Abstract
Purpose
The aim of this study was to investigate the clinical significance of circulating tumor cells (CTCs) in the peripheral blood of an osteosarcoma and the Ezrin gene expressed in CTCs.
Patients and methods
CTC enrichment was done with CanPatrol™ CTC enrichment technique in 41 patients with osteosarcoma. The characterization of CTCs was performed using a multiple messenger RNA in situ analysis (MRIA). The expression of the Ezrin gene in CTCs was detected by RNA probe technology. The correlations of CTC counts, cell type and the expression level of the Ezrin gene with clinical stage and metastasis of osteosarcoma were analyzed using SPSS 16.0 software.
Results
The CTC counts correlated significantly with Enneking stage (P<0.001). The ratio of mesenchymal CTCs correlated with the distant metastases (P<0.001). Ezrin gene expression in CTCs correlated significantly with distant metastases (χ2=152.51, P=0.000).
Conclusion
The ratio of mesenchymal CTCs in the peripheral blood of osteosarcoma correlates with distant metastases. High expression of Ezrin gene in CTCs correlates with distant metastases.
Introduction
Osteosarcoma is a malignant tumor that threatens the life and health of adolescents;Citation1,Citation2 with the introduction of the neoadjuvant chemotherapy, the 5-year survival rate of osteosarcoma patients has increased from 20% to 60%–70%.Citation3,Citation4 However, the metastasis of tumor cells and recurrence are still the major reasons for patients’ death due to osteosarcoma.Citation5 Thus, metastasis and recurrence are difficult problems for osteosarcoma treatment.
A major cause of tumor recurrence could be ascribed to the increasing number of circulating tumor cells (CTCs), especially some chemotherapy-resistant CTCs that may become the origin of relapse after treatment.Citation6 Tumor self-seeding by CTCs is also considered to be the reason for tumor metastasis.Citation7 Tumor self-seeding involves the CTCs detaching themselves from the primary tumor and entering into the bloodstream, followed by seeding distant organs to form metastases.Citation8 Therefore, CTCs could be used to evaluate the prognosis and monitor the therapeutic efficacy of anticancer drugs.
At present, the developed methods for the detection of CTCs can be classified into two major categories: 1) immunochemistry-based methods, including positive selection (enrichment of epithelial marker-positive cells) and negative selection (depletion of CD45-positive blood cells), and 2) physical property-based methods (selection by cell size or electrical charge).Citation9,Citation10 Because CTCs from osteosarcoma tumors are mesenchymal in origin and do not express epithelial-specific markers, selection by cell size is used to detect the CTCs from osteosarcoma tumors.
Ezrin, an ezrin/radixin/moesin (ERM) family member, is a membrane cytoskeletal linker protein that is known to play an important role in the metastasis of various human cancers, including breast cancer, colorectal carcinoma, gastric cancer and serous ovarian carcinoma.Citation11–Citation15 By organizing membrane cytoskeleton-associated complexes and creating specialized membrane domains, Ezrin regulates cellular activities such as survival, adhesion and migration/invasion, all of which are important during tumor development and progression.Citation16–Citation18 Furthermore, Ezrin has been suggested to be an important molecule involved in the metastasis of human osteosarcoma. Bulut et alCitation19 reported that with the inhibition of Ezrin function by two small molecule inhibitors, the lung metastatic ability of osteosarcoma cells was greatly decreased. Studies by Kim et alCitation20 had shown that pulmonary metastasis occurred in 66.7% of Ezrin-positive patients, accounting for 90% of all metastatic patients. Therefore, the expression of Ezrin played an important role in the lung metastasis of osteosarcoma cells.
In this study, we enumerated and characterized the phenotypes of CTCs in the peripheral blood of osteosarcoma patients by using CanPatrol™ CTC enrichment technique and detected the expression of Ezrin gene in CTCs by RNA probe technology. Then, the correlations of CTC number, cell type and the expression level of Ezrin gene with clinical stages and metastases were investigated. The results showed that the ratio of mesenchymal CTCs in the peripheral blood of osteosarcoma correlates with distant metastases, and high expression of Ezrin gene in CTCs correlates with distant metastases.
