Clinical importance of TERT overexpression in hepatocellular carcinoma treated with curative surgical resection in HBV endemic area

This study was designed to investigate the associations between TERT overexpression and the clinicopathologic factors of hepatocellular carcinoma (HCC). A total of 291 patients with HCC were enrolled. The site of first recurrence (anywhere in the liver) was classified as intrahepatic recurrence (IHR). Recurrence was then sub classified as either early or late IHR according to whether it was discovered within 2 years of resection, or after, respectively. TERT overexpression was not significantly correlated with previously recognized prognostic factors. During follow-up, early IHR occurred in 126 (63.6%) patients, while late IHR was detected in 59 patients among 145 patients who remained free of HCC recurrence for ≥ 2 years after surgery. Multivariate analysis showed late IHR was significantly correlated with TERT overexpression (P < 0.001, hazard ratio [HR] 2.67, 95% confidence interval [CI] 1.51–4.72). Intrahepatic metastasis (P < 0.001, HR 4.48, 95% CI 2.62–7.65) and TERT overexpression (P < 0.001, HR 1.77, 95% CI 1.28–2.45) were significant prognostic factors for IHR-free survival in both univariate and multivariate analyses. TERT overexpression was the only significant prognostic factor for late IHR in HCC treated with curative resection. And, the statistical significance of TERT overexpression on late IHR was limited to HBsAg-positive patients.

Hepatocellular carcinoma (HCC) remains one of the most challenging health problems worldwide despite the hepatitis B virus (HBV) vaccine, surveillance in high-risk patients, potent antiviral agents, and imaging and treatment modalities. Currently, HCC is the fifth most common cancer, and the second leading cause of cancer-related death worldwide 1 .
The Barcelona Clinic Liver Cancer (BCLC) system is the most widely used HCC staging and treatment guideline. According to BCLC, the curative treatments for HCC include liver transplantation (LT), surgical resection, and local ablative therapy, including radiofrequency ablation (RFA) 2 . One study found that the local control rate of HCC was comparable between surgical resection and RFA 3 . Surgical resection is generally preferred, if possible, however, because of the difference in overall recurrence after surgery compared to that after other treatment modalities [4][5][6] . Unfortunately, recurrence is still detected in approximately 50% of patients after surgical resection 7 . There is no standardized adjuvant treatment modality after HCC surgical resection. Therefore, it is very important to identify reliable biomarkers of recurrence, as well as the most probable sites of recurrence, in order to develop customized management plans.
Telomerase reverse transcriptase (TERT) is a core catalytic component of telomerase that plays a crucial role in maintaining telomere length 8 . In most somatic cells, TERT expression is suppressed. In contrast, TERT is actively expressed in self-renewing cells, such as stem cells 9 . Overexpression of TERT and telomere dysfunction is frequently detected in a variety of human cancer specimens, including thyroid cancer 10 , bladder cancer 11 , melanoma 12 , and brain tumors 13 . This TERT overexpression is detected in up to 90% of cancer cells, compared to in <20% of normal cells 14 . Evidence has suggested that TERT overexpression in HCC is associated with poor clinical outcomes; however, this hypothesis was based on a small patient population, without consideration of other clinicopathologic factors that might affect clinical outcomes 15 . Therefore, it is essential to more precisely evaluate the role of TERT overexpression in HCC, as well as that of other clinicopathologic factors in homogenously-treated patients.
We investigated the associations between TERT overexpression and the clinicopathologic factors of HCC in Korean patients mainly caused by HBV infection. We also studied the clinical significance of TERT overexpression with regard to HCC recurrence and survival duration

