Rapid isolation of viable circulating tumor cells from patient blood samples

Circulating tumor cells (CTC) are cells that disseminate from a primary tumor throughout the circulatory system and that can ultimately form secondary tumors at distant sites. CTC count can be used to follow disease progression based on the correlation between CTC concentration in blood and disease severity. As a treatment tool, CTC could be studied in the laboratory to develop personalized therapies. To this end, CTC isolation must cause no cellular damage, and contamination by other cell types, particularly leukocytes, must be avoided as much as possible. Many of the current techniques, including the sole FDA-approved device for CTC enumeration, destroy CTC as part of the isolation process (for more information see Ref. 2). A microfluidic device to capture viable CTC is described, consisting of a surface functionalized with E-selectin glycoprotein in addition to antibodies against epithelial markers. To enhance device performance a nanoparticle coating was applied consisting of halloysite nanotubes, an aluminosilicate nanoparticle harvested from clay. The E-selectin molecules provide a means to capture fast moving CTC that are pumped through the device, lending an advantage over alternative microfluidic devices wherein longer processing times are necessary to provide target cells with sufficient time to interact with a surface. The antibodies to epithelial targets provide CTC-specificity to the device, as well as provide a readily adjustable parameter to tune isolation. Finally, the halloysite nanotube coating allows significantly enhanced isolation compared to other techniques by helping to capture fast moving cells, providing increased surface area for protein adsorption, and repelling contaminating leukocytes. This device is produced by a straightforward technique using off-the-shelf materials, and has been successfully used to capture cancer cells from the blood of metastatic cancer patients. Captured cells are maintained for up to 15 days in culture following isolation, and these samples typically consist of >50% viable primary cancer cells from each patient. This device has been used to capture viable CTC from both diluted whole blood and buffy coat samples. Ultimately, we present a technique with functionality in a clinical setting to develop personalized cancer therapies.     

Circulating tumor cells in the early detection of human cancers

Cancer is a severe disease with high morbidity and mortality globally. Thus, early detection is emerging as an important topic in modern oncology. Although the strategies for early detection have developed rapidly in recent decades, they remain challenging due to the subtle symptoms in the initial stage of the primary tumor. Currently, tumor biomarkers, imaging, and specific screening tests are widely used in various cancer types; however, each method has limitations. The harms are even overweight against the benefits in some cases. Therefore, early detection approaches should be improved urgently. Liquid biopsy, for now, is a convenient and non-invasive way compared to the traditional tissue biopsy in screening and early diagnosis. Circulating tumor cells (CTCs) are vital in liquid biopsy and play a central role in tumor dissemination and metastases. They have promising potential as cancer biomarkers in early detection. This review updates the knowledge of the biology of CTC; it also highlights the CTC enrichment technologies and their applications in the early detection of several human cancers.     

循环肿瘤细胞识别技术研究现状

循环肿瘤细胞(CTCs)对恶性肿瘤传播转移有重要影响,因此CTCs识别技术的出现与不断进步有着重要的临床意义,准确可靠的CTCs识别技术将为尽早确诊肿瘤、指导个性化治疗方案、诊断微小残留病变以及评估抗癌药物的敏感性提供强有力的工具。本文针对核酸检测法、免疫细胞化学术、流式细胞术和基于表征特性图像识别技术等CTC识别技术的发展情况进行了综述总结,比较各种技术的优缺点,对现阶段该领域存在的问题进行了讨论,并对CTCs识别的技术发展方向作了进一步的展望,为学者们提供更广的研究思路。     

Detection of oncogenic mutations in paired circulating tumor DNA and circulating tumor cells in patients with hepatocellular carcinoma

