Abstract
Purpose
Vasculogenic mimicry (VM) is known to be a mechanism to nourish the tumor, but little is known about its prognostic significance in esophageal squamous cell carcinoma (ESCC). We characterized the predictive relevance of VM expression and tumor-infiltrating neutrophil (TIN) density in patients with resectable ESCC.
Methods
We retrospectively collected clinicopathologic characteristics of 117 esophageal cancer (EC) patients undergoing complete resection and without preoperative therapy. Immunohistochemistry was used to detect the expression of E-cadherin and CD66b. CD34/periodic acid-schiff (PAS) double staining was used to detect the expression of VM.
Results
VM expression was observed in 56 (47.9%) patients. VM was negatively correlated with E-cadherin (correlation coefficient =−0.364, P<0.001) and was positively correlated with infiltration of CD66b neutrophil (correlation coefficient =0.421, P<0.001). VM and CD66b+ neutrophil infiltration are important markers for poor overall survival and disease-free survival. Multivariate analysis showed that VM, CD66b+ neutrophil infiltration, pathologic tumor node metastasis (TNM) (pTNM) stage, and tumor differentiation are significant independent prognostic predictors in ECs (P=0.001, 0.025, 0.001, 0.011, respectively). VM expression is identified in ~47.9% of ESCC, and it is associated with poor outcome and increased TIN.
Conclusion
TIN is an important factor for VM formation. Therefore, studies of invasive ability of EC in patients with VM could supply significant information for therapeutic strategy.
Background
Esophageal cancer (EC) is a common malignant tumor and is one of high-risk tumors in China. Early metastasis and postoperative recurrence are the main causes of the high mortality in EC.Citation1 The mortality of EC has not been dramatically improved despite the decreased incidence and improved management.Citation2 Novel insights into underlying molecular oncogenic mechanisms are needed for development of better therapies.
“Vasculogenic mimicry” (VM), which was first reported in melanoma in 1999, refers to tumor cells directly interconnected to form vessel-like channels to transport bloodCitation3 and was found in many other malignant tumors, including ovarian cancer, breast cancer, prostate cancer, osteosarcoma, bladder cancer, colorectal cancer, gastric cancer, lung cancer, and hepatocellular cancer.Citation4 VM plays an important role in nourishing the tumor, forming an extracellular matrix (ECM)-rich network, taking tumor cells with blood directly into the microcirculation environment and metastasizing to other organs, and thus playing a significant role in tumor growth and metastasis.Citation5 However, little is known about the immune microenvironment of VM. Among the cells that comprise the immune microenvironment, polymorphonuclear neutrophils (PMNs) have recently been shown to play pivotal roles by altering the immune responses, which are also correlated with patient survival in various cancers.Citation6,Citation7 Indeed, VM and tumor-infiltrating neutrophil (TIN) have been demonstrated to be prognostic factors in various tumors.Citation8–Citation10 But no study has evaluated the association between them in esophageal squamous cell carcinoma (ESCC).
TIN can induce epithelial–mesenchymal transition (EMT) of tumor cells and facilitate the transition from epithelial cells into dedifferentiated mesenchymal state, allowing the loss of contact inhibition, the remodeling of ECM, and promoting a more invasive phenotype.Citation11–Citation13 Furthermore, strong evidence exists between EMT and VM. It is shown that EMT-related factors are upregulated in VM-forming tumor cells.Citation14
The clinical relevance of VM and TIN in resectable ESCC has remained unclear. Based on the previous views above, we hypothesized that VM might be associated with TIN by the crucial bridge of EMT. In the present study, we examined VM, EMT biomarker, and TIN density in ESCC patients and investigated their prognosis value and predictive relevance.
