Monitoring of cancer patients via next‐generation sequencing of patient‐derived circulating tumor cells and tumor DNA

Liquid biopsy of circulating tumor cells (CTC) and circulating tumor DNA (ctDNA) is gaining attention as a method for real‐time monitoring in cancer patients. Conventional methods based upon epithelial cell adhesion molecule (EpCAM) expression have a risk of missing the most aggressive CTC subpopulations due to epithelial‐mesenchymal transition and may, thus, underestimate the total number of actual CTC present in the bloodstream. Techniques utilizing a label‐free inertial microfluidics approach (LFIMA) enable efficient capture of CTC without the need for EpCAM expression. In this study, we optimized a method for analyzing genetic alterations using next‐generation sequencing (NGS) of extracted ctDNA and CTC enriched using an LFIMA as a first‐phase examination of 30 patients with head and neck cancer, esophageal cancer, gastric cancer and colorectal cancer (CRC). Seven patients with advanced CRC were enrolled in the second‐phase examination to monitor the emergence of alterations occurring during treatment with epidermal growth factor receptor (EGFR)‐specific antibodies. Using LFIMA, we effectively captured CTC (median number of CTC, 14.5 cells/mL) from several types of cancer and detected missense mutations via NGS of CTC and ctDNA. We also detected time‐dependent genetic alterations that appeared during anti–EGFR therapy in CTC and ctDNA from CRC patients. The results of NGS analyses indicated that alterations in the genomic profile revealed by the liquid biopsy could be expanded by using a combination of assays with CTC and ctDNA. The study was registered with the University Hospital Medical Information Network Clinical Trials Registry (ID: UMIN000014095).     

Detection rate and prognostic value of circulating tumor cells and circulating tumor DNA in metastatic uveal melanoma

Circulating tumor cells (CTCs) and circulating tumor DNA (ctDNA) have been recently investigated in several cancer types, but their respective clinical significance remains to be determined. In our prospective study, we compared the detection rate and the prognostic value of these two circulating biomarkers in patients with metastatic uveal melanoma. GNAQ/GNA11 mutations were characterized in archived tumor tissue. Using a highly sensitive and mutation‐specific bidirectional pyrophosphorolysis‐activated polymerization (bi‐PAP) technique, GNAQ c.626A>T, GNAQ c.626A>C and GNA11 c.626A>T copy numbers were quantified in plasma from 12 mL of blood. CTCs were detected at the same time in 7.5 mL of blood by the CellSearch® technique. Patient characteristics and outcome were prospectively collected. CTCs (≥1) were detected in 12 of the 40 included patients (30%, range 1–20). Among the 26 patients with known detectable mutations, ctDNA was detected and quantified in 22 (84%, range 4–11,421 copies/mL). CTC count and ctDNA levels were associated with the presence of miliary hepatic metastasis (p = 0.004 and 0.03, respectively), with metastasis volume (p = 0.005 and 0.004) and with each other (p < 0.0001). CTC count and ctDNA levels were both strongly associated with progression‐free survival (p = 0.003 and 0.001) and overall survival (p = 0.0009 and <0.0001). In multivariate analyses, ctDNA appeared to be a better prognostic marker than CTC. In conclusion, ctDNA and CTC are correlated and both have poor prognostic significance. CTC detection can be performed in every patient but, in patients with detectable mutations, ctDNA was more frequently detected than CTC and has possibly more prognostic value.     

Mutational evolution after chemotherapy-progression in metastatic colorectal cancer revealed by circulating tumor DNA analysis

