Konieczkowski David J, Johannessen Cory M, Abudayyeh Omar, Kim Jong Wook, Cooper Zachary A, Piris Adriano, Frederick Dennie T, Barzily-Rokni Michal, Straussman Ravid, Haq Rizwan, Fisher David E, Mesirov Jill P, Hahn William C, Flaherty Keith T, Wargo Jennifer A, Tamayo Pablo, Garraway Levi A
Authors' Affiliations:Broad Institute of Harvard and MIT, Cambridge; Department of Medical Oncology, Dana-Farber Cancer Institute; Divisions of.
Authors' Affiliations:Broad Institute of Harvard and MIT, Cambridge;
Cancer Discov. 2014 Jul;4(7):816-27. doi: 10.1158/2159-8290.CD-13-0424. Epub 2014 Apr 25.
Most melanomas harbor oncogenic BRAF(V600) mutations, which constitutively activate the MAPK pathway. Although MAPK pathway inhibitors show clinical benefit in BRAF(V600)-mutant melanoma, it remains incompletely understood why 10% to 20% of patients fail to respond. Here, we show that RAF inhibitor-sensitive and inhibitor-resistant BRAF(V600)-mutant melanomas display distinct transcriptional profiles. Whereas most drug-sensitive cell lines and patient biopsies showed high expression and activity of the melanocytic lineage transcription factor MITF, intrinsically resistant cell lines and biopsies displayed low MITF expression but higher levels of NF-κB signaling and the receptor tyrosine kinase AXL. In vitro, these MITF-low/NF-κB-high melanomas were resistant to inhibition of RAF and MEK, singly or in combination, and ERK. Moreover, in cell lines, NF-κB activation antagonized MITF expression and induced both resistance marker genes and drug resistance. Thus, distinct cell states characterized by MITF or NF-κB activity may influence intrinsic resistance to MAPK pathway inhibitors in BRAF(V600)-mutant melanoma.
Although most BRAF(V600)-mutant melanomas are sensitive to RAF and/or MEK inhibitors, a subset fails to respond to such treatment. This study characterizes a transcriptional cell state distinction linked to MITF and NF-κB that may modulate intrinsic sensitivity of melanomas to MAPK pathway inhibitors.
大多数黑色素瘤携带致癌性BRAF(V600)突变,该突变可组成性激活丝裂原活化蛋白激酶(MAPK)通路。尽管MAPK通路抑制剂在BRAF(V600)突变型黑色素瘤中显示出临床益处,但仍不完全清楚为什么10%至20%的患者无反应。在此,我们表明对RAF抑制剂敏感和耐药的BRAF(V600)突变型黑色素瘤表现出不同的转录谱。大多数药物敏感细胞系和患者活检显示黑素细胞谱系转录因子MITF高表达和高活性,而内在耐药细胞系和活检显示MITF低表达,但NF-κB信号传导和受体酪氨酸激酶AXL水平较高。在体外,这些MITF低/NF-κB高的黑色素瘤对单独或联合抑制RAF和MEK以及ERK均耐药。此外,在细胞系中,NF-κB激活拮抗MITF表达并诱导耐药标记基因和耐药性。因此,以MITF或NF-κB活性为特征的不同细胞状态可能影响BRAF(V600)突变型黑色素瘤对MAPK通路抑制剂的内在耐药性。
尽管大多数BRAF(V600)突变型黑色素瘤对RAF和/或MEK抑制剂敏感,但有一部分患者对此类治疗无反应。本研究表征了一种与MITF和NF-κB相关的转录细胞状态差异,其可能调节黑色素瘤对MAPK通路抑制剂的内在敏感性。