Biomarkers Unit, Fondazione IRCCS Istituto Nazionale dei Tumori, Milan, Italy.
Tumor Genomics Unit, Fondazione IRCCS Istituto Nazionale dei Tumori, Milan, Italy.
Clin Chem. 2022 May 18;68(5):691-701. doi: 10.1093/clinchem/hvac019.
The isolation of circulating tumor cells (CTCs) requires rapid processing of the collected blood due to their inherent fragility. The ability to recover CTCs from peripheral blood mononuclear cells (PBMCs) preserved from cancer patients could allow for retrospective analyses or multicenter CTC studies.
We compared the efficacy of CTC recovery and characterization using cryopreserved PMBCs vs fresh whole blood from patients with non-small cell lung cancer (NSCLC; n = 8) and sarcoma (n = 6). Two epithelial cellular adhesion molecule (EpCAM)-independent strategies for CTC enrichment, based on Parsortix® technology or immunomagnetic depletion of blood cells (AutoMACS®) were tested, followed by DEPArray™ single-cell isolation. Phenotype and genotype, assessed by copy number alterations analysis, were evaluated at a single-cell level. Detection of target mutations in CTC-enriched samples from frozen NSCLC PBMCs was also evaluated by digital PCR (dPCR).
The use of cryopreserved PBMCs from cancer patients allowed for the retrospective enumeration of CTCs and their molecular characterization, using both EpCAM-independent strategies that performed equally in capturing CTC. Cells isolated from frozen PBMCs were representative of whole blood-derived CTCs in terms of number, phenotype, and copy number aberration profile/target mutations. Long-term storage (≥3 years) did not affect the efficacy of CTC recovery. Detection of target mutations was also feasible by dPCR in CTC-enriched samples derived from stored PBMCs.
Isolating CTCs from longitudinally collected PBMCs using an unbiased selection strategy can offer a wider range of retrospective genomic/phenotypic analyses to guide patients' personalized therapy, paving the way for sample sharing in multicenter studies.
由于循环肿瘤细胞 (CTC) 固有的脆弱性,采集的血液需要快速处理才能对其进行分离。从癌症患者保存的外周血单核细胞 (PBMC) 中回收 CTC 的能力可以允许进行回顾性分析或多中心 CTC 研究。
我们比较了使用冷冻保存的 PMBC 与新鲜全血从非小细胞肺癌 (NSCLC; n = 8) 和肉瘤 (n = 6) 患者中回收和鉴定 CTC 的效果。我们测试了两种基于 Parsortix® 技术或免疫磁细胞分离 (AutoMACS®) 的 EpCAM 独立 CTC 富集策略,然后使用 DEPArray™ 单细胞分离。在单细胞水平评估通过拷贝数改变分析评估的表型和基因型。还通过数字 PCR (dPCR) 评估了从冷冻 NSCLC PBMC 中富集的 CTC 样品中目标突变的检测。
使用来自癌症患者的冷冻 PBMC 允许对 CTC 进行回顾性计数及其分子特征进行分析,使用两种 EpCAM 独立的策略,这两种策略在捕获 CTC 方面表现相当。从冷冻 PBMC 分离的细胞在数量、表型和拷贝数异常谱/靶突变方面与全血衍生的 CTC 具有代表性。长期储存 (≥3 年) 不影响 CTC 回收的效果。通过 dPCR 也可以在从储存的 PBMC 中分离出的 CTC 富集样本中检测到靶突变。
使用无偏倚选择策略从纵向采集的 PBMC 中分离 CTC,可以提供更广泛的回顾性基因组/表型分析,以指导患者的个性化治疗,为多中心研究中的样本共享铺平道路。
