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Literature DB >> 33318037

Durable Suppression of Acquired MEK Inhibitor Resistance in Cancer by Sequestering MEK from ERK and Promoting Antitumor T-cell Immunity.

Aayoung Hong¹, Marco Piva¹, Sixue Liu¹, Gatien Moriceau², Roger S Lo^2,3,4, Willy Hugo^1,3, Shirley H Lomeli¹, Vincent Zoete⁵, Christopher E Randolph⁶, Zhentao Yang¹, Yan Wang¹, Jordan J Lee¹, Skylar J Lo¹, Lu Sun¹, Agustin Vega-Crespo⁷, Alejandro J Garcia^3,7, David B Shackelford^3,8, Steven M Dubinett^3,8,4, Philip O Scumpia^1,3,9, Stephanie D Byrum¹⁰, Alan J Tackett¹⁰, Timothy R Donahue^3,4,11, Olivier Michielin¹², Sheri L Holmen¹³, Antoni Ribas^3,7,4,11.

Abstract

MAPK targeting in cancer often fails due to MAPK reactivation. MEK inhibitor (MEKi) monotherapy provides limited clinical benefits but may serve as a foundation for combination therapies. Here, we showed that combining a type II RAF inhibitor (RAFi) with an allosteric MEKi durably prevents and overcomes acquired resistance among cancers with KRAS, NRAS, NF1, BRAF non-V600, and BRAF V600 mutations. Tumor cell-intrinsically, type II RAFi plus MEKi sequester MEK in RAF complexes, reduce MEK/MEK dimerization, and uncouple MEK from ERK in acquired-resistant tumor subpopulations. Immunologically, this combination expands memory and activated/exhausted CD8+ T cells, and durable tumor regression elicited by this combination requires CD8+ T cells, which can be reinvigorated by anti-PD-L1 therapy. Whereas MEKi reduces dominant intratumoral T-cell clones, type II RAFi cotreatment reverses this effect and promotes T-cell clonotypic expansion. These findings rationalize the clinical development of type II RAFi plus MEKi and their further combination with PD-1/L1-targeted therapy. SIGNIFICANCE: Type I RAFi + MEKi are indicated only in certain BRAF V600MUT cancers. In contrast, type II RAFi + MEKi are durably active against acquired MEKi resistance across broad cancer indications, which reveals exquisite MAPK addiction. Allosteric modulation of MAPK protein/protein interactions and temporal preservation of intratumoral CD8+ T cells are mechanisms that may be further exploited.This article is highlighted in the In This Issue feature, p. 521. ©2020 American Association for Cancer Research.

Entities: Chemical

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Year: 2020 PMID： 33318037 PMCID： PMC7933113 DOI： 10.1158/2159-8290.CD-20-0873

Source DB: PubMed Journal: Cancer Discov ISSN： 2159-8274 Impact factor: 39.397

58 in total

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5. Binimetinib versus dacarbazine in patients with advanced NRAS-mutant melanoma (NEMO): a multicentre, open-label, randomised, phase 3 trial.

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6. Acquired resistance and clonal evolution in melanoma during BRAF inhibitor therapy.

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Journal: Cancer Discov Date: 2013-11-21 Impact factor: 39.397

7. A Novel Numerical Scoring System for Melanoma Tumor-infiltrating Lymphocytes Has Better Prognostic Value Than Standard Scoring.

Authors: Gerald Saldanha; Katarina Flatman; Kah Wee Teo; Mark Bamford
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8. Pulsatile MEK Inhibition Improves Anti-tumor Immunity and T Cell Function in Murine Kras Mutant Lung Cancer.

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Journal: Cell Rep Date: 2019-04-16 Impact factor: 9.423

9. Single-cell transcriptome analysis reveals TOX as a promoting factor for T cell exhaustion and a predictor for anti-PD-1 responses in human cancer.

Authors: Kyungsoo Kim; Seyeon Park; Seong Yong Park; Gamin Kim; Su Myeong Park; Jae-Won Cho; Da Hee Kim; Young Min Park; Yoon Woo Koh; Hye Ryun Kim; Sang-Jun Ha; Insuk Lee
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10. COSMIC: the Catalogue Of Somatic Mutations In Cancer.

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Journal: Nucleic Acids Res Date: 2019-01-08 Impact factor: 16.971

11 in total

Review 1. Targeting oncogene and non-oncogene addiction to inflame the tumour microenvironment.

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Journal: Nat Rev Drug Discov Date: 2022-03-15 Impact factor: 84.694

2. Anti-PD-1/L1 lead-in before MAPK inhibitor combination maximizes antitumor immunity and efficacy.

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Journal: Cancer Cell Date: 2021-08-19 Impact factor: 38.585

3. A Genome-Wide Screen Identifies PDPK1 as a Target to Enhance the Efficacy of MEK1/2 Inhibitors in NRAS Mutant Melanoma.