Methods
Patients and specimens
From December 2007 to May 2013, 117 patients with primary ESCC, undergoing complete resection and without preoperative therapy, were enrolled in our study from Qianfoshan Hospital Affiliated to Shandong University. Patients who died within 30 days of surgery or with positive margins were excluded. The nontumor death patients should also be ruled out. This research was approved by the Ethical Committee of Qianfoshan Hospital Affiliated to Shandong University, and written informed consent was obtained from all individual participants included in the study. The clinical information was collected from retrieving the medical records including sex, age, smoking status, tobacco history, alcohol consumption, adjuvant therapy, pathologic tumor node metastasis (pTNM) stage, lymph node metastasis, and the greatest dimension of primary tumor. Laboratory data including white blood cell (WBC) count, neutrophilic granulocyte (NEU) count, lymphocyte (LYM) count, and monocyte (MON) count were collected. The first end point was overall survival (OS) defined as the time from operation to the date of death, the date lost to follow-up, or the date of the latest follow-up. The second end point was disease-free survival (DFS), defined as the time from operation to the first recurrence or death.
Immunohistochemical staining
Specimens, sectioned from archived, paraffin-embedded tumor tissues, were cut into 4-μm serial sections. Then, the sections were dewaxed twice in xylene and rehydrated by ethanol. Subsequently, heat-mediated antigen retrieval was performed by applying sodium citrate buffer (pH 6.0) at 100°C for 2 minutes. Endogenous peroxidase was removed with 3% H2O2. Monoclonal rabbit antihuman CD34 antibody (1:200 dilution, ab81289; Abcam, Cambridge, UK), monoclonal rabbit antihuman E-cadherin (1:300 dilution; CST; 3195S), and the primary antibody of TIN (CD66b, 1:50 dilution, ab197678; Abcam) were added onto the sections and incubated overnight. Then, the sections were washed with PBS and incubated with goat antirabbit biotinylated secondary antibody (SP-9001; Zhongshan Biotechnology, Beijing, China) for 15 minutes at 37°C, followed by horseradish peroxidase (HRP)-conjuncted streptavidin (SP-9001; Zhongshan Biotechnology) incubation at 37°C for 30 minutes. Diamino-benzidine (DAB) was used to detect the immunoactivity. Sections were counter-stained with hematoxylin. Finally, sections were dehydrated with ethanol gradient and mounted by rhamsan gum.
CD34/PAS double staining
CD34 immunohistochemical staining was completed, and the sections were incubated with periodic acid solution for 7 minutes and then washed in distilled water for 3 minutes. Schiff solution was used to the sections for 20 minutes. After distilled water rinsing, hematoxylin staining and gradient dehydration were applied prior to mounting with neutral gum.
Scoring of immunohistochemistry
Two independent pathologists analyzed all the immunohistochemistry (IHC) results blindly. The degree of E-cadherin expression was scored by a semiquantitative method. Classifying the intensity of staining was used by a range of 0–3: negative, 0 point; weak, 1 point; moderate, 2 points; strong, 3 points. The percentage of positive cells stained was recorded according to the following four grade: positive cells <10%, 0 points; 10%–40% positive cells, 1 point; 40%–70% positive cells, 2 points; ≥70% positive cells, 3 points. The product of these two scores was used to estimate the results.Citation15 In this study, all the final scores were stratified as low expression (0–6 scores) and high expression (7–12 scores). The criterion quantitating immunohistochemical staining of TIN was the number of neutrophils in tumor nest, assessing in 10 nonoverlapping high-power fields (HPFS; magnification of ×400; 0.08 mm2) with representative CD66b+ staining. The median value was obtained for further evaluation.
VM judgment
VM could be seen to be formed by tumor cells without endothelial cells. CD34/PAS double-staining was used to validate VM. The vascular endothelium was identified by positive CD34 staining. Lumens with CD34-negative/PAS-positive, as wells as walls composed of tumor cells, was verified by hematoxylin–eosin staining (HE staining). The above cases were then divided into two groups: VM-positive and VM-negative groups.
Statistical analysis
Data analyses were performed by using SPSS software program (version 17.0; SPSS Inc., IL, USA). Correlation of VM with clinicopathological features was evaluated by using Pearson’s χ2 or Fisher’s exact test. The correlations among VM, E-cadherin, and CD66b were analyzed by Spearman’s rho analyses. Univariate and multivariate COX analyses were performed to determine the relation between VM and clinical characteristics and to analyze whether VM was an independent prognostic factor for ESCC patients. P<0.05 was considered statistically significant.