Results
Patients. The patients and tumor characteristics of the 291 enrolled cases of HCC are displayed in Table 1.
The median age was 53 years (range, 17 to 76 years). More than 80% of the patients were male. All but one patient had Child-Pugh class A status. The median alpha-fetoprotein (AFP) level was 169.5 ng/ml (range, 1.0-1667054.0 ng/ml). Approximately one third of the patients (109, 37.5%) were staged as B, while 15 patients (5.2%) were staged as C via the Barcelona Clinic Liver Cancer staging system. According to the Milan criteria, 173 patients were satisfied with the criteria, while 118 patients were not. The median follow-up period was 134.8 months (range, 1.7-193.4

months).
Correlation between TERT messenger ribonucleic acid (RNA) expression and clinicopathologic variables. Gene expression analysis using quantitative Reverse-Transcriptase Polymerase Chain Reaction (qRT-PCR) revealed that TERT messenger RNA (mRNA) expression was significantly higher in HCC tissues than it was in background, non-tumor liver tissue (at least 2 cm from the HCC) and normal liver tissues. Normal liver tissue was obtained from patients who underwent hepatectomy due to pathologically-confirmed metastatic colon cancer to the liver without a history of viral hepatitis or alcohol use (P < 0.001, Fig. 1). The median value of normalized TERT mRNA expression values was 0.46 (range, 0.00-908.87). A TERT mRNA value of 0.3 was defined as the cut-off point for high expression of overall recurrence in this present study. This value was based on the highest Youden index values of 1.3147 and 1.3195 with TERT mRNA values of 0.317 and 0.297 (P-values 0.0006 for both cut-off points). Diagnostic accuracy of TERT mRNA of 0.3 to predict recurrence and survival was displayed in Supplementary Table 1. And, the sensitivity, specificity, positive predictive value, negative predictive value, positive likelihood ratio, and negative likelihood ratio of TERT mRNA value of 0.3 was 71.3%, 45.6%, 12.6%, 93.5%, 1.31 and 0.63 at 3-year IHR, respectively. For internal validation of the estimated cut-off value of TERT expression, the median of the estimated cut-off values of 1000 bootstrap samples was 0.3 with a 95% confidence interval of 0.3.
The correlations between elevated TERT mRNA expression and clinicopathologic variables are displayed in Supplementary Table 2. High TERT expression was not significantly associated with any other factors, including well-known prognostic factors for HCC recurrence after surgical resection. These factors for HCC recurrence include Edmonson grade (P = 0.67), microvascular invasion (P = 0.91), intrahepatic metastasis (P = 0.40), and background liver status (P = 0.89).

Recurrence patterns and clinicopathologic variables.
During the follow-up period, overall recurrence was detected in 198 (68.0%) patients. Among them, 103 (35.4%) patients had isolated intrahepatic recurrence (IHR), 82 (28.2%) had both IHR and distant metastases (DM), and the remaining 13 (4.5%) had isolated DM. Among all of the patients with IHR (with or without DM), early IHR developed in 126 (63.6%) patients. In contrast, late IHR was detected in 59 of the 145 patients that were followed for over 2 years. The estimated recurrence rate (per month) after surgical resection is displayed in Fig. 2A. The highest recurrence rate was detected within 6 months of resection, and decreased gradually thereafter. There was a relatively stable rate of recurrence after 3 years postoperatively, at approximately 0.005% per month.
In contrast, late IHR was not significantly correlated with any variables, including those known to be significant prognostic factors of HCC, including microvascular invasion (P = 0.72), intrahepatic metastasis (P = 0.75), and BCLC stage (P = 0.33). Multivariate analysis showed TERT expression (P < 0.001, HR 2.67, 95% CI 1.51-4.72) and HBsAg (P = 0.02, HR 2.27, 95% CI 1. 16-4.46) were the only significant prognostic factors for late IHR. In the subgroup analysis by HBsAg status, late IHR was significantly associated with TERT overexpression in HBsAg-positive patients (P = 0.002, HR 2.77, 95% CI 1.44-5.34), but not in HBsAg-negative patients (P = 0.22, HR 2.70, 95% CI 0.55-13.25). The monthly IHR rate according to probable prognostic clinicopathologic factors is displayed in Fig. 2B-D. Even after two years, the IHR curve for TERT overexpression was maintained at a higher level compared to that of non-TERT overexpression.
Multivariate analysis (  Fig. 3C). In the DMFS, intrahepatic metastasis (P = 0.02, HR 2.50, 95% CI 1.14-5.47, Supplementary Fig. 1A) was the only  TERT mRNA expression in normal and HCC tissues: TERT mRNA expression (measured using quantitative RT-PCR) was significantly higher in HCC tissues than in adjacent, normal liver tissues (at least 2 cm from the HCC) and in normal liver tissues (obtained from patients after hepatectomy performed for pathologyconfirmed metastatic colon cancer of the liver in the absence of viral hepatitis and history of alcohol use).