Background and aimsCirculating tumor cells (CTCs) or circulating tumor DNA (ctDNA) may be used for diagnostic or prognostic purposes in patients with hepatocellular carcinoma (HCC). We aim to determine whether CTCs or ctDNA are suitable to determine oncogenic mutations in HCC patients.MethodsTwenty-six mostly advanced HCC patients were enrolled. 30 mL peripheral blood from each patient was obtained. CellSearch system was used for CTC detection. A sequencing panel covering 14 cancer-relevant genes was used to identify oncogenic mutations. TERT promoter C228T and C250T mutations were determined by droplet digital PCR.ResultsCTCs were detected in 27% (7/26) of subjects but at low numbers (median: 2 cells, range: 1–15 cells) and ctDNA in 77% (20/26) of patients. Mutations in ctDNA were identified in several genes: TERT promoter C228T (77%, 20/26), TP53 (23%, 6/26), CTNNB1 (12%, 3/26), PIK3CA (12%, 3/26) and NRAS (4%, 1/26). The TERT C228T mutation was present in all patients with one or more ctDNA mutations, or detectable CTCs. The TERT C228T and TP53 mutations detected in ctDNA were present at higher levels in matched primary HCC tumor tissue. The maximal variant allele frequency (VAF) of ctDNA was linearly correlated with largest tumor size and AFP level (Log10). CtDNA (or TERT C228T) positivity was associated with macrovascular invasion, and positivity of ctDNA (or TERT C228T) or CTCs (≥ 2) correlated with poor patient survival.ConclusionsOncogenic mutations could be detected in ctDNA from advanced HCC patients. CtDNA analysis may serve as a promising liquid biopsy to identify druggable mutations.     

Influence of adjuvant radiotherapy on circulating epithelial tumor cells and circulating cancer stem cells in primary non-metastatic breast cancer

Background: There is an unmet need to identify biomarkers that directly reflect response to adjuvant radiotherapy (RT). Circulating epithelial tumor cells (CETCs) represent the liquid component of solid tumors and are responsible for metastatic relapse. CETC subsets with cancer stem cell characteristics, circulating cancer stem cells (cCSCs), play a pivotal role in the metastatic cascade. Monitoring the most aggressive subpopulation of CETCs could reflect the aggressiveness of the remaining tumor burden. There is limited data on the detection and monitoring changes in CETC and cCSC numbers during RT in early breast cancer.Methods: CETC numbers were analyzed prior to, at midterm and at the end of RT in 52 primary non-metastatic breast cancer patients. Hormone receptor status was determined in CETCs prior to and at the end of RT. For the identification of cCSCs cell suspensions from the peripheral blood of patients were cultured in vitro under conditions favoring growth of tumorspheres.Results: Hormone receptor status in CETCs before RT was comparable to that in primary tumor tissue. Prior to RT numbers of CETCs correlated with aggressiveness of primary tumors. cCSCs could be successfully identified and monitored during RT. Prior to RT patients treated with neoadjuvant chemotherapy had significantly higher numbers of CETCs and tumorspheres compared to patients after adjuvant chemotherapy. During RT, the number of CETCs decreased continuously in patients after neoadjuvant chemotherapy but not after adjuvant chemotherapy.Conclusion: Monitoring the number of CETCs and the CETC subset with cancer stem cell properties during RT may provide additional clinically useful prognostic information.     

Liquid biopsies: DNA methylation analyses in circulating cell-free DNA

Analysis of patient's materials like cells or nucleic acids obtained in a minimally invasive or noninvasive manner through the sampling of blood or other body fluids serves as liquid biopsies, which has huge potential for numerous diagnostic applications. Circulating cell-free DNA (cfDNA) is explored as a prognostic or predictive marker of liquid biopsies with the improvements in genomic and molecular methods. DNA methylation is an important epigenetic marker known to affect gene expression. cfDNA methylation detection is a very promising approach as abnormal distribution of DNA methylation is one of the hallmarks of many cancers and methylation changes occur early during carcinogenesis. This review summarizes the various investigational applications of cfDNA methylation and its oxidized derivatives as biomarkers for cancer diagnosis, prenatal diagnosis and organ transplantation monitoring. The review also provides a brief overview of the technologies for cfDNA methylation analysis based on next generation sequencing.     

