ERCC1 mRNA levels and survival of advanced gastric cancer patients treated with a modified FOLFOX regimen

Molecular markers involved in DNA repair can help to predict survival in gastric cancer patients treated with 5-FU plus platinum chemotherapy. Excision repair cross-complementing 1 (ERCC1) and thymidylate synthase (TS) mRNA expression levels were assessed in advanced gastric cancer tumour samples using real-time quantitative PCR in 76 patients treated with a modified FOLFOX (biweekly oxaliplatin plus 5-FU and folinic acid) regimen. Median survival time in patients with low ERCC1 levels was significantly longer than in those with high levels (15.8 vs 6.2 months; P<0.0001). Patients with high TS levels had longer survival than those with low levels (12.2 vs 10.1 months; P=0.01). Forty-eight patients with low ERCC1 and high TS levels had a median survival of 16.1 months (P<0.0001). The hazard ratio for patients with high ERCC1 expression was 9.4 (P<0.0001). In patients with high mRNA levels of ERCC1, alternative chemotherapy regimens should be considered.

Gastric cancer currently ranks the third among most common cancers and will remain a significant cancer burden in China during the next decade. In 2005, there were approximately 400 000 new cases and 300 000 deaths from gastric cancer (Yang, 2006). There is currently no established standard regimen for advanced gastric cancer; however, biweekly oxaliplatin plus 5-fluorouracil (5-FU) and folinic acid (FOLFOX) was well tolerated and yielded median survival times of 9.6 -11.4 months in five phase II studies (Louvet et al, 2002;Al-Batran et al, 2004;Chao et al, 2004;De Vita et al, 2005;Lordick et al, 2005). Considerable published evidence suggests that interindividual variation in response to 5-FU results from variations in the thymidylate synthase (TS) mRNA expression levels of the tumour (Longley et al, 2003). A sensitive quantitative polymerase chain reaction (QPCR) permits the detection of mRNA in small quantities that could not be detected by conventional methods used to detect proteins. TS mRNA levels in frozen endoscopic biopsies were inversely related to response and survival in 65 gastric cancer patients receiving neoadjuvant 5-FU plus cisplatin; median survival was 43 months for those with low TS levels and 6 months for those with high levels (Lenz et al, 1996). However, some tumours expressing relatively high levels of TS mRNA were surprisingly sensitive to 5-FU plus cisplatin (Lenz et al, 1996;Metzger et al, 1998). Intriguingly, it has recently been reported that gastric cancer cells that were rendered resistant to oxaliplatin exhibited significantly decreased TS levels, which resulted in enhanced susceptibility to 5-FU cytotoxicity. In addition, host cell reactivation assay revealed enhanced DNA repair of oxaliplatin damage in the resistant cells (Chen et al, 2007).
Cytotoxicity from cisplatin and other platinum-containing drugs, such as oxaliplatin, results from the formation of platinum DNA adducts (Schellens et al, 1996;van de Vaart et al, 2000). One determinant of the level of platinum DNA adducts in the tissue of patients treated with platinum-containing drugs is the rate of DNA repair. Individuals vary considerably in their capacity to remove DNA adducts, and tumour cell lines demonstrating in vitro resistance to cisplatin rapidly clear DNA adducts from the cells (Bosken et al, 2002). Nucleotide excision repair (NER) is the major pathway for repairing platinum-induced DNA damage. A series of proteins act to recognise base damage, unwind DNA, remove the damaged single-stranded fragment and synthesise a correct strand in its place (de Laat et al, 1999;Rosell et al, 2007). Excision repair cross-complementing 1 (ERCC1) is a key enzyme in the NER pathway. ERCC1 and TS mRNA levels were examined in 38 of the 65 gastric cancer patients (Lenz et al, 1996), for whom sufficient cDNA was available. Median survival for patients with low ERCC1 mRNA levels was not reached, while it was 5.4 months for those with high levels (P ¼ 0.034). The differences in median survival according to TS mRNA levels were not significant (Metzger et al, 1998).
To further clarify the prognostic value of TS and ERCC1 mRNA expression, we examined by QPCR 76 formalin-fixed paraffinembedded tumour samples from FOLFOX-treated advanced gastric cancer patients and correlated the results with survival.