Emerging new mutations after treatment can provide clues to acquired resistant mechanisms. Circulating tumor DNA (ctDNA) sequencing has enabled noninvasive repeated tumor mutational profiling. We aimed to investigate newly emerging mutations in ctDNA after disease progression in metastatic colorectal cancer (mCRC). Blood samples were prospectively collected from mCRC patients receiving palliative chemotherapy before treatment and at radiological evaluations. ctDNA from pretreatment and progressive disease (PD) samples were sequenced with a next-generation sequencing panel targeting 106 genes. A total of 712 samples from 326 patients were analyzed, and 381 pretreatment and PD pairs (163 first-line, 85 second-line and 133 later-line [≥third-line]) were compared. New mutations in PD samples (mean 2.75 mutations/sample) were observed in 49.6% (189/381) of treatments. ctDNA samples from later-line had more baseline mutations (P = .002) and were more likely to have new PD mutations (adjusted odds ratio [OR] 2.27, 95% confidence interval [CI]: 1.40-3.69) compared to first-line. RAS/BRAF wild-type tumors were more likely to develop PD mutations (adjusted OR 1.87, 95% CI: 1.22-2.87), independent of cetuximab treatment. The majority of new PD mutations (68.5%) were minor clones, suggesting an increasing clonal heterogeneity after treatment. Pathways involved by PD mutations differed by the treatment received: MAPK cascade (Gene Ontology [GO]: 0000165) in cetuximab and regulation of kinase activity (GO: 0043549) in regorafenib. The number of mutations revealed by ctDNA sequencing increased during disease progression in mCRC. Clonal heterogeneity increased after chemotherapy progression, and pathways involved were affected by chemotherapy regimens.     

Clinical utility of circulating tumor DNA for colorectal cancer

Colorectal cancer (CRC) is currently the most common type of cancer in Japan, and its prognosis has improved because of development of diagnosis and advancement in treatments including surgery and chemotherapy. However, because of intratumor heterogeneity and clonal evolution, tumors often develop resistance to treatment. Genotyping tumor tissue in search of somatic genetic alterations for actionable information has become routine examination in clinical practice. However, the inherent molecular heterogeneity of metastatic tumors and the ability of cancer genomes to dynamically evolve are not properly captured by tissue specimens only. Circulating tumor DNA (ctDNA) carrying tumor‐specific genetic or epigenetic alterations is released into the circulation from tumor cells undergoing apoptosis or necrosis. Analysis of ctDNA has the potential to change clinical practice by exploiting blood rather than tissue, as a source of information. Here, we provide an overview of the characteristics of ctDNA and focus on detection methods for ctDNA, and the feasibility of use of ctDNA to monitor tumor dynamics for patients with colorectal cancer.     

Appropriate use of cancer comprehensive genome profiling assay using circulating tumor DNA

Comprehensive genomic profiling (CGP) is being increasingly used for the routine clinical management of solid cancers. In July 2018, the use of tumor tissue-based CGP assays became available for all solid cancers under the universal health insurance system in Japan. Several restrictions presently exist, such as patient eligibility and limitations on the opportunities to perform such assays. The clinical implementation of CGP based on plasma circulating tumor DNA (ctDNA) is also expected to raise issues regarding the selection and use of tissue DNA and ctDNA CGP. A Joint Task Force for the Promotion of Cancer Genome Medicine comprised of three Japanese cancer-related societies has formulated a policy proposal for the appropriate use of plasma CGP (in Japanese), available at https://www.jca.gr.jp/researcher/topics/2021/files/20210120.pdf , http://www.jsco.or.jp/jpn/user_data/upload/File/20210120.pdf , and https://www.jsmo.or.jp/file/dl/newsj/2765.pdf . Based on these recommendations, the working group has summarized the respective advantages and cautions regarding the use of tissue DNA CGP and ctDNA CGP with reference to the advice of a multidisciplinary expert panel, the preferred use of plasma specimens over tissue, and multiple ctDNA testing. These recommendations have been prepared to maximize the benefits of performing CGP assays and might be applicable in other countries and regions.     

循环肿瘤DNA的研究进展

循环肿瘤DNA(circulating tumor DNA,ctDNA)是由肿瘤细胞释放到循环系统中的基因组小片段,其来源于机体所有荷瘤部位,具有含量极低、个体间差异大、半衰期短、匀质性、携带有肿瘤特异性遗传学/表观遗传学变异等特点,与肿瘤的发展进化、休眠耐药、转移复发等密切相关,正逐渐成为肿瘤学分子研究领域的热点.目前针对ctDNA的检测方法和平台种类繁多,主要分为基于PCR和二代测序(next-generation sequence,NGS)的方法,二者各有利弊,需要根据研究目的灵活选择并建立统一标准.随着相关技术的发展和法规的不断完善,ctDNA可作为癌症筛查、早期诊断、个体化治疗及预后评估理想的血源性生物标志物,在肿瘤的精准医疗中必将大放异彩.     

