. (2022). Same-Cell Co-Occurrence of RAS Hotspot and BRAF V600E Mutations in Treatment-Naive Colorectal Cancer. JCO Precision Oncology, 6, Article e2100365. https://doi.org/10.1200/PO.21.00365

Gularte-Mérida, R, Smith, S, Bowman, AS, da Cruz Paula, A, Chatila, W, Bielski, CM, Vyas, M, Borsu, L, Zehir, A, Martelotto, LG, Shia, J, Yaeger, R, Fang, F, Gardner, R, Luo, R, Schatz, MC, Shen, R, Weigelt, B, Sánchez-Vega, F, Reis-Filho, JS & Hechtman, JF 2022, 'Same-Cell Co-Occurrence of RAS Hotspot and BRAF V600E Mutations in Treatment-Naive Colorectal Cancer', JCO Precision Oncology, vol. 6, e2100365. https://doi.org/10.1200/PO.21.00365

@article{4c24b91d416c4cb886d4096505b5531b,

title = "Same-Cell Co-Occurrence of RAS Hotspot and BRAF V600E Mutations in Treatment-Naive Colorectal Cancer",

abstract = "PURPOSE Mitogen-activated protein kinase pathway–activating mutations occur in the majority of colorectal cancer (CRC) cases and show mutual exclusivity. We identified 47 epidermal growth factor receptor/BRAF inhibitor-naive CRC patients with dual RAS hotspot/BRAF V600E mutations (CRC-DD) from a cohort of 4,561 CRC patients with clinical next-generation sequencing results. We aimed to define the molecular phenotypes of the CRC-DD and to test if the dual RAS hotspot/BRAF V600E mutations coexist within the same cell. MATERIALS AND METHODS We developed a single-cell genotyping method with a mutation detection rate of 96.3% and a genotype prediction accuracy of 92.1%. Mutations in the CRC-DD cohort were analyzed for clonality, allelic imbalance, copy number, and overall survival. RESULTS Application of single-cell genotyping to four CRC-DD revealed the co-occurrence of both mutations in the following percentages of cells per case: NRAS G13D/KRAS G12C, 95%; KRAS G12D/NRAS G12V, 48%; BRAF V600E/KRAS G12D, 44%; and KRAS G12D/NRAS G13V, 14%, respectively. Allelic imbalance favoring the oncogenic allele was less frequent in CRC-DD (24 of 76, 31.5%, somatic mutations) compared with a curated cohort of CRC with a single-driver mutation (CRC-SD; 119 of 232 mutations, 51.3%; P = .013). Microsatellite instability–high status was enriched in CRC-DD compared with CRC-SD (23% v 11.4%, P = .028). Of the seven CRC-DD cases with multiregional sequencing, five retained both driver mutations throughout all sequenced tumor sites. Both CRC-DD cases with discordant multiregional sequencing were microsatellite instability–high. CONCLUSION Our findings indicate that dual-driver mutations occur in a rare subset of CRC, often within the same tumor cells and across multiple tumor sites. Their presence and a lower rate of allelic imbalance may be related to dose-dependent signaling within the mitogen-activated protein kinase pathway.",

author = "Rodrigo Gularte-M{\'e}rida and Shaleigh Smith and Bowman, {Anita S.} and {da Cruz Paula}, Arnaud and Walid Chatila and Bielski, {Craig M.} and Monika Vyas and Laetitia Borsu and Ahmet Zehir and Martelotto, {Luciano G.} and Jinru Shia and Rona Yaeger and Fang Fang and Rui Gardner and Ruibang Luo and Schatz, {Michael C.} and Ronglai Shen and Britta Weigelt and Francisco S{\'a}nchez-Vega and Reis-Filho, {Jorge S.} and Hechtman, {Jaclyn F.}",

note = "Publisher Copyright: {\textcopyright} 2022 by American Society of Clinical Oncology",

year = "2022",

doi = "10.1200/PO.21.00365",

language = "English (US)",

volume = "6",

journal = "JCO Precision Oncology",

issn = "2473-4284",

publisher = "Lippincott Williams and Wilkins",

}

TY - JOUR

T1 - Same-Cell Co-Occurrence of RAS Hotspot and BRAF V600E Mutations in Treatment-Naive Colorectal Cancer

AU - Gularte-Mérida, Rodrigo

AU - Smith, Shaleigh

AU - Bowman, Anita S.

AU - da Cruz Paula, Arnaud

AU - Chatila, Walid

AU - Bielski, Craig M.

AU - Vyas, Monika

AU - Borsu, Laetitia

AU - Zehir, Ahmet

AU - Martelotto, Luciano G.

AU - Shia, Jinru

AU - Yaeger, Rona

AU - Fang, Fang

AU - Gardner, Rui

AU - Luo, Ruibang

AU - Schatz, Michael C.