Results
Identification of and relation between VM, E-cadherin, and CD66b
Total population included 117 patients, comprising 17 males and 100 females. The median age was 63 (range, 46 to 80). Of these, 84 (71.8%) patients were regarded as stage I~II and 33 (28.2%) as stage III depending on pTNM stage. There were 83 (71%) cases of well and moderate differentiation and 34 (29%) cases of poor differentiation.
Positive VM was observed in 56 (47.9%) patients based on the CD34/PAS double staining, which was characterized by PAS-positive loops surrounding with tumor cells, with or without red blood cells in it, meanwhile having no CD34 staining (). The expression levels of E-cadherin and CD66b were tested by IHC in the corresponding specimens (). E-cadherin expression on EC is extensive (>85% in the examined specimens). But high expression of E-cadherin (score ≥6) was tested only in 35 (29.9%) patients. Low expression of E-cadherin (score <6) was observed in 82 (70.1%) patients. We found that most of the positive-VM specimens expressed low level of E-cadherin, and the negative-VM specimens expressed high level of E-cadherin. The results demonstrated that VM was negatively correlated with E-cadherin (correlation coefficient =−0.364, P<0.001, ). Moreover, VM was significantly positively correlated with the infiltration of CD66b+ neutrophil (400×, ) in the same sample (correlation coefficient =0.421, P<0.001). E-cadherin was negatively associated with the infiltration of CD66b+ neutrophil (400×, ) in the same specimen (correlation coefficient =-0.468, P<0.001).
Figure 1 IHC of paraffin-embedded esophageal cancer. (A) Hematoxylin–eosin staining of VM channel on the left lined only by tumor cells which are negative for CD34 staining (red arrow). The panel on the right shows endothelium-dependent vessels are positive for CD34 staining (black arrow) (magnification: 200×). (B) E-cadherin expression in esophageal cancer (magnification: 200×). (C) CD66b expression in esophageal cancer (magnification: 400×).
Figure 2 The expressions of VM (A and C), E-cadherin (B and E), and tumor-infiltrating neutrophil (CD66b, D and F) in esophageal cancer. (A, 200×) The expression of VM (red arrows and black arrows refer to endothelium-dependent vessels) was positive, whereas the expression of E-cadherin was weak in the same sample (B, 200×). (C, 200×) The expression was VM was existent, and the expression of tumor-infiltrating neutrophil was strong in the same sample (D, 400×). (E, 200×) The expression of E-cadherin was strong, whereas tumor-infiltrating neutrophil was almost absent in the same sample (F, 400×).
Clinical significance of VM in EC
Our analysis demonstrated that VM was significantly correlated with pTNM stage (P=0.003), E-cadherin (P<0.001), and TIN (CD66b+) (P<0.001) expression. Whereas no statistically significant association was shown between VM and sex, age, tobacco smoking, alcohol drinking, tumor differentiation, lymph node metastasis, WBC, NEU, LYM, and MON ( and ).