Patients
Patients with histologically proven locally advanced or metastatic gastric cancer and Eastern Cooperative Oncology Group (ECOG) performance status (PS) p2 were included in the study. All patients received a modified FOLFOX regimen chemotherapy after resection of primary tumours, as follows: oxaliplatin 85 mg m À2 on day 1, plus folinic acid 200 mg m À2 as a 2 h infusion followed by bolus 5-FU 300 mg m À2 and a 22 h infusion of 5-FU 600 mg m À2 on days 1 and 2, every two weeks. Survival was calculated from the date of diagnosis to the date of last follow-up or death from any cause. All patients gave their signed informed consent, and the study was approved by the institutional ethics review boards.
Total RNA extraction from formalin-fixed paraffinembedded tissue Seven 7-mm sections were prepared from primary tumour blocks that contained at least 80% tumour cells and directly transferred into a microcentrifuge tube. RNA was extracted according to a previously described method with minor modifications (Specht et al, 2001). Briefly, paraffin was removed by extracting three times with 1 ml xylene for 10 min incubation at 501C followed by rehydration through subsequent washes with 100, 90 and 70% ethanol diluted in RNase-free water. The tissue was collected by centrifugation and resuspended in 200 ml RNA lysis buffer containing 10 mM Tris-HCL, 0.1 mM EDTA, 2% SDS and 500 mg ml À1 proteinase K and incubated at 601C for 16 h. RNA was purified by phenol and chloroform extractions followed by precipitation with isopropanol in the presence of sodium acetate and at À201C. The RNA pellet was washed in 70% ethanol and resuspended in 20 ml of RNase-free water.
QPCR assessment of TS and ERCC1 expression cDNA was generated with a blend of random hexamers and oligo-dT 1 : 1 (ABgene, Surrey, UK) and the target cDNA sequences were amplified by quantitative PCR in a fluorescent temperature cycler (Mx 3000P Real Time PCR System, Stratagene). Briefly, total RNA 1 mg was used for each RT reaction. The 20 ml PCR reaction mixture contained 1 Â primers and probe mixture (Applied Biosystems, Foster city, CA, USA. Assay IDs: Hs00157415_m1 (ERCC1); Hs00426591_m1 (TS); Hs99999903_m1 (b-actin)), 1 Â Absolute QPCR Mix (ABgene). The PCR conditions were 501C for 2 min, 951C for 15 min, followed by 45 cycles at 951C for 15 s and 601C for 1 min. Relative gene expression quantifications were calculated according to the comparative C t method using b-actin as an endogenous control and commercial human total RNA (BD Clontech, CA, USA) as calibrators. Final results were determined by the formula 2 ÀDDCt (Livak and Schmittgen, 2001) and were analysed with the Stratagene analysis software.

Statistical analysis
The Mann -Whitney U-test was used to test significant association between gene expression levels and dichotomous variables. The Spearman's rho method was used to correlate expression levels of TS and ERCC1. The maximal w 2 method of Miller and Siegmund (Miller and Siegmund, 1982) and Halpern (Halpern, 1982) was adapted to determine which cutoff value best dichotomised patients into low-and high-expression TS and ERCC1 subgroups; the Tree method (LeBlanc and Crowley, 1992) was then applied to optimise these cutoff values. The final cutoff values were confirmed by recursive partitioning and amalgamation using S-Plus software, version 6.1 (Statistical Sciences, Seattle, WA, USA). Survival curves were obtained by the Kaplan -Meier method. Comparisons were made with the log-rank test and 1000 bootstrap-like simulations were performed to get the corrected P-values of the log-rank test. A univariate Cox model with overall survival as the dependent variable was constructed and categorised with gene expression levels as independent variables, and the genes that were significant in the univariate analysis were included in a multivariate Cox proportional hazards model for survival. All statistical analyses were carried out at a 5% level of significance and with a power of 80%, using the Statistical Package for the Social Sciences, version 13 (SPSS Inc, Chicago, IL, USA).

Patient characteristics
A total of 76 gastric adenocarcinoma patients were included in the study. The median age was 57; 56 patients were male and the majority of patients had PS 0 -1.