The value of circulating tumor cells with positive centromere probe 8 in the diagnosis of small pulmonary nodules

Circulating cancer cells (CTCs) can serve as a non-invasive liquid biopsy and provide opportunities for early cancer diagnosis and evaluation. However, the value of CTCs for diagnosis or prognosis of small pulmonary nodules (SPNs) is unclear. Fifty-three patients diagnosed with SPNs with a diameter less than 30 mm by CT examination were enrolled in the study. The CTC numbers, CT examination features, serum tumor marker concentrations, and histopathological characteristics were analyzed. Centromere probe 8 (CEP8) was used as a marker for CTC identification. The CTC numbers were significantly different in patients with malignant and benign SPNs and with early (0/Ⅰa) and advanced (Ⅰb/Ⅱ/Ⅲ) lung cancer stages. ROC analysis showed that the CTC numbers was effective on malignant SNP diagnosis. The combined use of CTCs and the density features of the nodules determined by CT further improved the overall screening, the diagnostic effectiveness for malignant SNPs, and determination of the pTNM (≤Ia vs.>Ia) stage. The CT morphology revealed that large, single, and solid SPNs were associated with significant CTC numbers and the CTC numbers were correlated with malignant histopathology. Using CEP8 as a marker resulted in detection of more CTC numbers in 22 patient samples triple stained for CEP8, EpCAM, and CKs. The CTCs determined by CEP8-positive staining could serve as potential screening and diagnostic markers for malignant SPNs.     

Detection of mycoplasma infection in circulating tumor cells in patients with hepatocellular carcinoma

Many studies have shown that persistent infections of bacteria promote carcinogenesis and metastasis. Infectious agents and their products can modulate cancer progression through the induction of host inflammatory and immune responses. The presence of circulating tumor cells (CTCs) is considered as an important indicator in the metastatic cascade. We unintentionally produced a monoclonal antibody (MAb) CA27 against the mycoplasmal p37 protein in mycoplasma-infected cancer cells during the searching process of novel surface markers of CTCs. Mycoplasma-infected cells were enriched by CA27-conjugated magnetic beads in the peripheral blood mononuclear cells in patients with hepatocellular carcinoma (HCC) and analyzed by confocal microscopy with anti-CD45 and CA27 antibodies. CD45-negative and CA27-positive cells were readily detected in three out of seven patients (range 12–30/8.5 ml blood), indicating that they are mycoplasma-infected circulating epithelial cells. CA27-positive cells had larger size than CD45-positive hematological lineage cells, high nuclear to cytoplasmic ratios and irregular nuclear morphology, which identified them as CTCs. The results show for the first time the existence of mycoplasma-infected CTCs in patients with HCC and suggest a possible correlation between mycoplasma infection and the development of cancer metastasis.     

Circulating tumor cell-derived organoids: Current challenges and promises in medical research and precision medicine

Traditional 2D cell cultures do not accurately recapitulate tumor heterogeneity, and insufficient human cell lines are available. Patient-derived xenograft (PDX) models more closely mimic clinical tumor heterogeneity, but are not useful for high-throughput drug screening. Recently, patient-derived organoid cultures have emerged as a novel technique to fill this critical need. Organoids maintain tumor tissue heterogeneity and drug-resistance responses, and thus are useful for high-throughput drug screening. Among various biological tissues used to produce organoid cultures, circulating tumor cells (CTCs) are promising, due to relative ease of ascertainment. CTC-derived organoids could help to acquire relevant genetic and epigenetic information about tumors in real time, and screen and test promising drugs. This could reduce the need for tissue biopsies, which are painful and may be difficult depending on the tumor location. In this review, we have focused on advances in CTC isolation and organoid culture methods, and their potential applications in disease modeling and precision medicine.     