Table 1 Clinicopathologic significance of VM in 117 esophageal squamous cell carcinoma patients
Table 2 Spearman’s rho analyses of VM and clinicopathological features
Survival analysis
Median follow-up was 36 months, including 73.5% of patients with over 24 months, 53% over 36 months, and 12% over 60 months. Progression was observed in 117 patients in the whole cohort, with 61 (52.1%) patients in negative-VM group, 56 (47.9%) patients in positive-VM group, 82 (70.1%) patients in E-cadherin low-expression group, 35 (29.9%) patients in E-cadherin in high-expression group, 46 (39.3%) patients in CD66b low-expression group, and 71 (60.7%) patients in high-expression group. A total of 77 patients died at the last follow-up. We evaluated the prognostic value of VM, E-cadherin, and CD66b related to two points: OS and DFS. Kaplan–Meier curves of the six patient groups above for OS and DFS are displayed in , respectively. The survival is significantly different between the positive-VM group and negative-VM group (OS, log-rank test, χ2=28,762, P<0.001; DFS, log-rank test, χ2=25.320, P<0.001), and statistically significant differences were observed between CD66b low- and high-expression groups (OS, log-rank test, χ2=10.962, P<0.001; DFS, log-rank test, χ2=9.225, P=0.002). But there is no statistically significant difference between E-cadherin low-expression group and high-expression group (OS, log-rank test, χ2=0.051, P=0.821; DFS, log-rank test, χ2=0.064, P=0.800). Therefore, it is demonstrated that VM and the infiltration of CD66b+ neutrophil are important markers for poor prognosis. In univariate Cox analysis, the expressions of VM, pTNM stage, lymph node metastasis, degree of tumor differentiation, tumor dimension, and TIN (CD66b) were all statistically significant predictors for OS (P<0.001, 0.001, 0.038, 0.031, 0.028, 0.001, respectively). Our multivariate analysis, in which variables were tested in a step-forward logistic regression approach, showed that VM was proved to be an independent prognostic predictor (hazard rate [HR] =0.275; 95% confidence interval [CI] =0.163~0.401462; P<0.001); meanwhile, the degree of tumor differentiation, pTNM stage, and TIN (CD66b) expression are also independent prognostic predictors (HR =2.018, 95% CI =1.218~3.344, P=0.006; HR =0.234, 95% CI =0.105~0.521, P<0.001; HR =0.487, 95% CI =0.259~0.916, P=0.025, respectively) (). Statistically significant outcomes of the study analysis demonstrated that positive VM could be used as a potential marker for prognosis.
Figure 3 Kaplan–Meier curves for clinical reference values. It is significantly different between positive-VM group and negative-VM group (A: OS, log-rank test, χ2=28,762, P<0.001; D: DFS, log-rank test, χ2=25.320, P<0.001), and statistically significant differences were found between CD66b low-expression group and CD66b high-expression group (C: OS, log-rank test, χ2=10.962, P=0.001; F: DFS, log-rank test, χ2=9.225, P=0.002). But there is no statistically significant difference between E-cadherin low-expression group and high-expression group (B: OS, log-rank test, χ2=0.051, P=0.821; E: DFS, log-rank test, χ2=0.064, P=0.800).
Table 3 Cox-proportional hazard analyses
Discussion
It is well known that blood supply is a key factor for tumor growth, invasion, and metastasis. Currently, there are three patterns providing blood supply for tumors: VM, mosaic vessels, and endothelium-dependent vessels.Citation16 Among the three patterns, VM plays crucial roles in providing blood supply for tumors. Different from angiogenesis and vasculogenesis being the widely accepted mechanisms, VM refers to pipes surrounded by the tumor cells but without depending on vessel endothelial cells. It is an important way to develop tumor invasion and metastasis.Citation17 VM had been found to exist in esophageal stromal tumors.Citation18 Thus far, few studies have examined VM in ESCC. This study demonstrated for the first time that VM was associated with patients’ outcome in resectable ESCC and discovered that OS and DFS of VM-positive patients are shorter than those of VM-negative patients.