Figure 2.
The estimated yearly recurrence rate of HCC after surgical resection: The peak recurrence rate was detected 1-year after resection and maintained, after reaching 0.1 per year (A). Distinct from the other curves, curves of TERT overexpression were divided continuously, even after 3 years (B).
We performed predictive grouping of IHRFS according to the significant or marginally significant factors (ALBI grade, intrahepatic metastasis and TERT overexpression) using the following criteria: group 1, no risk factor; group 2, one risk factor; group 3, two risk factors; and group 4, all three risk factors. The curves for IHRFS, DMFS, RFS, and overall survival (OS) according to the risk groupings are shown in Fig. 4. Although the survival curves are significantly different according to group (all P < 0.001), an even clearer stratification was identified for IHRFS and RFS. According to the risk grouping, the median IHRFS was not reached in group 1, was 50.

Discussion
In this study, we evaluated the correlation between clinicopathologic variables and the prognostic significance of TERT overexpression in HCC treated with curative surgical resection. Interestingly, TERT overexpression was not related to other clinicopathologic variables, including well-known prognostic factors for HCC. Instead, TERT overexpression was significantly correlated with late IHR (occurring two years or later after surgical resection). The previously identified prognostic factors for HCC were only related to early IHR in our study. Furthermore, the prognostic significance of TERT overexpression on overall IHRFS was maintained in multivariate analysis. The TERT is the most important unit of the telomerase complex, which allows potentially unlimited cell proliferation through the addition of repeated TTAGGG sequences and subsequent telomere maintenance 16 . In most normal somatic cells, TERT expression is suppressed and strictly controlled by transcriptional regulation; in some self-renewing cells such as stem cells and/or reproductive cells, however, TERT is expressed more ubiquitously 9 . There has been a lot of interest in understanding the pivotal role of increased TERT-mediated telomere maintenance in HCC carcinogenesis 17 . The mechanisms by which TERT expression is increased in HCC may include TERT gene amplification 18 , and TERT promoter mutations 19,20 .
In addition to HCC carcinogenesis 17 , TERT abnormalities also have prognostic significance in thyroid cancer 10 , bladder cancer 21 , and brain tumors 13 . In HCC, however, there are few studies defining the role of TERT expression as a prognosticator for the disease. It also remains to be determined whether TERT expression during recurrence reflects metastasis or a new primary lesion. Therefore, understanding the crucial role of TERT expression in HCC carcinogenesis 17 , as well as its clinical significance on metastasis and/or de novo primary HCC is extremely important for optimizing HCC management.
This study reveals the prognostic significance of TERT expression on IHRFS. With the exception of other potential confounders during multivariate analysis, TERT expression demonstrated an HR of 1.78 on overall IHRFS. Although the HR of TERT expression on IHRFS was lower than that of intrahepatic metastasis (HR 4.22), it still suggests that it is an independent prognostic factor for overall IHRFS. There was no statistically significant correlation between intrahepatic metastasis and TERT expression (Supplementary Table 2 Table 3. Univariate and multivariate analysis of probable prognostic factors in late intrahepatic recurrence-free survival (n = 145).
With the exception of HBsAg status, TERT was the only significant prognostic factor for late IHR. As displayed in Fig. 3, most cases of IHR developed within 2 years of initial resection in patients with intrahepatic metastasis. In those with TERT expression, more than half of the IHR cases were detected more than 2 years after initial resection. This finding suggests that TERT expression is more closely related to de novo primary HCC, rather than recurrence, in patients initially treated with curative surgical resection.
