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一种用于小儿低级别星形细胞瘤非经典BRAF癌蛋白的可穿透血脑屏障的RAF二聚体拮抗剂。

A brain-penetrant RAF dimer antagonist for the noncanonical BRAF oncoprotein of pediatric low-grade astrocytomas.

作者信息

Sun Yu, Alberta John A, Pilarz Catherine, Calligaris David, Chadwick Emily J, Ramkissoon Shakti H, Ramkissoon Lori A, Garcia Veronica Matia, Mazzola Emanuele, Goumnerova Liliana, Kane Michael, Yao Zhan, Kieran Mark W, Ligon Keith L, Hahn William C, Garraway Levi A, Rosen Neal, Gray Nathanael S, Agar Nathalie Y, Buhrlage Sara J, Segal Rosalind A, Stiles Charles D

机构信息

Department of Neurobiology, Harvard Medical School, Boston, Massachusetts, USA.

Department of Cancer Biology, Dana-Farber Cancer Institute, Boston, Massachusetts, USA.

出版信息

Neuro Oncol. 2017 Jun 1;19(6):774-785. doi: 10.1093/neuonc/now261.

DOI:10.1093/neuonc/now261
PMID:28082416
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5464455/
Abstract

BACKGROUND

Activating mutations or structural rearrangements in BRAF are identified in roughly 75% of all pediatric low-grade astrocytomas (PLGAs). However, first-generation RAF inhibitors approved for adult melanoma have poor blood-brain penetrance and are only effective on tumors that express the canonical BRAFV600E oncoprotein, which functions as a monomer. These drugs (type I antagonists that target the "DFG-in" conformation of the kinase) fail to block signaling via KIAA1549:BRAF, a truncation/fusion BRAF oncoprotein which functions as a dimer and is found in the most common form of PLGA.

METHODS

A panel of small molecule RAF inhibitors (including type II inhibitors, targeting the "DFG-out" conformation of the kinase) was screened for drugs showing efficacy on murine models of PLGA and on authentic human PLGA cells expressing KIAA1549:BRAF.

RESULTS

We identify a type II RAF inhibitor that serves as an equipotent antagonist of BRAFV600E, KIAA1549:BRAF, and other noncanonical BRAF oncoproteins that function as dimers. This drug (MLN2480, also known as TAK-580) has good brain penetrance and is active on authentic human PLGA cells in brain organotypic cultures.

CONCLUSION

MLN2480 may be an effective therapeutic for BRAF mutant pediatric astrocytomas.

摘要

背景

在所有儿童低级别星形细胞瘤(PLGA)中,约75%可检测到BRAF激活突变或结构重排。然而,获批用于成人黑色素瘤的第一代RAF抑制剂血脑通透性差,仅对表达作为单体发挥作用的经典BRAFV600E癌蛋白的肿瘤有效。这些药物(靶向激酶“DFG-in”构象的I型拮抗剂)无法阻断通过KIAA1549:BRAF的信号传导,KIAA1549:BRAF是一种截断/融合的BRAF癌蛋白,以二聚体形式发挥作用,存在于最常见的PLGA类型中。

方法

筛选一组小分子RAF抑制剂(包括靶向激酶“DFG-out”构象的II型抑制剂),以寻找对PLGA小鼠模型以及对表达KIAA1549:BRAF的人源PLGA细胞有效的药物。

结果

我们鉴定出一种II型RAF抑制剂,它对BRAFV600E、KIAA1549:BRAF以及其他作为二聚体发挥作用的非经典BRAF癌蛋白具有同等效力的拮抗作用。这种药物(MLN2480,也称为TAK-580)具有良好的脑通透性,并且在脑器官型培养物中的人源PLGA细胞上具有活性。

结论

MLN2480可能是治疗BRAF突变型儿童星形细胞瘤的有效药物。

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