Authors: Mai Q Nguyen; Nicole A Wilski; Timothy J Purwin; Weijia Cai; Mégane Vernon; Manoela Tiago; Andrew E Aplin
Journal: Cancer Res Date: 2022-07-18 Impact factor: 13.312

4. Enhancing PD-L1 Degradation by ITCH during MAPK Inhibitor Therapy Suppresses Acquired Resistance.

Authors: Zhentao Yang; Yan Wang; Sixue Liu; Weixian Deng; Shirley H Lomeli; Gatien Moriceau; James Wohlschlegel; Marco Piva; Roger S Lo
Journal: Cancer Discov Date: 2022-08-05 Impact factor: 38.272

5. HRS phosphorylation drives immunosuppressive exosome secretion and restricts CD8⁺ T-cell infiltration into tumors.

Authors: Lei Guan; Bin Wu; Ting Li; Lynn A Beer; Gaurav Sharma; Mingyue Li; Chin Nien Lee; Shujing Liu; Changsong Yang; Lili Huang; Dennie T Frederick; Genevieve M Boland; Guangcan Shao; Tatyana M Svitkina; Kathy Q Cai; Fangping Chen; Meng-Qiu Dong; Gordon B Mills; Lynn M Schuchter; Giorgos C Karakousis; Tara C Mitchell; Keith T Flaherty; David W Speicher; Youhai H Chen; Meenhard Herlyn; Ravi K Amaravadi; Xiaowei Xu; Wei Guo
Journal: Nat Commun Date: 2022-07-14 Impact factor: 17.694

6. Plasticity of Extrachromosomal and Intrachromosomal BRAF Amplifications in Overcoming Targeted Therapy Dosage Challenges.

Authors: Kai Song; Jenna K Minami; Arthur Huang; Siavash R Dehkordi; Shirley H Lomeli; Jens Luebeck; Mark H Goodman; Gatien Moriceau; Oscar Krijgsman; Prashanthi Dharanipragada; Trevor Ridgley; William P Crosson; Jesus Salazar; Eli Pazol; Gabriel Karin; Rachana Jayaraman; Nikolas G Balanis; Salwan Alhani; Kyle Sheu; Johanna Ten Hoeve; Amelia Palermo; Stephen E Motika; T Niroshi Senaratne; Kim H Paraiso; Paul J Hergenrother; P Nagesh Rao; Asha S Multani; Daniel S Peeper; Vineet Bafna; Roger S Lo; Thomas G Graeber
Journal: Cancer Discov Date: 2022-04-01 Impact factor: 38.272

7. Perspectives in Melanoma: meeting report from the Melanoma Bridge (December 3rd-5th, 2020, Italy).

Authors: Paolo A Ascierto; Christian Blank; Reinhard Dummer; Marc S Ernstoff; Soldano Ferrone; Bernard A Fox; Thomas F Gajewski; Claus Garbe; Patrick Hwu; Pawel Kalinski; Michelle Krogsgaard; Roger S Lo; Jason J Luke; Bart Neyns; Michael A Postow; Sergio A Quezada; Michele W L Teng; Giorgio Trinchieri; Alessandro Testori; Corrado Caracò; Iman Osman; Igor Puzanov; Magdalena Thurin
Journal: J Transl Med Date: 2021-06-30 Impact factor: 5.531

8. Response and recurrence correlates in individuals treated with neoadjuvant anti-PD-1 therapy for resectable oral cavity squamous cell carcinoma.

Authors: Sixue Liu; Hannah M Knochelmann; Shirley H Lomeli; Aayoung Hong; Mary Richardson; Zhentao Yang; Raymond J Lim; Yan Wang; Camelia Dumitras; Kostyantyn Krysan; Cynthia Timmers; Martin J Romeo; Carsten Krieg; Elizabeth C O'Quinn; Joshua D Horton; Steve M Dubinett; Chrystal M Paulos; David M Neskey; Roger S Lo
Journal: Cell Rep Med Date: 2021-10-19

9. KRAS acting through ERK signaling stabilizes PD-L1 via inhibiting autophagy pathway in intrahepatic cholangiocarcinoma.

Authors: Zheng Gao; Jia-Feng Chen; Xiao-Gang Li; Ying-Hong Shi; Zheng Tang; Wei-Ren Liu; Xin Zhang; Ao Huang; Xuan-Ming Luo; Qiang Gao; Guo-Ming Shi; Ai-Wu Ke; Jian Zhou; Jia Fan; Xiu-Tao Fu; Zhen-Bin Ding
Journal: Cancer Cell Int Date: 2022-03-19 Impact factor: 5.722

Review 10. Targeting BRAF and RAS in Colorectal Cancer.

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Journal: Cancers (Basel) Date: 2021-05-03 Impact factor: 6.639