Introduction
Esophageal cancer(EC) is one of the deadliest malignant tumors worldwide. It is the eighth most common cancer and the sixth most common cause of death [
1,
2]. Lymph node metastasis is an independent prognostic factor for patients with esophageal cancer [
3]. Therefore, esophageal cancer surgery includes removal of the primary lesion and lymph node dissection. Proper lymph node dissection is vital, but the optimal extent of lymph node dissection, namely two field (mediastinal and abdominal stations) versus three field (cervical, mediastinal, and abdominal stations) remains controversial.
The submucosal layer of the esophagus includes abundant crisscrossed lymphatic vessels networks, and early stage esophageal cancer invasion into the submucosa may thus have multiple metastatic LN stations [
4,
5]. To prevent postoperative recurrence and lymph-node metastasis and improve long-term survival, extensive radical lymphadenectomy, such as three-field lymph node dissection (3FLND), was introduced for patients with thoracic esophageal carcinoma [
6]. Esophagectomy with 3FLND has been proposed for decades, and now being the main surgical procedure for esophageal cancer in Japan. Although many studies have confirmed its survival benefit [
7,
8], 3FLND is not widely used in other countries including China because it is associated with a higher mortality rate and a higher incidence of postoperative complications [
9]. There is an urgent need to identify novel biomarkers that can help to select patients with a high risk of cervical lymph-node metastasis and esophageal cancer recurrence. Such biomarkers could provide clinical clues for performing proper lymph-node dissection in esophageal squamous cell carcinoma(ESCC).
Recently, numbers of studies have found that long non-coding RNAs (lncRNAs), which refer to a class of RNA transcripts of greater than 200 nucleotides without protein coding function, are playing a role in tumor suppressing or cancer-promoting [
10]. With the deepening research of lncRNA function, the study revealed that there are a large number of abnormal expression of lncRNAs in esophageal cancer [
11‐
13], which play an important role in the development and progression of esophageal carcinoma. SPRY4 Intronic transcript 1 (SPRY4-IT1) is a 708-nucleotide-long lncRNA, which comes from the chromosome 5q31.3 [
14]. It could influence both cell proliferation and apoptosis. SPRY4-IT1 was previously reported to be up-regulated in melanoma, gastric cancer,breast cancer, esophageal squamous cell carcinoma and colorectal cancer [
14‐
18]. Meanwhile, some studies reported that SPRY4-IT1 was correlated with lymph node metastasis and poor prognosis [
13,
19]. Xie et al. reported that the relative expression level of SPRY4-IT1 was associated with T stage, lymph node metastasis, and advanced pathological stage of ESCC patients, SPRY4-IT1 high expression was correlated with lower overall survival rates and could be an independent prognostic factor in patients with ESCC [
13]. The objective of this study was to investigate the expression of SPRY4-IT1 in ESCC by qRT-PCR, and to further assess its correlation with lymph node metastasis and poor prognosis and thus guide the most appropriate lymph node dissection strategies for ESCC.
Materials and methods
Patients
The study included 92 patients with squamous cell carcinoma of the thoracic esophagus. All patients underwent R0 esophagectomy in the Department of Thoracic Surgery of the Fourth Hospital affiliated to the Hebei Medical University and Hebei General Hospital between Jun 2011 and Dec 2015. Primary cancer tissues and paired adjacent noncancerous tissues(≥2 cm from the edge of carcinoma) were snap-frozen in liquid nitrogen immediately after resection and then stored at − 80 °C for RNA extraction. No patient received chemotherapy、radiotherapy、immunotherapy and traditional Chinese medicine prior to specimen collection. The patients were enrolled into our research according to the following criteria: 1) adult patients with pathologically confirmed esophageal squamous cell carcinoma;2) All of the studied patients underwent radical esophagectomy;3) No treatment strategy was performed before surgery:4) Age of 18 to 75 years. The exclusion criteria were as follows:1) The patients merged with other cancers;2) Cervical esophageal squamous cell carcinoma;3) Patients with severe hypertension、severe pulmonary function injury、massive myocardial infarction、cardiac function ≥ level 2(NYHA)、psychiatric history and severe diabetes complications;4) Patients participated in other clinical trial within the first 4 weeks.
Among the 92 patients with esophageal squamous cell carcinoma,54 patients were male, and 38 patients were female. The range of the patients’ ages at the time of diagnosis was 30–75 years (median, 56 years). The postoperative pathological stages were determined according to the UICC TNM staging system. 35 patients at early stage (TNM stages I), 57 patients at advanced stage (TNM stages II-III);52 patients included lymph-node metastasis,40 patients didn’t have lymph-node metastasis. No residual cancer cells were detected under the upper and lower cutting edge or the lateral margin. The esophageal cancer tissues and paired adjacent noncancerous tissues were confirmed via a pathological examination. This study was approved by the Medical Ethics Committee of the Fourth Hospital affiliated to the Hebei Medical University, and the consent in written form was obtained from all patients.