Serial profiling of circulating tumor DNA for optimization of anti‐VEGF chemotherapy in metastatic colorectal cancer patients

Understanding the molecular changes in tumors in response to anti‐VEGF chemotherapy is crucial for optimization of the treatment strategy for metastatic colorectal cancer. We prospectively investigated changes in the amount and constitution of circulating tumor DNA (ctDNA) in serial peripheral blood samples during chemotherapy. Sixty‐one plasma samples taken at different time points (baseline, remission, and post‐progression) and pre‐treatment tumor samples were collected from 21 patients who received bevacizumab‐containing first‐line chemotherapy. Extracted DNA was sequenced by next‐generation sequencing using a panel of 90 oncogenes. Candidate ctDNAs in plasma were validated using mutational data from matching tumors. ctDNAs encoding one to six trunk mutations were found in all 21 cases, and the mutant allele frequency (MAF) was distributed over a wide range (1‐89%). Significant decreases in the MAF at remission and increases in the MAF after progression were observed (p < 0.001). Reduction in the MAF to below 2% in the remission period was strongly associated with better survival (16.6 vs. 32.5 months, p < 0.001). In two cases, mutations (in CREBBP and FBXW7 genes) were newly detected in ctDNA at a low frequency of around 1% in the post‐progression period. The use of ctDNA allows elucidation of the tumor clonal repertoire and tumor evolution during anti‐VEGF chemotherapy. Changes in ctDNA levels could be useful as predictive biomarkers for survival. Mutations newly detected in ctDNA in the late treatment period might reveal the rise of a minor tumor clone that may show resistance to anti‐VEGF therapy.     

Recent advances in circulating tumor cells and cell-free DNA in metastatic prostate cancer: a review

Introduction: The treatment landscape of metastatic prostate cancer has changed dramatically over the past five years. As new discoveries are made and further novel therapies become available, there is a heightened urgency to develop biomarkers that can guide prognoses and predict therapy responses. Circulating tumor cells (CTCs) and cell-free circulating tumor DNA (ctDNA) in the blood have emerged as potential promising tumor avatars.

Areas covered: In this review, we describe technological breakthroughs and clinical implementation of the CTCs and ctDNA. We also discuss the key challenges that must be overcome before circulating blood-based biomarkers can be universally adopted into the management of patients with metastatic prostate cancer.

Expert commentary: Both CTCs and ctDNA have the potential to be incorporated into routine patient care, with increasing numbers of prospective trials incorporating them into clinical designs. CTCs and ctDNA will thus have an increasingly valuable role in augmenting our understanding of prostate cancer at a molecular level, aiding in prognostication of prostate cancer patients, acting as a surrogate for OS in clinical trials, and helping us prioritize our treatment selections by elucidating resistance mechanisms.     

Analysis of colorectal cancer‐related mutations by liquid biopsy: Utility of circulating cell‐free DNA and circulating tumor cells

We recruited 56 colorectal cancer patients and compared the mutational spectrum of tumor tissue DNA, circulating cell‐free DNA (ccfDNA) and circulating tumor cell (CTC) DNA (ctcDNA) to evaluate the potential of liquid biopsy to detect heterogeneity of cancer. Tumor tissue DNA, ccfDNA, and ctcDNA were extracted from each patient and analyzed using next‐generation sequencing (NGS) and digital PCR. To maximize yields of CTC, three antibodies were used in the capture process. From 34 untreated patients, 53 mutations were detected in tumor tissue DNA using NGS. Forty‐seven mutations were detected in ccfDNA, including 20 not detected in tissues. Sixteen mutations were detected in ctcDNA, including five not detected in tissues. In 12 patients (35.3%), mutations not found in tumor tissues were detected by liquid biopsy: nine (26.5%) in ccfDNA only and three (8.8%) in ctcDNA only. Combination analysis of the two liquid biopsy samples increased the sensitivity to detect heterogeneity. From 22 stage IV patients with RAS mutations in their primary tumors, RAS mutations were detected in 14 (63.6%) ccfDNA and in eight (36.4%) ctcDNA using digital PCR. Mutations not detected in primary tumors can be identified in ccfDNA and in ctcDNA, indicating the potential of liquid biopsy in complementing gene analysis. Combination analysis improves sensitivity. Sensitivity to detect cancer‐specific mutations is higher in ccfDNA compared with ctcDNA.     