Patients and methods
Patients and blood samples
A total of 41 diagnosed osteosarcoma patients were recruited by The First Affiliated Hospital of Fujian Medical University during January 2015 to March 2016. Written informed consent were obtained from all cancer patients in this study, or patients under 18 years old the consent was obtained from their parents. The classification of cancer stage was according to the Enneking stage. Clinicopathological data were collected, including age, gender, tumor location and tumor clinical stage. All patients’ characteristics are summarized in . The blood samples from our selected patients were collected before surgery. All samples were analyzed with CanPatrol System (SurExam Biotech, Guangzhou, China).Citation21
Table 1 Characteristics of patients with osteosarcoma, n (%)
Isolation of CTCs by size
For the osteosarcoma patients, 5 mL peripheral blood samples were collected in ethylenediaminetetraacetic acid (EDTA) tubes by venipuncture, and a filtration method was applied using an 8 μm diameter pores calibrated membrane (Millipore, Billerica, MA, USA).Citation21 The required filtration system consisted of a filtration tube containing the membrane (SurExam Biotech), a manifold vacuum plate with valve settings (SurExam Biotech), an E-Z 96 vacuum manifold (Omega, Norcross, GA, USA) and a vacuum pump (Auto Science, Tianjin, China). The red blood cell lysis buffer (154 mM NH4Cl, 10 mM KHCO3 and 0.1 mM EDTA [all from Sigma, St Louis, MO, USA] in deionized water) was used to remove the erythrocytes, then phosphate-buffered saline (PBS) containing 4% formaldehyde (Sigma) was used to resuspend the remaining cells for 5 minutes before filtration. After transferring the cell suspension to the filtration tube, the pump valve was switched on to reach at least 0.08 MPa, and then the filtration began by switching the manifold vacuum plate valve.
Multiplex RNA-in situ hybridization (RNA-ISH) assay
Three groups of nucleic acid probes were established to identify and examine the expression levels of epithelial and mesenchymal genes in CTCs by a multiplex RNA-ISH assay. Group 1 probes contained four capture probes specific for the epithelial biomarkers EpCAM and cytokeratins (CKs) 8/18/19, and group 2 probes had two capture probes specific for mesenchymal biomarkers vimentin and twist. The last group only contained the capture probe specific for the leukocyte biomarker CD45. The detailed hybridization assay procedure has been presented in the published literature.Citation21 Briefly, the cells retained on the filter membrane were treated with a protease (Qiagen, Hilden, Germany) before hybridization. Then, the cells were subjected to a series of hybridization reactions with different capture probes, mentioned earlier. Finally, the cells were stained with 4,6-diamidino-2-phenylindole (DAPI). The samples were analyzed with a fluorescence microscope using a 100× oil objective (Olympus BX53; Olympus, Tokyo, Japan). The red and green dots of fluorescent signal observed in the cells represented the epithelial and mesenchymal gene expression, respectively, while the purple fluorescent dots represented the CD45 gene expression (the markers of white blood cells). All sequences were synthesized by Thermo Fisher Scientific (Waltham, MA, USA).
Detection of Ezrin messenger RNA (mRNA) expression level in CTCs
Ezrin mRNA expression level in CTCs was also detected by RNA-ISH assay. The capture probe specific for Ezrin mRNA was used to capture Ezrin mRNA, followed by conjugation to the branched DNA (bDNA) signal amplification probes to create a branched structure. Finally, the labeled probes conjugated with a fluorescent dye were hybridized to the bDNA sequence. The results were analyzed using a fluorescence microscope.
Statistical analysis
The data were analyzed using SPSS 16.0 software package (SPSS Inc., Chicago, IL, USA). The correlations of CTC counts with clinical stage were analyzed with k-independent-samples nonparametric tests. The independent-samples t-test was used to analyze the correlations of the ratio of mesenchymal CTCs with distant metastases. The correlations of Ezrin expression with distant metastases were analyzed using chi-square test. All data are presented as the mean ± standard deviation (SD), and P<0.05 was considered significant.
Ethics approval
This study conformed to the ethical guidelines of the Declaration of Helsinki and was approved by The Ethics Committee for Human Research, The First Affiliated Hospital of Fujian Medical University.