Surgical procedure
The scope of operation in three-field lymph node dissection(3FLND) included neck, chest, and abdomen. The specific surgical procedures were as follows:
The chest surgery: 1) The patients were intubated with single-lumen endotracheal tubes and were set in the lateral position. We commonly set a 12 mm trocar at the 9th intercostal space at the posterior axillary line for thoracoscope, a 12 mm trocar at the 7th intercostal space at posterior axillary line, two 5 mm trocars at 4th and 7th intercostal spaces at the anterior axillary line (insufflation of carbon dioxide 6–10 mmHg). 2) Mediastinal pleura was opened along the right vagus nerve and posterior margin of the upper esophagus, identify the root of the right recurrent laryngeal nerve (RLN), expose and protect the right RLN, dissect the right RLN and thoracic paraesophageal lymph nodes (LNs),completely mobilize the upper esophagus. 3) The azygos vein arch was mobilized and resected. 4) We freed the middle and lower segment of the esophagus. The lymph nodes along with the paraesophageal、hilar and esophageal hiatus were dissected. 5) Expose the left RLN, dissect the LNs of the left RLN, dissect the LNs under the carina and completely stop bleeding. The esophagus was dissected from the diaphragm to the apex of the chest, along with the mediastinal and hilar lymph nodes dissection, including the bilateral RLNs and subcarinal LNs.
The abdominal and cervical surgery: 1) Place the patients in the supine position and separate legs, expose the small bend in the stomach; cut off the left gastric artery, and lymph nodes along the left gastric artery、hepatic artery and the celiac axis were dissected. 2) The stomach was mobilized with reserve of the right gastroepiploic artery, meanwhile, dissect the perigastric LNs, separate the esophageal hiatus and mobilize the abdominal esophagus. 3) Make an 5 cm incision in the anterior border of the sternocleidomastoid muscle of the left cervix, separate the sternocleidomastoid, dissect the LNs in the left lower cervical esophagus [included left cervical paraesophageal (101) and supraclavicular (104)] and cut off the cervical esophagus at the level of thoracic inlet. 4) Make a 5 cm subxiphoid vertical incision in the centre of the abdomen, remove the stomach and esophagus with lesion, a tubular stomach was reconstructed using linear cutting stapler, lift the tubular stomach to the left neck by way of the esophageal hiatus and esophageal bed, a circular stapler was inserted to anastomose the greater curvature side of the tubular stomach and the cervical esophageal. Then, a linear cutting stapler was used to close the proximal end of the tubular stomach. 5) Make an 5 cm incision in the anterior border of the sternocleidomastoid muscle of the right cervix and dissect the LNs in the right lower cervical esophagus [included right cervical paraesophageal (101) and supraclavicular (104)].
RNA extraction and qRT-PCR
Total RNA was extracted from specimens of esophageal cancer tissues and paired adjacent noncancerous tissues using Trizol reagent (Invitrogen,Carlsbad, CA).RNA was reversely transcribed into cDNAs using the SuperScript first-strand synthesis system (Invitrogen, Carlsbad, CA, USA). To evaluate SPRY4-IT1 expression levels, we used quantitative real time polymerase chain reaction (qRT-PCR) with 2 × TaqMan Premix Ex Taq (Takara, Japan), using an ABI7900 system (Applied Biosystems, CA,USA). Dissociation curve analysis was used to evaluate the PCR products. Glyceraldehyde 3-phosphate dehydrogenase (GAPDH) was used as an internal control. The comparative 2-ΔΔCt method was used for relative quantification and statistical analysis. The primers of GAPDH and SPRY4-IT1 were synthesized by Sangon Biotech (Shanghai, China). SPRY4-IT1 expression levels were determined using 5′-AGCCACATAAATTCAGCAGA-3′ as a forward primer and 5′-CGATGTAGTAGGATTCCTTTCA3′ as a reverse primer sequence. Results were normalized to GAPDH using forward, 5′-GTCAACGGATTTGGTCTGTATT-3′and reverse 5′-AGTCTTCTGGGTGGCAGTGAT-3′primers.
Postoperative follow-up and the diagnosis of lymph-node recurrence
All patients underwent follow-up examinations every 3–6 months after surgery. These examinations included Doppler ultrasound, chest and abdominal enhanced CT examination, and, if necessary, PET-CT and endoscopy. Recurrence was defined as apparent recurrence on imaging studies during follow-up. The diagnosis of cervical lymph-node recurrence was mainly made based on the results of a physical examination, Doppler ultrasound, and fine-needle aspiration cytology. The diagnosis of mediastinal lymph-node recurrence was mainly based on CT findings. The diagnosis of abdominal lymph-node recurrence was mainly based on Doppler ultrasound and CT findings.
Statistical analysis
All statistical analyses were performed using SPSS 21.0 software (SPSS Inc., Chicago, IL, USA). The X2 test was used to analyze the relationship between SPRY4-IT1 expression and clinicopathological characteristics. The correlation between lymph-node metastasis、recurrence and SPRY4-IT1 expression was analyzed by X2 test or nonparametric test (Mann–Whitney U test). The Kaplan-Meier method was used to calculate the survival curves. Univariate analysis and multivariate analysis were performed using the Cox proportional hazard regression model. A p value less than 0.05 was considered statistically significant. All of the experiments were repeated three times.