Circulating tumor DNA and circulating tumor cells in metastatic triple negative breast cancer patients

Circulating tumor DNA (ctDNA) is a new circulating tumor biomarker which might be used as a prognostic biomarker in a way similar to circulating tumor cells (CTCs). Here, we used the high prevalence of TP53 mutations in triple negative breast cancer (TNBC) to compare ctDNA and CTC detection rates and prognostic value in metastatic TNBC patients. Forty patients were enrolled before starting a new line of treatment. TP53 mutations were characterized in archived tumor tissues and in plasma DNA using two next generation sequencing (NGS) platforms in parallel. Archived tumor tissue was sequenced successfully for 31/40 patients. TP53 mutations were found in 26/31 (84%) of tumor samples. The same mutation was detected in the matched plasma of 21/26 (81%) patients with an additional mutation found only in the plasma for one patient. Mutated allele fractions ranged from 2 to 70% (median 5%). The observed correlation between the two NGS approaches (R² = 0.903) suggested that ctDNA levels data were quantitative. Among the 27 patients with TP53 mutations, CTC count was ≥1 in 19 patients (70%) and ≥5 in 14 patients (52%). ctDNA levels had no prognostic impact on time to progression (TTP) or overall survival (OS), whereas CTC numbers were correlated with OS (p = 0.04) and marginally with TTP (p = 0.06). Performance status and elevated LDH also had significant prognostic impact. Here, absence of prognostic impact of baseline ctDNA level suggests that mechanisms of ctDNA release in metastatic TNBC may involve, beyond tumor burden, biological features that do not dramatically affect patient outcome.     

循环肿瘤DNA在B细胞非霍奇金淋巴瘤中的研究进展

从分子水平监测非霍奇金淋巴瘤(NHL)患者的疾病状态对精准的个体化管理具有重要意义。基于新型二代测序的方法能够以极高的灵敏度从外周血中定量检测循环肿瘤DNA(ctDNA),其可克服活组织检查和成像扫描的弊端,作为NHL的新型生物标志物,为治疗前、治疗期间和治疗后的疾病精准分型、预后评估、疗效判断以及复发监测带来新的机遇,并可能最终改善患者预后。     

Postoperative recurrence detection using individualized circulating tumor DNA in upper tract urothelial carcinoma

Biomarkers that could detect the postoperative recurrence of upper tract urothelial carcinoma (UTUC) have not been established. In this prospective study, we aim to evaluate the utility of individualized circulating tumor DNA (ctDNA) monitoring using digital PCR (dPCR) as a tumor recurrence biomarker for UTUC in the perioperative period. Twenty-three patients who underwent radical nephroureterectomy (RNU) were included. In each patient, whole exome sequencing by next-generation sequencing and TERT promoter sequencing of tumor DNA were carried out. Case-specific gene mutations were selected from sequencing analysis to examine ctDNA by dPCR analysis. We also prospectively collected plasma and urine ctDNA from each patient. The longitudinal variant allele frequencies of ctDNA during the perioperative period were plotted. Case-specific gene mutations were detected in 22 cases (96%) from ctDNA in the preoperative samples. Frequently detected genes were TERT (39%), FGFR3 (26%), TP53 (22%), and HRAS (13%). In all cases, we obtained plasma and urine samples for 241 time points and undertook individualized ctDNA monitoring for 2 years after RNU. Ten patients with intravesical recurrence had case-specific ctDNA detected in urine at the time of recurrence. The mean lead time of urinary ctDNA in intravesical recurrence was 60 days (range, 0–202 days). Two patients with distal metastasis had case-specific ctDNA in plasma at the time of metastasis. In UTUC, tumor-specific gene mutations can be monitored postoperatively as ctDNA in plasma and urine. Individualized ctDNA might be a minimally invasive biomarker for the early detection of postoperative recurrence.     