Results
Patient characteristics
A total of 41 osteosarcoma patients (median age 15 years, range 9–35 years) were enrolled in this study. Of these patients, according to Enneking staging system, eleven patients (26.8%) had early metastases as IIIB, 26 patients (63.4%) were classified as IIB, one patient (2.4%) was classified as IIA, two patients (5%) were classified as IB and one patient (2.4%) was classified as IA. CTCs were detected in 41 patients, and the results demonstrated that the positive rate was 92.6% (38/41) (), while the positive rate was 20% (1/5) in healthy donors (data not shown). Then, the associations of the positive rate of CTCs with clinicopathological variables of osteosarcoma, including age, gender, Enneking stage and tumor location, were analyzed. The results (shown in ) indicated that there was no significant correlation between the positive rate of CTCs and age, gender and tumor location. Significant correlations between the positive rate of CTCs and Enneking stage (P<0.001) were found.
Classification of CTCs
The CTCs were classified into three subpopulations according to the epithelial-to-mesenchymal transition (EMT) markers by using multiplex RNA-ISH assay, including epithelial CTCs, mesenchymal CTCs and biophenotypic epithelial/mesenchymal CTCs (). The results showed that no mesenchymal CTCs and biophenotypic epithelial/mesenchymal CTCs could be detected in healthy donors (data not shown). In the metastatic stages of osteosarcoma (IIIB), a greater proportion of samples containing mesenchymal CTCs were observed (). The results showed that the ratio of mesenchymal CTCs in each positive sample increased in the later stages of osteosarcoma compared with the earlier stages of osteosarcoma.
Figure 1 Fluorescence microscopy images of three types of CTCs isolated from the peripheral blood osteosarcoma patients, based on RNA-ISH staining of epithelial (red dots) and mesenchymal (green dots) markers.
Abbreviations: CTCs, circulating tumor cells; ISH, in situ hybridization.
Table 2 Comparison of the CTC counts and the proportion of different CTC types between stage IIB and stage IIIB of patients with osteosarcoma
The expression of Ezrin gene in CTCs
RNA-ISH was applied to investigate the expression of Ezrin in CTCs from 38 osteosarcoma patients. The results showed that Ezrin gene was expressed in ~77.85% of CTCs. Further research indicated that the expression rates of Ezrin in different types of CTCs were different: 43.9 % in the epithelial CTCs, 68.9% in the biophenotypic epithelial/mesenchymal CTCs and 81% in the mesenchymal CTCs; the difference in expression between the epithelial and mesenchymal CTCs was significant (). The expression levels of Ezrin in stage IIB and stage IIIB were also analyzed; the results showed that the expression levels of Ezrin were different in these two stages. The expression level in stage IIIB was higher than that in stage IIB, indicating that the expression level of Ezrin correlated with the distant metastases ().
Table 3 Different expression levels of Ezrin gene in CTCs of stage IIB and stage IIIB of patients with osteosarcoma
Sensitivity of the CanPatrol system
The sensitivity and linearity of the CanPatrol system were investigated by spiking 10, 50, 100, 150 and 200 143B cells into 5 mL of blood to assess recovery of the cells (Figure S1). The correlation coefficient (R2) was estimated to be 0.999.
Discussion
CTCs are cells that have shed into the vasculature from a primary tumor and circulate in the bloodstream.Citation22 Due to the noninvasive feature of obtaining sequential blood samples from cancer patients as well as potential clinical application in cancer detection, diagnosis, prognosis and test of drug response, research on CTCs has attracted more and more attention in recent years.Citation23 Different techniques have been developed for CTC isolation and characterization, which are based on the cell surface antigens or physical properties of CTCs.Citation24 Approaches based on cell surface antigens such as epithelial markers are the most widely applied strategies for CTC detection. Among all the platforms, CellSearch from Janssen Diagnostics is considered the most successful. The practicability of CellSearch has been widely verified by many studies and referred as the “gold standard” for evaluating newly developed approaches.Citation25 However, these epithelial antigen-based approaches most likely overlooked the more aggressive CTC subpopulation undergoing EMT.Citation26 EMT is a multistep process that plays an important role in metastasis and cancer progression, and CTCs with an EMT phenotype were presumed to be involved in tumor dissemination and metastasis.Citation27,Citation28 Considering this phenomenon, the depletion of blood cells may be a supplementary method.