The evolution of molecular diagnosis using digital polymerase chain reaction to detect cancer via cell‐free DNA and circulating tumor cells

Cancer is one of the most important causes of death worldwide. The onset of cancer may be initiated due to a variety of factors such as environment, genetics or even due to personal lifestyle choices. To counteract this tremendous increase, the demand for a new technology has risen. By this means, the use of digital polymerase chain reaction (dPCR) has been shown to be a promising methodology in the early detection of many types of cancers. Furthermore, several researchers confirmed that the use of tumor cell‐free DNA (cfDNA) and circulating tumor cells (CTC) in peripheral blood is essential in revealing an early prognosis of such diseases. Besides this, it was established that dPCR might be used in a much more efficient, accurate, and reliable manner to amplify a variety of genetic material up to the identification of mutations in hematological diseases. Therefore, this article demonstrates the differences between conventional PCR and dPCR as a molecular technique to detect the early onset of cancer. Furthermore, CTC and cfDNA were officially approved by the Food and Drug Administration as new biological biomarkers in cancer development and monitoring.     

循环肿瘤细胞在肾癌患者中的意义及其维、汉民族差异的初步探讨

目的：判断细胞角蛋白19(cytokeratin19,CK19)作为循环肿瘤细胞的标志物的意义,探讨在肾癌病人外周血中CK19 的表达 情况和临床价值,并观察汉族与维吾尔族肾癌患者之间循环肿瘤细胞的差异。方法：50 例肾癌病人设为病例组,健康体检人群50 例设为对照组,对上述两组人群应用流式细胞仪技术检测外周血中CK19 的表达水平;并探讨肾癌病人外周血CK19 的表达与肾 癌病理分类、病理分期及组织学分级之间的关系;比较20 例汉族肾细胞癌患者及20 例维吾尔族肾癌患者外周血中CK19 的差异 表达情况。结果：组间比较,50例对照组中无阳性,50 例肾癌患者组中24 例阳性;组内比较,不同肾癌病理分类之间CK19 表达差 异没有统计学意义(P>0.05),不同肾癌病理分期及组织学分级之间CK19 表达差异具有有统计学意义(P<0.05)。维吾尔族与汉族 两个不同民族肾癌之间的血清循环肿瘤细胞存在着较明显差异(P<0.05)。结论：在肾癌患者外周血中的CK19 可以初步判断循环 肿瘤细胞的水平,对早期肾癌的诊断、预测具有一定的意义,值得进一步探索和研究,维吾尔族肾癌与汉族肾癌患者之间循环肿瘤 细胞可能存在差异。     

The prognostic value of circulating tumor DNA in patients with melanoma: A systematic review and meta-analysis

BackgroundCirculating tumor DNA (ctDNA) has been investigated as a potential prognostic biomarker to evaluate the therapeutic efficacy and disease progression in melanoma patients, yet results remain inconclusive. The purpose of this study was to illustrate the prognostic value of ctDNA in melanoma.ObjectivesTo describe the clinical prognostic value of ctDNA for melanoma patients.MethodsSearched for eligible articles from Pubmed, Web of Science and Embase. Pooled hazard ratios (HRs) and 95% confidence intervals (CIs) were calculated to evaluate the association between ctDNA at baseline or during treatment and overall survival (OS) and progression-free survival (PFS).ResultsA total of 9 articles were obtained, involving 617 melanoma patients. The pooled HRs revealed that compared with baseline undetectable ctDNA patients, detectable ctDNA was highly correlated with poor OS (HR 2.91, 95% CI: 2.22–3.82; p < 0.001) and PFS (HR 2.75, 95% CI: 1.98–3.83; p < 0.001). A meta-analysis of these adjusted HRs was performed and confirmed that ctDNA collected at baseline was associated with poorer OS/PFS (OS: HR 3.00, 95% CI 2.19–4.11, p < 0.001/PFS: HR 2.68, 95% CI 1.77–4.06, p < 0.001). During treatment, a significant association was shown between ctDNA and poorer OS/PFS (OS: HR 6.26, 95% CI 2.48–15.80, p < 0.001; PFS: HR 4.93, 95% CI 2.36–10.33, p < 0.001).ConclusionInvestigation and application of ctDNA will improve "liquid biopsy" and play a role in early prediction, monitoring disease progression and precise adjusting treatment strategies in melanoma patients.     

