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鉴定丝氨酸生物合成途径是黑色素瘤、胰腺和非小细胞肺癌细胞对 BRAF 抑制剂产生耐药性的关键组成部分。

Identification of the Serine Biosynthesis Pathway as a Critical Component of BRAF Inhibitor Resistance of Melanoma, Pancreatic, and Non-Small Cell Lung Cancer Cells.

机构信息

Evol Science, Philadelphia, Pennsylvania.

Fox Chase Cancer Center, Philadelphia, Pennsylvania.

出版信息

Mol Cancer Ther. 2017 Aug;16(8):1596-1609. doi: 10.1158/1535-7163.MCT-16-0798. Epub 2017 May 12.

DOI:10.1158/1535-7163.MCT-16-0798
PMID:28500236
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5544579/
Abstract

Metastatic melanoma cells commonly acquire resistance to V600E inhibitors (BRAFi). In this study, we identified serine biosynthesis as a critical mechanism of resistance. Proteomic assays revealed differential protein expression of serine biosynthetic enzymes PHGDH, PSPH, and PSAT1 following vemurafenib (BRAFi) treatment in sensitive versus acquired resistant melanoma cells. Ablation of PHGDH via siRNA sensitized acquired resistant cells to vemurafenib. Inhibiting the folate cycle, directly downstream of serine synthesis, with methotrexate also displayed similar sensitization. Using the DNA-damaging drug gemcitabine, we show that gemcitabine pretreatment sensitized resistant melanoma cells to BRAFis vemurafenib and dabrafenib. We extended our findings to BRAF WT tumor cell lines that are intrinsically resistant to vemurafenib and dabrafenib. Pretreatment of pancreatic cancer and non-small cell lung cancer cell lines with sublethal doses of 50 and 5 nmol/L of gemcitabine, respectively, enhanced killing by both vemurafenib and dabrafenib. The novel aspects of this study are the direct identification of serine biosynthesis as a critical mechanism of V600E inhibitor resistance and the first successful example of using gemcitabine + BRAFis in combination to kill previously drug-resistant cancer cells, creating the translational potential of pretreatment with gemcitabine prior to BRAFi treatment of tumor cells to reverse resistance within the mutational profile and the WT. .

摘要

转移性黑色素瘤细胞通常会对 V600E 抑制剂(BRAFi)产生耐药性。在这项研究中,我们确定丝氨酸生物合成是耐药的关键机制。蛋白质组学分析显示,在敏感和获得性耐药黑色素瘤细胞中,经 vemurafenib(BRAFi)处理后,丝氨酸生物合成酶 PHGDH、PSPH 和 PSAT1 的差异蛋白表达。通过 siRNA 敲低 PHGDH 可使获得性耐药细胞对 vemurafenib 敏感。抑制丝氨酸合成下游的叶酸循环,用甲氨蝶呤也显示出类似的增敏作用。使用 DNA 损伤药物吉西他滨,我们表明吉西他滨预处理使耐药黑色素瘤细胞对 BRAFi(vemurafenib 和 dabrafenib)敏感。我们将我们的发现扩展到对 vemurafenib 和 dabrafenib 固有耐药的 BRAF WT 肿瘤细胞系。用分别为 50 和 5 nmol/L 的吉西他滨预处理胰腺癌和非小细胞肺癌细胞系,可增强 vemurafenib 和 dabrafenib 的杀伤作用。本研究的新颖之处在于直接鉴定出丝氨酸生物合成是 V600E 抑制剂耐药的关键机制,以及首次成功地使用吉西他滨+BRAFi 联合治疗先前耐药的癌细胞,为在 BRAFi 治疗肿瘤细胞之前用吉西他滨预处理创造了转化潜力,以逆转突变谱和 WT 内的耐药性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9054/5544579/00bf5968276f/nihms872851f7.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9054/5544579/2a1d3c2880d9/nihms872851f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9054/5544579/32115080db17/nihms872851f2.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9054/5544579/00bf5968276f/nihms872851f7.jpg

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