DISCUSSION
In this first QPCR analysis of ERCC1 and TS mRNA expression in formalin-fixed paraffin-embedded tumour tissue in advanced gastric cancer, we have found that ERCC1 -but not TS -mRNA expression is associated with survival in patients receiving a modified FOLFOX regimen. These findings are along the same lines as the seminal study by Metzger et al (1998) where ERCC1 and TS mRNA levels were quantified in frozen tumour tissue from gastric cancer patients receiving 5-FU plus cisplatin. Since the time of writing the present report, another study in paraffin-embedded tumour tissue has confirmed the role of ERCC1 mRNA expression in a heterogeneous cohort of gastric cancer patients -69 treated  with S-1, 23 with 5-FU and 43 with cisplatin plus either irinotecan or S-1. In the multivariate analysis of all 140 patients, ERCC1 emerged as an independent prognostic marker of survival (HR, 2.4; Po0.001); however, TS mRNA expression was not significant (HR, 0.3) (Matsubara et al, 2008). A study assessing ERCC1 and TS by immunostaining in 64 advanced gastric cancer patients treated with FOLFOX also showed significant differences according to ERCC1 expression. Median survival for patients with negative ERCC1 was 12.8 months, while it was 8.4 months for those with positive ERCC1 (P ¼ 0.03). The multivariate analysis revealed a significant impact of ERCC1 expression on survival (HR, 1.9; P ¼ 0.04) (Kwon et al, 2007). However, TS expression was not found to be related to response or survival (Kwon et al, 2007), which concurred with the findings of a previous study (Choi et al, 2001). However, in the present study, using QPCR, the differences are much more striking (15.8 vs 6.2 months; Po0.0001), with a HR of 9.4. The determination of relative gene expression through QPCR is currently considered to be a more sensitive and more quantitative methodology than immunostaining. Several studies have found no correlation between mRNA and protein levels of ERCC1 (Britten et al, 2000;Niedernhofer et al, 2007). When ERCC1 expression at the mRNA and protein levels was assessed by northern and western blotting, respectively, in a panel of cervical carcinoma cell lines, there was a significant correlation between ERCC1 mRNA -but not ERCC1 protein -levels and cisplatin resistance (Britten et al, 2000). In stage IV, non-small-cell lung cancer patients treated with cisplatin-based chemotherapy, ERCC1 protein expression did not predict response (Wachters et al, 2005), whereas ERCC1 mRNA expression was significantly associated with response (Cobo et al, 2007). Previous studies have tested ERCC1 mRNA expression in paraffin-embedded tumour samples in advanced colorectal cancer patients treated with 5-FU plus oxaliplatin (Shirota et al, 2001) and in non-small-cell lung cancer patients treated with gemcitabine plus cisplatin (Lord et al, 2002); both studies found a significant association between ERCC1 expression and survival. Cisplatin resistance is multifactorial, also involving the copper transporter ATP7A (Chen et al, 2007) and a 45-gene expression signature was a predictor of cisplatin sensitivity with 83% accuracy (Hsu et al, 2007). Interestingly, this gene signature includes ERCC1 and other DNA repair genes. It is not clear, either in the Metzger study (Metzger et al, 1998) or in the present one, whether ERCC1 is a prognostic or a predictive marker. Interestingly, in the present study, ERCC1 mRNA levels were lower in patients with good PS, which has also been found in non-small-cell lung cancer patients (Cobo et al, 2007).
The role of TS in predicting chemosensitivity remains controversial (Choi et al, 2001;Kwon et al, 2007;Matsubara et al, 2008). Although a meta-analysis reported that colorectal cancer patients with higher TS levels had poorer overall survival than those with lower levels (Popat et al, 2004), this predictive value was not confirmed in a prospective study (Smorenburg et al, 2006). In the present study, patients with higher TS levels had longer survival than those with lower levels, especially in patients with lower ERCC1 levels. Low levels of TS have been observed in oxaliplatin-resistant gastric cancer cell lines (Chen et al, 2007), providing a plausible potential explanation of why a meaningful number of patients with low ERCC1 and high TS levels had the longest survival in the present study (Figure 2).
Irinotecan and taxane-based regimens have been used in the treatment of advanced gastric cancer patients, with survival times similar to those attained with FOLFOX (Moehler et al, 2005;Oh et al, 2007;Takayama et al, 2007). However, the short survival attained in FOLFOX-treated patients with positive protein ERCC1 (HR, 1.91) (Kwon et al, 2007) or overexpression of ERCC1 mRNA (HR,9.4) suggests that irinotecan or taxane-based regimens could be the better alternative for these patients. A randomised customised trial is warranted in this setting.