Patient monitoring through liquid biopsies using circulating tumor DNA

Tumors release components such as circulating tumor cells (CTCs), circulating tumor DNA (ctDNA), and tumor‐derived extracellular vesicles into the circulation. Multiple studies have demonstrated that molecular information about tumors and metastases can be extracted from these factors, which are therefore frequently referred to as “liquid biopsies.” Liquid biopsies allow the longitudinal monitoring of tumor genomes non‐invasively and may hence ensure that patients receive appropriate treatments that target the molecular features of their disease. Accordingly, the number of studies employing liquid biopsy based assays has been skyrocketing in the last few years. Here, we focus on three important issues, which are of high relevance for monitoring tumor genomes. First, we analyze the relation between the allele frequency of somatic tumor‐specific mutations and the tumor fraction within plasma DNA. Second, we ask how well current tumor evolution models correlate with findings in longitudinal liquid biopsy studies. And, finally, as sensitivity is one of the key challenges of mutation detection, we address the challenge of detecting mutations occurring at very low allele frequencies in plasma DNA.     

循环肿瘤DNA甲基化在卵巢癌中的研究进展

卵巢癌是最致命的妇科恶性肿瘤,对卵巢癌的早期诊断、治疗监测和预后判断尤为重要。越来越多的证据表明DNA甲基化在致癌过程中发挥重要的作用。肿瘤中发现的基因启动子异常甲基化,可以反映在从肿瘤释放到外周血的循环肿瘤DNA（circulating tumor DNA,ctDNA）,与原发肿瘤有一致性改变,从而使ctDNA甲基化成为基于血液检测的非侵入性分子标志物。本文将介绍ctDNA甲基化及其检测方法,卵巢癌中常见的ctDNA甲基化标志物,并重点阐述ctDNA甲基化在卵巢癌中的研究进展。     

The development of liquid biopsy for research and clinical practice in lymphomas: Report of the 15-ICML workshop on ctDNA

This report summarizes a closed workshop cosponsored by the American Association for Cancer Research, the European School of Oncology, and the 15th-International Conference on Malignant Lymphoma to discuss critical open questions on liquid biopsy in lymphoid malignancies, develops a roadmap for their analytical and clinical validation, and prioritizes research areas.     

外周血循环肿瘤细胞与膀胱癌患者临床特征、复发转移的关系

目的探讨外周血循环肿瘤细胞(CTC)与膀胱癌患者临床特征、术后复发转移的关系。方法术前采用CanPatrolTM法检测68例膀胱癌患者外周血CTC的分型,据此分为单纯间质型组(n=17)、单纯上皮型组(n=21)、混合型组(n=23)和未检出组(n=7),分析CTC的分型与膀胱癌患者临床特征的关系,膀胱癌患者术后1年复发转移的影响因素采用Logistic回归分析。结果单纯间质型组、单纯上皮型组、混合型组和未检出组膀胱癌患者术后中位无进展生存期(PFS)分别为12.6、15.7、14.6和17.8个月。单因素分析结果显示,不同病理分级、TNM分期、淋巴结转移情况、CTC分型、术后辅助化疗情况膀胱癌患者术后1年复发转移情况比较,差异均有统计学意义(P﹤0.05)。Logistic回归分析结果显示,单纯间质型CTC、TNM分期为Ⅲ期、有淋巴结转移、术后未接受辅助化疗和病理分级为Ⅲ级是膀胱癌患者术后1年发生复发转移的独立危险因素。结论不同外周血CTC分型可能与膀胱癌患者的病理分级、TNM分期、淋巴结转移情况有关,单纯间质型CTC、TNM分期为Ⅲ期、有淋巴结转移、术后未接受辅助化疗和病理分级为Ⅲ级是膀胱癌患者术后1年发生复发转移的独立危险因素。     

Ultradeep targeted sequencing of circulating tumor DNA in plasma of early and advanced breast cancer

We present a study to evaluate the feasibility and clinical utility of amplicon‐based Oncomine Pan‐Cancer cell‐free assay to detect circulating tumor DNA (ctDNA) in patients with early or advanced breast cancer. In this study, 109 early and metastatic breast cancer patients were recruited before the initiation of treatment. ctDNA mutation profiles were assessed through unique molecular tagging (UMT) and ultradeep next generation sequencing (NGS). For patients with mutations, DNA from corresponding white blood cells (WBC) was sequenced to exclude variants of clonal‐hematopoietic (CH) origin. UMT targeted sequencing from plasma of 109 patients achieved a median total coverage of 55 498X and a median molecular coverage of 4187X. Among 53 ctDNA positive samples, 38% were mutation positive by WBC sequencing, indicating potentially false‐positive results contributed by CH origin. Prevalence of CH‐related mutations was associated with age (P = 7.51 × 10⁻⁴). After exclusion of CH mutations, ctDNA detection rates were 37% for local or locally advanced breast cancer (stage I‐III) and 81% for metastatic or recurrent breast cancer. The ctDNA detection rate correlated with disease stage (P = 2.60 × 10⁻⁴), nodal spread (P = 6.49 × 10⁻³) and the status of distant metastases (P = 5.00 × 10⁻⁴). ctDNA variants were detected mostly in TP53, PIK3CA and AKT1 genes, with variants showing therapeutic relevance. This pilot study endorses the use of targeted NGS for non‐invasive molecular profiling of breast cancer. Paired sequencing of plasma ctDNA and WBC should be implemented to improve accurate interpretation of liquid biopsy.     