The subgroup analysis by HBsAg status revealed that a statistically significant association between late IHR and TERT overexpression was limited to HBsAg-positive patients. The most frequent mechanism by which HBV infection leads to TERT overexpression is related to insertional mutagenesis by the virus itself rather than promoter mutations or gene amplification, which is seen in other liver diseases including HCV infection 18,20,22,23 . Integration of HBV was seen in 22% of the HBV positive patients whereas gene amplification was seen in 6.7% 18 . Although it is assumed that HBV integration would be a major cause of TERT overexpression in our samples, we cannot rule out the possibility of other genetic alterations that are involved in the TERT overexpression. Future  work is needed to uncover the molecular mechanism underlying the overexpression of TERT and the correlation with late IHR. Prior research has found that TERT expression induced by TERT promoter mutations is one of the earliest genetic events identified in pre-neoplastic lesions in cirrhotic livers 17 . Therefore, high TERT expression in resected HCC might reflect potential cancer development in the surrounding liver. If this were true, then one could hypothesize that there would be a higher incidence of de novo primary HCC lesions in patients who had TERT expression after hepatic resection. Like other studies in which genetic factors were associated with late tumor recurrence in HCC 24,25 , TERT expression was significantly correlated with late IHR in this study. Patients with high TERT expression, therefore, may require more intensive follow-up after surgical resection. In addition, considering that DMFS was unaffected by TERT expression, it may be important to consider LT, rather than liver resection, in order to improve clinical outcomes in these patients. Further evaluation is needed to clarify the clinical significance of TERT expression in the patients treated with LT.
The role of ALBI grade as a prognosticator for OS is well recognized in HCC, including in patients treated with curative surgical resection [26][27][28][29] . Although one group found a slightly higher tendency of recurrence in ALBI grade II than in grade I, some have suggested that ALBI grade is not a significant prognostic factor for HCC recurrence after curative liver resection 26 . Interestingly, however, ALBI grade itself had a marginally significant role as a prognostic factor in this study. There was a marginal survival difference between RFS and IHRFS according to ALBI grade. Correlation analysis showed ALBI grade was significantly related to background liver status and marginally related to HBsAg status (Supplementary Table 3). Therefore, ALBI grade could predict IHR by reflecting the status of the surrounding liver. Regardless, a larger study is needed to evaluate the role of the ALBI grade as a prognostic factor for HCC recurrence.
This study has several limitations that warrant consideration. First, we evaluated the expression of TERT mRNA, but not of TERT promoter mutations and telomere lengthening. However, there is a well-recognized correlation between TERT promotor mutations, TERT expression, and telomere lengthening in other studies. Second, this study has unavoidable selection bias given that it was a single institution, retrospective study. Third, diagnostic performance of TERT mRNA value of 0.3 was not sufficiently high as 61.9 to 71.3% of sensitivity and it has never been validated by independent external data. Finally, we only included patients who had undergone curative surgical resection for HCC. Therefore, our results ought to be interpreted with caution, as they may not be generalizable to HCC patients treated with other modalities. To apply the outcomes of the present study in clinical practice, it is essential to reproduce the results through prospectively designed independent multicenter studies. Future research with larger, prospective studies is needed to substantiate the clinical significance of TERT expression in HCC recurrence.  Nevertheless, this study provides valuable information that is relevant for further study and consequent modifications of HCC management. TERT expression was a significant prognostic factor for IHRFS and RFS. In addition, TERT expression was the only significant factor for late IHR in patients treated with curative hepatic resection. Therefore, close follow-up and/or treatment modifications for resectable HCC according to TERT expression might improve clinical outcomes in these patients.

Conclusions
In this study conducted in the HBV endemic area, TERT overexpression was not related to previously known HCC prognostic factors treated with curative surgical resection. Known HCC prognostic factors were correlated with early IHR, while TERT overexpression was the only significant prognostic factor for late IHR. Besides TERT overexpression, ALBI grade and presence of intrahepatic metastasis also had prognostic significance in IHRFS and RFS. Further research is needed to substantiate these findings.

