Division of Hematology-Oncology, Department of Medicine, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea.
PLoS One. 2013 Jul 29;8(7):e69752. doi: 10.1371/journal.pone.0069752. Print 2013.
Dermatofibrosarcoma protuberans (DFSP) is a very rare soft tissue sarcoma. DFSP often reveals a specific chromosome translocation, t(17;22)(q22;q13), which results in the fusion of collagen 1 alpha 1 (COL1A1) gene and platelet-derived growth factor-B (PDGFB) gene. The COL1A1-PDGFB fusion protein activates the PDGFB receptor and resultant constitutive activation of PDGFR receptor is essential in the pathogenesis of DFSP. Thus, blocking PDGFR receptor activation with imatinib has shown promising activity in the treatment of advanced and metastatic DFSP. Despite the success with targeted agents in cancers, acquired drug resistance eventually occurs. Here, we tried to identify potential drug resistance mechanisms against imatinib in a 46-year old female with DFSP who initially responded well to imatinib but suffered rapid disease progression. We performed whole-genome sequencing of both pre-treatment and post-treatment tumor tissue to identify the mutational events associated with imatinib resistance. No significant copy number alterations, insertion, and deletions were identified during imatinib treatment. Of note, we identified newly emerged 8 non-synonymous somatic mutations of the genes (ACAP2, CARD10, KIAA0556, PAAQR7, PPP1R39, SAFB2, STARD9, and ZFYVE9) in the imatinib-resistant tumor tissue. This study revealed diverse possible candidate mechanisms by which imatinib resistance to PDGFRB inhibition may arise in DFSP, and highlights the usefulness of whole-genome sequencing in identifying drug resistance mechanisms and in pursuing genome-directed, personalized anti-cancer therapy.
隆突性皮肤纤维肉瘤(DFSP)是一种非常罕见的软组织肉瘤。DFSP 常表现出一种特定的染色体易位,t(17;22)(q22;q13),导致胶原 1 阿尔法 1(COL1A1)基因和血小板衍生生长因子-B(PDGFB)基因融合。COL1A1-PDGFB 融合蛋白激活 PDGFB 受体,导致 PDGFR 受体的组成性激活,这在 DFSP 的发病机制中是必不可少的。因此,用伊马替尼阻断 PDGFR 受体激活在治疗晚期和转移性 DFSP 方面显示出了有希望的活性。尽管靶向药物在癌症治疗中取得了成功,但最终还是会产生获得性耐药。在这里,我们试图在一名 46 岁的 DFSP 女性中确定对伊马替尼产生耐药性的潜在耐药机制,该患者最初对伊马替尼反应良好,但疾病迅速进展。我们对治疗前后的肿瘤组织进行了全基因组测序,以确定与伊马替尼耐药相关的突变事件。在伊马替尼治疗期间,没有发现明显的拷贝数改变、插入和缺失。值得注意的是,我们在伊马替尼耐药的肿瘤组织中发现了 8 个新出现的非 synonymous 体细胞突变(ACAP2、CARD10、KIAA0556、PAAQR7、PPP1R39、SAFB2、STARD9 和 ZFYVE9)。本研究揭示了 DFSP 中 PDGFRB 抑制的伊马替尼耐药可能出现的多种潜在候选机制,并强调了全基因组测序在识别耐药机制和追求基于基因组的个体化抗癌治疗方面的有用性。