Many research studies have investigated the clinical implications of VM and TIN.Citation12,Citation19–Citation24 Although some of their biologic roles have been revealed, the relations among VM and TIN in the context of EC have not yet been established. In a previous study, Hu et al demonstrated that TIN could contribute to EMT in lung adenocarinoma cells and esophageal squamous cancer cell.Citation9,Citation25 TIN was revealed to be beneficial for tumor growth, invasion, and metastasis by proteolysis of ECM components, promoting angiogenesis and mediating immunosuppression.Citation26 TIN was an independent predictor of unfavorable outcome in intrahepatic cholangiocarcinoma, hepatocellular cancer, head and neck cancer, renal cell cancer, non-small cell lung cancer, and EC.Citation9,Citation26
The biologic determinants of the relation between VM and TIN are not well understood. EMT is widely acknowledged to be involved in cancer invasion and metastasis.Citation3 Further evidences have found that EMT regulators and EMT-related transcription factors are highly upregulated in VM-forming tumor cells.Citation27 Many studies have demonstrated that adhesion molecules and other factors modulating EMT process can regulate VM formation, such as Twist, ZEB1, Snail, and Slug/Snail2.Citation14 In this study, we performed an IHC stain of E-cadherin, a well-established indicator of EMT, and discovered that VM was associated with EMT. But EMT is not related to a poor outcome in EC patients. Based on the evidences above, we suspected whether TIN was related to VM? In our study, we performed an IHC stain of CD66b and concluded that TIN was related to poor outcome in EC patients. The result of the analysis of correlation between VM and TIN expression revealed that VM was correlated with TIN. To our knowledge, this is the first study investigate the relation between VM and TIN through IHC. The correlation between VM and TIN leads to the presumption that TIN could induce VM by the interaction of TIN and tumor cells in a tumor microenvironment. According to the correlation between EMT and TIN in a previous study, and the relation between VM and EMT, we speculated that TIN might develop VM formation through inducing EMT progression in tumor microenvironment. Recruitment of TIN to the tumor microenvironment could induce EMT in EC cells, and then promote VM, which resulted in dismal outcome. Further studies are required to clarify this hypothesis.
In our study, pTNM stage, lymph node metastasis, tumor differentiation, and tumor dimension were all the important features and critical prognostic factors of EC. But the expression of VM does not relate intimately with them above. Presentation and function of VM are decided by several characteristics, factors, and microenvironments during tumor growth. Our team tended to the view that microenvironment is the greatest effect for VM. Qiao et al have published a review about the VM.Citation4 In the review, the mechanisms of VM formation were listed clearly, such as MMP2, Ln-5, VE-cadherin, EphA2, and hypoxia. Few evidence could prove that VM is associated with pTNM stage, lymph node metastasis, tumor differentiation, and tumor dimension in EC. Moreover, the number of samples collected was not enough to verify the correlation above. In a further study, we will use a large sample to elucidate the correlation.
Although we could not provide definitive mechanisms in this finding because of the lack of experimental evidence, these indicators may be useful for stratifying patients in clinical settings. More importantly, our findings may also contribute to establishing a basis for the potential mechanism of VM and tumor immunity for ESCC.
In conclusion, this is the first study to determine the prognostic value of VM in EC patients. It highlights VM as an independent predictor of poor OS and DFS in EC. It is the first time to explore the relation among VM, EMT, and TIN. TIN is an important factor for VM formation. Therefore, studies of invasive ability of EC in patients with VM could supply significant information for therapeutic strategy. Such information may help medical scientists predicting patients’ outcome early and provide a reasonable individualized treatment.
Ethics approval
All procedures performed in this study were in accordance with the ethical standards of the institutional research committee and with the 1964 Helsinki Declaration and its later amendments or comparable ethical standards.
Informed consent
Written informed consent was obtained from all individual participants included in the study.
Acknowledgments
This thesis would not have been possible without the contributions of several people. To all these people, we wish to express our gratitude. We would like to acknowledge and extend our heartfelt gratitude to Jian Xie, Ning Liang, Fangjie Chen, Wei Jiang, and Ning Li for their vital encouragement and patient guidance, generous assistance, and invaluable advice, all of which have been of inestimable worth to the completion of our thesis. This study was supported by grants from the National Natural Science Foundation of China (grant no 81672974 and no 81602719).
Disclosure
The authors report no conflicts of interest in this work.