Multiple MAGE-A genes as surveillance marker for the detection of circulating tumor cells in patients with ovarian cancer

Abstract

Ovarian cancer is a leading cause of death among gynecologic malignancies. In this study, we reported the expression of melanoma-associated antigens A (MAGE-A) genes in peripheral blood from 80 patients with ovarian cancer and 30 healthy donors. MAGE-As expression was associated with the factors indicating poor prognosis. The expressions of MAGE-As and each individual MAGE-A genes were also associated with low overall survival of patients with ovarian cancer. Our results suggested MAGE-A genes may have the potential to be surveillance markers for the detection of circulating tumor cells and represent a poor prognosis for patients with ovarian cancer.     

循环肿瘤DNA的检测及研究现状

中国癌症发病率与世界水平相持平,死亡率要高于世界水平。虽然更多先进的技术已经运用到癌症治疗领域,但是癌症的死亡率依然居高不下。癌症之所以难克服,是因为肿瘤细胞具有异质性。“液体活检”技术的出现,使无创性治疗方法开始应用到肿瘤治疗领域,循环肿瘤DNA(circulating tumor DNA,ctDNA)则是“液体活检”中的一种重要素材。血液中游离的DNA被称为cfDNA(Cell free DNA),含有突变的cfDNA就被称作ctDNA。ctDNA所含有的突变一般是单个碱基替换所造成的,只有癌细胞才会有这种情况的发生,这使得ctDNA具有极高的特异性,可作为高灵敏的生物标记物。由于ctDNA存在于血液中,其无创性价值重大。     

Evaluation of isolation methods for pathogenic Yersinia enterocolitica from pig intestinal content

Aims: The aim of this study was to evaluate the efficiency of four isolation methods for the detection of pathogenic Yersinia enterocolitica from pig intestinal content. Methods and Results: The four methods comprised of 15 isolation steps using selective enrichments (irgasan–ticarcillin–potassium chlorate and modified Rappaport broth) and mildly selective enrichments at 4 or 25°C. Salmonella–Shigella‐desoxycholate–calcium chloride agar, cefsulodin–irgasan–novobiocin agar were used as plating media. The most sensitive method detected 78% (53/68) of the positive samples. Individual isolation steps using cold enrichment as the only enrichment or as a pre‐enrichment step with further selective enrichment showed the highest sensitivities (55–66%). All isolation methods resulted in high numbers of suspected colonies not confirmed as pathogenic Y. enterocolitica. Conclusions: Cold enrichment should be used in the detection of pathogenic Y. enterocolitica from pig intestinal contents. In addition, more than one parallel isolation step is needed. Significance and Impact of the Study: The study shows that depending on the isolation method used for Y. enterocolitica, the detected prevalence of Y. enterocolitica in pig intestinal contents varies greatly. More selective and sensitive isolation methods need to be developed for pathogenic Y. enterocolitica.     

Synergy of photoacoustic and fluorescence flow cytometry of circulating cells with negative and positive contrasts

In vivo photoacoustic (PA) and fluorescence flow cytometry were previously applied separately using pulsed and continuous wave lasers respectively, and positive contrast detection mode only. This paper introduces a real‐time integration of both techniques with positive and negative contrast modes using only pulsed lasers. Various applications of this new tool are summarized, including detection of liposomes loaded with Alexa‐660 dye, red blood cells labeled with Indocyanine Green, B16F10 melanoma cells co‐expressing melanin and green fluorescent protein (GFP), C8161‐GFP melanoma cells targeted by magnetic nanoparticles, MTLn3 adenocarcinoma cells expressing novel near‐infrared iRFP protein, and quantum dot‐carbon nanotube conjugates. Negative contrast flow cytometry provided label‐free detection of low absorbing or weakly fluorescent cells in blood absorption and autofluorescence background, respectively. The use of pulsed laser for time‐resolved discrimination of objects with long fluorescence lifetime (e.g., quantum dots) from shorter autofluorescence background (e.g., blood plasma) is also highlighted in this paper. The supplementary nature of PA and fluorescence detection increased the versatility of the integrated method for simultaneous detection of probes and cells having various absorbing and fluorescent properties, and provided verification of PA data using a more established fluorescence based technique. (© 2013 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

