新一代 ALK 抑制剂治疗引发血浆基因突变多样性。

Treatment with Next-Generation ALK Inhibitors Fuels Plasma Mutation Diversity.

机构信息

Massachusetts General Hospital Cancer Center and Department of Medicine, Massachusetts General Hospital, Boston, Massachusetts.

Guardant Health, Inc., Redwood City, California.

出版信息

Clin Cancer Res. 2019 Nov 15;25(22):6662-6670. doi: 10.1158/1078-0432.CCR-19-1436. Epub 2019 Jul 29.

DOI:10.1158/1078-0432.CCR-19-1436

PMID:31358542

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6858956/

Abstract

PURPOSE

Acquired resistance to next-generation ALK tyrosine kinase inhibitors (TKIs) is often driven by secondary mutations. Here, we investigated utility of plasma genotyping for identifying resistance mutations at relapse on next-generation ALK TKIs.

EXPERIMENTAL DESIGN

We analyzed 106 plasma specimens from 84 patients with advanced -positive lung cancer treated with second- and third-generation ALK TKIs using a commercially available next-generation sequencing (NGS) platform (Guardant360). Tumor biopsies from TKI-resistant lesions underwent targeted NGS to identify mutations.

RESULTS

By genotyping plasma, we detected an mutation in 46 (66%) of 70 patients relapsing on a second-generation ALK TKI. When post-alectinib plasma and tumor specimens were compared, there was no difference in frequency of mutations (67% vs. 63%), but plasma specimens were more likely to harbor ≥2 mutations (24% vs. 2%, = 0.004). Among 29 patients relapsing on lorlatinib, plasma genotyping detected an mutation in 22 (76%), including 14 (48%) with ≥2 mutations. The most frequent combinations of mutations were G1202R/L1196M and D1203N/1171N. Detection of ≥2 mutations was significantly more common in patients relapsing on lorlatinib compared with second-generation ALK TKIs (48% vs. 23%, = 0.017). Among 15 patients who received lorlatinib after a second-generation TKI, serial plasma analysis demonstrated that eight (53%) acquired ≥1 new mutations on lorlatinib.

CONCLUSIONS

resistance mutations increase with each successive generation of ALK TKI and may be underestimated by tumor genotyping. Sequential treatment with increasingly potent ALK TKIs may promote acquisition of resistance mutations leading to treatment-refractory compound mutations.

摘要

目的

下一代 ALK 酪氨酸激酶抑制剂 (TKI) 的获得性耐药通常由继发突变驱动。在这里，我们研究了血浆基因分型在识别下一代 ALK TKI 复发时耐药突变的应用。

实验设计

我们使用一种商业上可用的下一代测序 (NGS) 平台 (Guardant360) 分析了 84 名接受第二代和第三代 ALK TKI 治疗的晚期阳性肺癌患者的 106 份血浆标本。对 TKI 耐药病变的肿瘤活检进行靶向 NGS 以鉴定突变。

结果

通过对血浆进行基因分型，我们在 70 名接受第二代 ALK TKI 治疗后复发的患者中检测到 46 例（66%）存在突变。当比较艾乐替尼后血浆和肿瘤标本时，突变的频率没有差异（67%比 63%），但血浆标本更可能存在≥2 个突变（24%比 2%，=0.004）。在 29 名接受洛拉替尼治疗后复发的患者中，血浆基因分型检测到 22 例（76%）存在突变，其中 14 例（48%）存在≥2 个突变。最常见的突变组合是 G1202R/L1196M 和 D1203N/1171N。与第二代 ALK TKI 相比，在接受洛拉替尼治疗后复发的患者中检测到≥2 个突变的频率明显更高（48%比 23%，=0.017）。在 15 名接受第二代 TKI 治疗后接受洛拉替尼治疗的患者中，连续的血浆分析显示，8 名（53%）在洛拉替尼治疗中获得了≥1 个新的突变。

结论

ALK TKI 的每一代药物耐药突变都会增加，并且可能被肿瘤基因分型低估。序贯使用越来越有效的 ALK TKI 可能会促进获得性耐药突变的产生，导致治疗难治性复合突变。

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