References
- SiegelRLMillerKDJemalACancer statistics, 2016CA Cancer J Clin201666173026742998
- ChenWZhengRBaadePDCancer statistics in China, 2015CA Cancer J Clin201666211513226808342
- ManiotisAJFolbergRHessAVascular channel formation by human melanoma cells in vivo and in vitro: vasculogenic mimicryAm J Pathol1999155373975210487832
- QiaoLLiangNZhangJAdvanced research on vasculogenic mimicry in cancerJ Cell Mol Med201519231532625598425
- SunTZhaoNZhaoXLExpression and functional significance of Twist1 in hepatocellular carcinoma: its role in vasculogenic mimicryHepatology201051254555619957372
- NathanCNeutrophils and immunity: challenges and opportunitiesNat Rev Immunol20066317318216498448
- DonskovFImmunomonitoring and prognostic relevance of neutrophils in clinical trialsSemin Cancer Biol201323320020723403174
- CarusoRABelloccoRPaganoMBertoliGRigoliLInferreraCPrognostic value of intratumoral neutrophils in advanced gastric carcinoma in a high-risk area in Northern ItalyMod Pathol200215883183712181268
- WangJJiaYWangNThe clinical significance of tumor-infiltrating neutrophils and neutrophil-to-CD8+ lymphocyte ratio in patients with resectable esophageal squamous cell carcinomaJ Transl Med201412724397835
- ZhaoJJ PKWangWChenJGThe prognostic value of tumor-infiltrating neutrophils in gastric adenocarcinoma after resectionPLoS One201273e3365522442706
- FanYLZhengMTangYLLiangXHA new perspective of vasculogenic mimicry: EMT and cancer stem cells (Review)Oncol Lett2013651174118024179490
- WangWLinPHanCCaiWZhaoXSunBVasculogenic mimicry contributes to lymph node metastasis of laryngeal squamous cell carcinomaJ Exp Clin Cancer Res2010296020525189
- ThieryJPAcloqueHHuangRYNietoMAEpithelial–mesenchymal transitions in development and diseaseCell2009139587189019945376
- LiuQQiaoLLiangNThe relationship between vasculogenic mimicry and epithelial–mesenchymal transitionsJ Cell Mol Med20162091761176927027258
- DassSD CPOngDBTeohKHLooiLME-cadherin downregulation at the infiltrating tumour front is associated with histological grade and stage in colorectal carcinoma of MalaysiansMalays J Pathol2015371192425890609
- FolbergRHendrixMJManiotisAJVasculogenic mimicry and tumor angiogenesisAm J Pathol2000156236138110666364
- LinPWangWSunBCVasculogenic mimicry is a key prognostic factor for laryngeal squamous cell carcinoma: a new pattern of blood supplyChin Med J2012125193445344923044304
- ZhaoHGuXMStudy on vasculogenic mimicry in malignant esophageal stromal tumorsWorld J Gastroenterology2008141524302433
- LiangJYangBCaoQWuXAssociation of vasculogenic mimicry formation and CD133 expression with poor prognosis in ovarian cancerGynecol Obstet Invest201681652953627160772
- ZhangYSunBZhaoXClinical significances and prognostic value of cancer stem-like cells markers and vasculogenic mimicry in renal cell carcinomaJ Surg Oncol2013108641441923996537
- ChenLHeYSunSSunBTangXVasculogenic mimicry is a major feature and novel predictor of poor prognosis in patients with orbital rhabdomyosarcomaOncol Lett20151031635164126622724
- DonskovFImpact of immune parameters on long-term survival in metastatic renal cell carcinomaJ Clin Oncol200624131997200516648500
- RaoHL CJLiMIncreased intratumoral neutrophil in colorectal carcinomas correlates closely with malignant phenotype and predicts patients’ adverse prognosisPLoS One201271e3080622295111
- JensenTOSchmidtHMøllerHJIntratumoral neutrophils and plasmacytoid dendritic cells indicate poor prognosis and are associated with pSTAT3 expression in AJCC stage I/II melanomaCancer201211892476248521953023
- HuPShenMZhangPIntratumoral neutrophil granulocytes contribute to epithelial–mesenchymal transition in lung adenocarcinoma cellsTumour Biol201536107789779625944163
- ShenMHuPDonskovFWangGLiuQDuJTumor-associated neutrophils as a new prognostic factor in cancer: a systematic review and meta-analysisPLoS One201496e9825924906014
- NaDCLeeJEYooJEOhBKChoiGHParkYNInvasion and EMT-associated genes are upregulated in B viral hepatocellular carcinoma with high expression of CD133-human and cell culture studyExp Mol Pathol2011901667320969862