Isolation of mitochondria from ascites tumor cells permeabilized with digitonin

A new, improved procedure for isolating mitochondria from ascites tumor cells is described. The unique feature of this technique is the use of digitonin to make the cells susceptible to disruption by Teflon pestle/glass vessel homogenization. The yield and respiratory control ratios of mitochondria isolated by this method from murine Ehrlich ascites tumor cells and rat AS30-D ascites hepatoma cells are significantly better than those obtained for mitochondria isolated by the commonly employed Nagarse method, which involves the use of proteolytic enzymes. Moreover, mitochondria isolated by this new procedure from three different lines of tumors exhibit respiratory control ratios with both adenosine diphosphate and a respiratory uncoupler comparable to those obtained with mitochondria present in situ within digitonin-permeabilized tumor cells.     

综述——基于纳米材料的生物检测与医学诊断技术：循环肿瘤细胞富集和检测的纳米技术

循环肿瘤细胞(CTC)是肿瘤转移过程中在血液循环系统中存活的肿瘤细胞,该细胞的生成被认为是肿瘤发生转移的必要前提．CTC的存在与否及数量多少是肿瘤预后判断、疗效监控和肿瘤转移评估的一个重要检测指标．近年来,纳米材料、纳米结构表面以及可操控微量液体的微流控技术广泛应用于CTC的富集和检测,本文对CTC富集、检测纳米技术的最新进展进行综述,希望能够为肿瘤的诊断和治疗提供帮助．     

肺癌患者外周血中循环肿瘤细胞的快速分离与体外培养

循环肿瘤细胞(circulating tumor cells, CTCs)是从肿瘤病灶脱落并进入外周血液循环的处于游离状态的肿瘤细胞,代表了肿瘤病灶的分子特征,可用于对肿瘤的“液体活检”。但外周血中CTCs数目极为稀少,使得后续针对CTCs的分子与功能分析面临巨大挑战。鉴于此,本文建立了一种基于微流控芯片和免疫磁珠的能够快速从肺癌患者的外周血中分离CTCs的方法。该方法直接针对全血进行一步分离,可避免血液样本预处理及富集等过程对细胞造成的损伤,从而有效地保护CTCs的活性(>90%)。分离得到的CTCs可富集在小体积中(80 μL),实现高密度的细胞培养,完成体外扩增,扩增后的CTCs可以被进一步冻存、复苏及再次增殖培养,表明已经对患者血液中的CTCs成功建系。本文进一步对CTCs进行了基因突变(EGFR、KRAS、PIK3CA、TP53和BRAF)检测及荧光标记葡萄糖类似物(2-NBDG)摄取的功能分析,证明CTCs存在较大异质性。本研究成功实现了对外周血中稀少的CTCs进行体外培养,并对CTCs进行了基因、蛋白、功能等各个层面的分析,这对于肿瘤精准医疗具有重要的临床意义。     

Cytokeratin analysis of breast and leukemia tumor cell lines by flow cytometry

Using four human tumor cell lines, MCF-7 and T47-D from breast tumors, MOLT-4 and K-562 from leukemia, flow cytometric DNA analysis of pure and mixed cell population was performed using monoclonal antibodies to cytokeratin to distinguish cytokeratin-containing carcinoma cells from leukemia cells which do not contain cytokeratins. Surprisingly, on pure or mixed K-562 cells, we found positive labeling with KL1, CK8, and CK18 antibodies (results confirmed by immunocytology). This preliminary study has allowed a DNA analysis on epithelial cells of human breast tumors.