Materials and Methods
Patients. Cancer tissue from patients with histologically confirmed HCC at Samsung Medical Center (Seoul, Korea) between July 2000 and May 2006 was used in this present study. Patients were eligible if they underwent complete surgical resection with curative intent. Complete resection was defined as the removal of all hepatic tumor nodules with microscopic clear resection margins. Any patients who received neoadjuvant or adjuvant treatments were excluded. The Institutional Review Board at Samsung Medical Center approved this study, and waived informed consent.
Prior to surgery, patients underwent a work-up of their liver function and HCC status. This examination included the following: comprehensive history, patient demographics, viral marker, chest X-ray, complete blood count, chemistry profile, liver function test, indocyanin green retention test, AFP level, and contrast enhanced liver CT and/or magnetic resonance imaging (MRI) of the abdomen and pelvis. Chest CT and whole body bone scan were performed to rule out distant metastasis. Positron emission tomography (PET)-CT was alternatively used for the same purpose at the physician's discretion.
Patients were generally followed every two to three months after surgical resection. During the follow-up period, evaluations included physical examinations, laboratory tests (including liver function tests and AFP), chest X-rays, and CT of the abdomen and pelvis. Patients with suspicious imaging findings and/or continuously elevated AFP levels were further evaluated with PET-CT and/or MRI.
Based on the Liver Cancer Study Group of Japan guidelines, the following histological parameters were postoperatively assessed: largest tumor diameter, number of tumors, microvascular invasion, and intrahepatic and intrahepatic metastasis (B) were significant prognostic factors of IHRFS and ALBI grade (C) was marginally significant on multivariate analysis. Intrahepatic metastasis (D) was also a significant prognostic factor for RFS. metastasis 16 . The resected HCC tissues were graded according to the Edmonson and Steiner grading system: grade I (well differentiated), grade II (moderately differentiated), or grade III (poorly differentiated) 30 .
RNA extraction and qRT-PCR. The total RNA was isolated from fresh samples using the ReliaPrep TM FFPE Total RNA Miniprep System (Promega, Madison, WI). RNA was reverse transcribed using a high-capacity, complementary deoxyrinuleic acid (cDNA) Reverse Transcription Kit (Life Technologies, Invitrogen, Carlsbad, CA) according to the manufacturer's instructions. The expression of TERT was measured using a gene expression assay containing forward and reverse primers, and a FAM-labeled MGB TaqMan probe from Applied Biosystems (assay ID; Hs00972650_m1, Thermo-Fisher Scientific, Waltham, MA) for the detection of overlap at the exon 3-exon 4 junctions. GAPDH was used as an endogenous control (assay ID; Hs99999905_m1, Thermo-Fisher Scientific). The PCR reaction mixture contained TaqMan Universal PCR master mix with AmpErase UNG (Applied Biosystems, Foster City, CA), 900-nM primers (forward and reverse), 250 nM TaqMan probe, and 5 μl of cDNA sample for a total reaction volume of 20 μl. The PCR conditions were as follows: 95 °C for 10 min followed by 40 cycles of amplification at 95 °C for 15 s, and 60 °C for 1 min using the ABI PRISM 7500HT Fast Real-time PCR system (Applied Biosystems). The threshold cycle (C t ), which is the fractional cycle number at which the amount of amplified target reached a fixed threshold, was determined. The relative changes in gene expression were measured using the 2 −ΔΔCt (ΔΔC t = ΔC t target gene − ΔC t GAPDH) method.
Definition of recurrence and statistical analysis. Recurrence was generally diagnosed using radiologic examinations without histologic confirmation, except in patients for whom further surgical resection or liver transplantation was indicated. The site of first recurrence was classified as IHR, which is defined as recurrence occurring anywhere inside the entire liver. The IHR was sub classified as either early recurrence or late recurrence according to whether it was detected <2 years or ≥2 years after the initial surgery, respectively. This cut-off point was based on the study by Imamura et al. 31 . All other sites of recurrence were defined as DM.
The duration of IHRFS, DMFS, RFS, and OS were calculated from the date of surgical resection to the date of each event, or the last day of follow-up.
The cut-off value of TERT mRNA expression on overall recurrence was determined using the log-rank test and the minimum p-value approach. For internal validation of the estimated cut-off value of TERT expression level, the distribution of the cut-off values was examined using 1000 bootstrap samples with replacement from the study data. P-values < 0.05 were considered statistically significant in two-tailed tests. The correlation between high TERT expression or intrahepatic metastasis and other clinicopathologic variables was evaluated using the