Juliachs Mercè, Pujals Mireia, Bellio Chiara, Meo-Evoli Nathalie, Duran Juan M, Zamora Esther, Parés Mireia, Suñol Anna, Méndez Olga, Sánchez-Pla Alex, Canals Francesc, Saura Cristina, Villanueva Josep
Vall d'Hebron Institut of Oncology (VHIO), 08035 Barcelona, Spain.
Department of Medical Oncology, Vall d'Hebron University Hospital, 08035 Barcelona, Spain.
Cancers (Basel). 2022 Aug 10;14(16):3858. doi: 10.3390/cancers14163858.
There is a great need for non-invasive tools that inform of an early molecular response to cancer therapeutic treatment. Here, we tested the hypothesis that proteolytically resistant proteins could be candidate circulating tumor biomarkers for cancer therapy. Proteins resistant to proteolysis are drastically under-sampled by current proteomic workflows. These proteins could be reliable sensors for the response to therapy since they are likely to stay longer in circulation. We selected manganese superoxide dismutase (SOD2), a mitochondrial redox enzyme, from a screening of proteolytic resistant proteins in breast cancer (BC). First, we confirmed the robustness of SOD2 and determined that its proteolytic resistance is mediated by its quaternary protein structure. We also proved that the release of SOD2 upon chemotherapy treatment correlates with cell death in BC cells. Then, after confirming that SOD2 is very stable in human serum, we sought to measure its circulating levels in a cohort of BC patients undergoing neoadjuvant therapy. The results showed that circulating levels of SOD2 increased when patients responded to the treatment according to the tumor shrinkage during neoadjuvant chemotherapy. Therefore, the measurement of SOD2 levels in plasma could improve the non-invasive monitoring of the therapeutic treatment in breast cancer patients. The identification of circulating biomarkers linked to the tumor cell death induced by treatment could be useful for monitoring the action of the large number of cancer drugs currently used in clinics. We envision that our approach could help uncover candidate tumor biomarkers to measure a tumor's response to cancer therapy in real time by sampling the tumor throughout the course of treatment.
迫切需要能够反映癌症治疗早期分子反应的非侵入性工具。在此,我们测试了一个假设,即抗蛋白水解的蛋白质可能是癌症治疗的循环肿瘤生物标志物候选物。目前的蛋白质组学工作流程对耐蛋白水解的蛋白质采样严重不足。这些蛋白质可能是治疗反应的可靠传感器,因为它们可能在循环中停留更长时间。我们从乳腺癌(BC)中抗蛋白水解蛋白质的筛选中选择了锰超氧化物歧化酶(SOD2),一种线粒体氧化还原酶。首先,我们证实了SOD2的稳定性,并确定其抗蛋白水解性是由其四级蛋白质结构介导的。我们还证明,化疗治疗后SOD2的释放与BC细胞中的细胞死亡相关。然后,在确认SOD2在人血清中非常稳定后,我们试图测量一组接受新辅助治疗的BC患者的循环水平。结果表明,在新辅助化疗期间,当患者根据肿瘤缩小对治疗有反应时,SOD2的循环水平会升高。因此,测量血浆中SOD2的水平可以改善对乳腺癌患者治疗的非侵入性监测。鉴定与治疗诱导的肿瘤细胞死亡相关的循环生物标志物可能有助于监测目前临床上使用的大量癌症药物的作用。我们设想,我们的方法可以通过在整个治疗过程中对肿瘤进行采样,帮助发现候选肿瘤生物标志物,以实时测量肿瘤对癌症治疗的反应。