AU - Shen, Ronglai

AU - Weigelt, Britta

AU - Sánchez-Vega, Francisco

AU - Reis-Filho, Jorge S.

AU - Hechtman, Jaclyn F.

PY - 2022

Y1 - 2022

N2 - PURPOSE Mitogen-activated protein kinase pathway–activating mutations occur in the majority of colorectal cancer (CRC) cases and show mutual exclusivity. We identified 47 epidermal growth factor receptor/BRAF inhibitor-naive CRC patients with dual RAS hotspot/BRAF V600E mutations (CRC-DD) from a cohort of 4,561 CRC patients with clinical next-generation sequencing results. We aimed to define the molecular phenotypes of the CRC-DD and to test if the dual RAS hotspot/BRAF V600E mutations coexist within the same cell. MATERIALS AND METHODS We developed a single-cell genotyping method with a mutation detection rate of 96.3% and a genotype prediction accuracy of 92.1%. Mutations in the CRC-DD cohort were analyzed for clonality, allelic imbalance, copy number, and overall survival. RESULTS Application of single-cell genotyping to four CRC-DD revealed the co-occurrence of both mutations in the following percentages of cells per case: NRAS G13D/KRAS G12C, 95%; KRAS G12D/NRAS G12V, 48%; BRAF V600E/KRAS G12D, 44%; and KRAS G12D/NRAS G13V, 14%, respectively. Allelic imbalance favoring the oncogenic allele was less frequent in CRC-DD (24 of 76, 31.5%, somatic mutations) compared with a curated cohort of CRC with a single-driver mutation (CRC-SD; 119 of 232 mutations, 51.3%; P = .013). Microsatellite instability–high status was enriched in CRC-DD compared with CRC-SD (23% v 11.4%, P = .028). Of the seven CRC-DD cases with multiregional sequencing, five retained both driver mutations throughout all sequenced tumor sites. Both CRC-DD cases with discordant multiregional sequencing were microsatellite instability–high. CONCLUSION Our findings indicate that dual-driver mutations occur in a rare subset of CRC, often within the same tumor cells and across multiple tumor sites. Their presence and a lower rate of allelic imbalance may be related to dose-dependent signaling within the mitogen-activated protein kinase pathway.

AB - PURPOSE Mitogen-activated protein kinase pathway–activating mutations occur in the majority of colorectal cancer (CRC) cases and show mutual exclusivity. We identified 47 epidermal growth factor receptor/BRAF inhibitor-naive CRC patients with dual RAS hotspot/BRAF V600E mutations (CRC-DD) from a cohort of 4,561 CRC patients with clinical next-generation sequencing results. We aimed to define the molecular phenotypes of the CRC-DD and to test if the dual RAS hotspot/BRAF V600E mutations coexist within the same cell. MATERIALS AND METHODS We developed a single-cell genotyping method with a mutation detection rate of 96.3% and a genotype prediction accuracy of 92.1%. Mutations in the CRC-DD cohort were analyzed for clonality, allelic imbalance, copy number, and overall survival. RESULTS Application of single-cell genotyping to four CRC-DD revealed the co-occurrence of both mutations in the following percentages of cells per case: NRAS G13D/KRAS G12C, 95%; KRAS G12D/NRAS G12V, 48%; BRAF V600E/KRAS G12D, 44%; and KRAS G12D/NRAS G13V, 14%, respectively. Allelic imbalance favoring the oncogenic allele was less frequent in CRC-DD (24 of 76, 31.5%, somatic mutations) compared with a curated cohort of CRC with a single-driver mutation (CRC-SD; 119 of 232 mutations, 51.3%; P = .013). Microsatellite instability–high status was enriched in CRC-DD compared with CRC-SD (23% v 11.4%, P = .028). Of the seven CRC-DD cases with multiregional sequencing, five retained both driver mutations throughout all sequenced tumor sites. Both CRC-DD cases with discordant multiregional sequencing were microsatellite instability–high. CONCLUSION Our findings indicate that dual-driver mutations occur in a rare subset of CRC, often within the same tumor cells and across multiple tumor sites. Their presence and a lower rate of allelic imbalance may be related to dose-dependent signaling within the mitogen-activated protein kinase pathway.

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UR - http://www.scopus.com/inward/citedby.url?scp=85127605439&partnerID=8YFLogxK

U2 - 10.1200/PO.21.00365

DO - 10.1200/PO.21.00365

M3 - Article

C2 - 35235413

AN - SCOPUS:85127605439

SN - 2473-4284

VL - 6

JO - JCO Precision Oncology

JF - JCO Precision Oncology

M1 - e2100365

ER -

Same-Cell Co-Occurrence of RAS Hotspot and BRAF V600E Mutations in Treatment-Naive Colorectal Cancer

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