Discussion
Lymphatic metastasis is an important metastatic pathway in patients with ESCC. The esophageal submucosa includes abundant LNs and longitudinal lymphatic networks [
4],Cancer cells can be transferred along with the complex LN system. In addition, the incidence of metastasis to the extramediastinal nodes in the absence of mediastinal metastasis (jumping metastasis) is high. Moreover, this high rate of jumping metastasis is considered to be a characteristic of lymph-node metastasis in thoracic esophageal cancer [
20]. Thus, the enlargement of the area of lymph-node resection seems to be important for the long-term survival of ESCC patients [
7]. Patients with esophageal cancer require 3FLND, which helps to improve the accuracy of staging, guiding subsequent treatment, reducing postoperative tumor recurrence, and improving the survival rate of patients [
21]. However, compared with two-field LN dissection, three-field LN dissection is a more complicated surgical procedure that requires longer time and exposes the patient to greater trauma. The high rate of postoperative complications, including recurrent laryngeal nerve injury, anastomotic leakage, chylothorax and pulmonary infection, cannot be completely avoided [
6,
22,
23]. Therefore, there is an urgent need to identify novel biomarkers that can help to select patients with a high risk of cervical and superior mediastinal lymph-node metastasis and esophageal cancer recurrence. Such biomarkers could provide clinical clues for performing proper lymph-node dissection in ESCC patients.
Previous studies showed that the rate of cervical LN metastasis in patients with esophageal cancer was 16–43% and the recurrence rate is 6–16% [
24,
25]. The ability to predict and detect cervical LN metastasis is thus key to improving surgical efficacy in patients with ESCC. In recent years, a increasing number of papers have reported that the expression level of lncRNAs can be used as robust and crucial biomarkers for cancer risk, diagnosis, and prognosis [
13,
19]. Xie et al. reported that the high expression level of SPRY4-IT1 was associated with T stage, lymph node metastasis, and advanced pathological stage of ESCC patients [
13]. Based on previous researches, our attention then focused on SPRY4-IT1.
In our present study, we determined the expression levels of SPRY4-IT1 in ESCC tissues and matched adjacent noncancerous tissues and observed a significantly higher expression of SPRY4-IT1 in the esophageal carcinoma tissues than in the paired adjacent normal esophageal tissues. We further discovered the high expression level of SPRY4-IT1 was significantly associated with tumor differentiation, T classification, lymph node metastasis and pathological TNM stage, suggesting SPRY4-IT1 contributed to progression and poor prognosis of ESCC. Similar results were also found in other types of cancer, and a higher expression of SPRY4-IT1 predicted poor prognosis in many cancers, such as gastric cancer, colorectal cancer, non-small cell lung cancer, and breast cancer [
15,
16,
18,
26]. On the basis of the previous studies, we hypothesized that the high SPRY4-IT1 expression of ESCC patients might be used as a biomarker for guiding on three-field LN dissection.
All of patients(
n = 92) underwent R0 esophagectomy with 3FLND including the cervical, mediastinal, and abdominal lymph nodes were enrolled into our study. We found that the ESCC patients with the high expression of SPRY4-IT1 showed a higher rate of cervical and superior mediastinal lymph-node metastasis in comparison to the low expression of SPRY4-IT1 group (
P = 0.039, Table
2).However, no significant association was observed between the cervical and superior mediastinal lymph-node recurrence and the SPRY4-IT1 expression level(
P = 0.509,Table
3). Even, there was no obvious difference between the lymph-node recurrence and the SPRY4-IT1 expression statue in the ESCC patients with 3FLND esophagectomy(
P = 0.077,Table
1). This reflected that the high expression of SPRY4-IT1 is associated with a higher risk of cervical and superior mediastinal lymph-node metastasis and that this could be mitigated by radical three-field lymph node dissection surgery.
From the survival analysis, the patients with high SPRY4-IT1 expression had a trend of shorter PFS and OS than patients with low SPRY4-IT1 expression,which indicated that the high expression of SPRY4-IT1 might have a unfavourable effect on the ESCC patients’ prognosis. But no significant differences were observed in the ESCC patients with 3FLND.Thus, patients with high SPRY4-IT1 expression might benefit from 3FLND esophagectomy. Based on our work, the high expression of SPRY4-IT1 might be used as a promising indicator for selecting three-field lymph node dissection for thoracic ESCC patients.
Some limitations of the present study should be addressed. First, this was a retrospective investigation with a relatively small population. In the following study, a large scale、randomized controlled trial will be needed to validate our conclusion. Second, only 3FLND ESCC patients were included. It is also important to investigate the association between lymph-node recurrence and the high expression of SPRY4-IT1 in two-field lymph node dissection group.
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