Ezrin belongs to the ERM protein family that acts as membrane organizers and linkers between plasma membrane and cytoskeleton.Citation29 Some research has suggested that a high expression of Ezrin was found to be necessary for metastasis in a mouse model of osteosarcoma and a high expression of ezrin in dog osteosarcoma was also associated with early pulmonary metastasis.Citation30–Citation32 Thus, it is significant to investigate the relationship between the expression of Ezrin in CTCs and the distant metastases of osteosarcoma.
In this study, the CanPatrol CTC enrichment technique was used to isolate and characterize CTCs of osteosarcoma patients, which could not express epithelial antigens. This technique consists of two major steps: a filtration-based approach (a physical method, an 8 μm filtration tube) to isolate CTCs and subsequent characterization of the CTCs using EMT markers, including the epithelial markers EpCAM and CKs and the mesenchymal markers vimentin and twist.Citation21,Citation33 EpCAM is a transmembrane glycoprotein that mediates cell–cell adhesion in epithelial tissues, and this protein has oncogenic potential via its capacity to upregulate c-myc, cyclin A and cyclin E.Citation34 CKs are the proteins of keratin-containing intermediate filaments found in the cytoskeleton of epithelial cells.Citation21 While vimentin is ubiquitously expressed in mesenchymal cells, the expression of vimentin in cancer cells could increase tumor growth and invasiveness.Citation35 Twist is a helix-loop-helix protein that is transcriptionally active during cell differentiation.Citation36 Our results showed that CTCs were detected in 38 of 41 osteosarcoma patients; the positive rate was 92.6%, reflecting the characteristic of osteosarcoma that was prone to distant metastasis. The results also showed that the ratio of mesenchymal CTCs in each positive sample increased in the later stages of cancer compared with the earlier stages of cancer, and the difference was statistically significant, indicating that mesenchymal CTCs may play an important role in the metastasis of osteosarcoma. This phenomenon could be explained by the theory that the vimentin and twist expressed in the mesenchymal CTCs could upregulate the expression of N-cadherin and down-regulate the expression of N-cadherin, which makes the mesenchymal CTCs prone to metastasis.Citation35–Citation37 In addition, the results further indicated that the expression levels of Ezrin were different in stage IIB and stage IIIB. The expression level of Ezrin in stage IIIB was higher than that of stage IIB, showing that the expression level of Ezrin correlated with the distant metastases ().
Due to the relatively small sample size in this study, the association of CTC counts with Enneking stage may be bias. However, we assessed that the ratio of mesenchymal CTCs in each positive sample increased in the later stages of osteosarcoma compared with the earlier stages of osteosarcoma, and the expression level of Ezrin in stage IIIB was higher than that of stage IIB, indicating that the ratio of mesenchymal CTCs and the expression level of Ezrin in CTCs were associated with distant metastases of osteosarcoma.
Conclusion
This study provided a novel approach for isolation and characterization of CTCs from osteosarcoma patients by a combination of physical and biological methods. Our findings have provided evidence of the EMT-like phenomenon in CTCs of osteosarcoma, and the ratio of mesenchymal CTCs was associated with distant metastases of osteosarcoma. Furthermore, we demonstrated that the expression level of Ezrin in CTCs was also associated with distant metastases of osteosarcoma. Further studies could be performed to investigate the correlation of the ratio of mesenchymal CTCs with progression-free survival and overall survival of osteosarcoma.
Acknowledgments
The authors gratefully acknowledge the financial support of the National Natural Science Foundation of China (81301520), the Natural Science Foundation of Fujian Province (2016J01540, 2014J05088), the outstanding youth scientific research personnel training plan of colleges and universities in Fujian Province (2015B027), Joint Funds for the Innovation of Science and Technology, Fujian Province (2016Y9019), the outstanding youth fund of Fujian Province, the special fund of youth top-notch innovative talents of Fujian Province (SQNBJ201601) and the Key Clinical Specialty Discipline Construction Program of Fujian Province, People’s Republic of China (2012-SLCZD-1).
Supplementary materials
Figure S1 Calibration curve obtained using the CanPatrol™ CTC enrichment technique in the spiking experiment (n=5) using 143B cells at different dilutions.
Abbreviation: CTCs, circulating tumor cells.
Table S1 The expression rates of the Ezrin gene in different types of CTCs
Disclosure
The authors report no conflicts of interest in this work.
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