Clinical implications of plasma circulating tumor DNA in gynecologic cancer patients

Molecular characterization of cancers is important in dictating prognostic factors and directing therapy. Next‐generation sequencing of plasma circulating tumor DNA (ctDNA) offers less invasive, more convenient collection, and a more real‐time representation of a tumor and its molecular heterogeneity than tissue. However, little is known about the clinical implications of ctDNA assessment in gynecologic cancer. We describe the molecular landscape identified on ctDNA, ctDNA concordance with tissue‐based analysis, and factors associated with overall survival (OS) in gynecologic cancer patients with ctDNA analysis. We reviewed clinicopathologic and genomic information for 105 consecutive gynecologic cancer patients with ctDNA analysis, including 78 with tissue‐based sequencing, enrolled in the Profile‐Related Evidence Determining Individualized Cancer Therapy ({"type":"clinical-trial","attrs":{"text":"NCT02478931","term_id":"NCT02478931"}}NCT02478931) trial at the University of California San Diego Moores Cancer Center starting July 2014. Tumors included ovarian (47.6%), uterine (35.2%), cervical (12.4%), vulvovaginal (2.9%), and unknown gynecologic primary (1.9%). Most ovarian and uterine cancers (86%) were high grade. 34% (N = 17) of ovarian cancers had BRCA alterations, and 22% (N = 11) were platinum sensitive. Patients received median 2 (range 0–13) lines of therapy prior to ctDNA collection. Most (75.2%) had at least one characterized alteration on ctDNA analysis, and the majority had unique genomic profiles on ctDNA. Most common alterations were TP53 (N = 59, 56.2% of patients), PIK3CA (N = 26, 24.8%), KRAS (N = 14, 13.3%), BRAF (N = 10, 9.5%), ERBB2 (N = 8, 7.6%), and MYC (N = 8, 7.6%). Higher ctDNA maximum mutation allele frequency was associated with worse OS [hazard ratio (HR): 1.91, P = 0.03], while therapy matched to ctDNA alterations (N = 33 patients) was independently associated with improved OS (HR: 0.34, P = 0.007) compared to unmatched therapy (N = 28 patients) in multivariate analysis. Tissue and ctDNA genomic results showed high concordance unaffected by temporal or spatial factors. This study provides evidence for the utility of ctDNA in determining outcome and individualizing cancer therapy in patients with gynecologic cancer.

Abbreviations

BMI

body mass index

BRCA

breast cancer susceptibility gene

CAP

College of American Pathologists

CI

confidence interval

CLIA

Clinical Laboratory Improvement Amendments

ctDNA

circulating tumor DNA

Del

deletion

HR

hazard ratio

ID

identification number

In/del

insertion/deletion

MAF

mutation allele frequency

NR

not reached

OS

overall survival

PREDICT

Profile‐Related Evidence Determining Individualized Cancer Therapy

SE

standard error

SNV

single nucleotide variant

UCSD

University of California San Diego

VUS

variants of unknown significance

     

循环游离DNA 在乳腺癌中的临床应用

循环游离DNA 以细胞外游离形式存在于血液中,可由正常细胞和癌细胞释放。乳腺癌患者血液中循环游离DNA 水平高于正常人,且循环游离DNA 可以反映癌组织的基因突变、甲基化状态、拷贝数改变、杂合子丢失等特征,是乳腺癌诊断、治疗、预后检测中具有巨大潜力的生物学指标。本综述简要介绍了循环游离DNA 的生物学特性,并从定量及定性检测两方面对循环游离DNA 近年来在乳腺癌中的临床应用进行较全面的阐述。