The Prognostic Significance of WNT Pathway in Surgically-treated Colorectal Cancer: β-Catenin Expression Predicts for Disease-free Survival

Materials and Methods

Patients. This is a retrospective-prospective translational study based on a series of fully-characterized patients with colorectal cancer. The case series consisted of 106 consecutive patients with CRC treated with curative intent between February 2005 and June 2007 by the same surgical team (A.K, C.K.). 5-Fluorouracil/oxaliplatin-based adjuvant chemotherapy and radiotherapy were administered postoperatively. CRC was defined according to the TNM AJCC-UICC classification (15). Data regarding patient demographics, clinicopathological parameters and outcome were retrieved from the medical records as documented in the Hellenic Cooperative Oncology Group (HeCOG) database. The clinical and translational protocol was approved by the Bioethics Committee of Aristotle University of Thessaloniki School of Medicine (2/2-3-2012). All patients signed an informed consent for the provision of biological material for future research purposes.

Immunohistochemistry (IHC). Hematoxylin-eosin (H&E)-stained slides from formalin-fixed paraffin-embedded (FFPE) tissue blocks were reviewed for confirmation of diagnoses and material adequacy regarding tumor, adjacent normal mucosa or evidence of pre-existing adenomas. Tumor tissue specimens were arrayed into a recipient paraffin block using a manual arrayer (MTA-1; Beecher Instruments, Sun Prairie, WI, USA). Each case was represented by two cores, 1.5 mm in diameter from both central and peripheral tumor zones, the latter corresponding to the tumor IF. The anatomic limit of tumor extension into the bowel wall layer with respect to the IF was noted. Tissue cores from normal mucosa or residual adenoma were transferred to separate blocks. Each tissue-microarray (TMA) block consisted of 35-58 tissue cores, while various cancerous and non-neoplastic tissues were also added, for the purpose of serving as assay controls.

Labeling of 3-μm TMA sections with antibodies against E-cadherin, P-cadherin, β-catenin and cyclin-D1 (CCND1) was carried out with the Bond Polymer Refine Detection system (DS9800; Leica Biosystems Newcastle Ltd, United Kingdom Microsystems). For E-cadherin, the staining protocol was preset according to the manufacturer's instructions. 3,3-Diaminobenzidine (DAB) was applied as a chromogen and hematoxylin as a counterstain. In cases of inadequate or missing tissue cores, whole sections from the original blocks were used instead. The key parameters of the standardized staining protocols used in this study are summarized in Table I. All staining was evaluated by a single observer (S.L.) who had no knowledge of clinical characteristics and survival data. Cytoplasmic reactivity, when present, was recorded but not considered for statistical evaluations. For E-cadherin and P-cadherin, the fraction of cells with a positive membrane reaction was accounted for, when staining was clearly discernible as being above the level of background cytoplasmic effect. For the semi-quantification of positive cases, both the intensity and percentage of positive cells were noted. The average intensity was evaluated applying a 4-tier system with 0 for no staining, 1 for weak, 2 for moderate and 3 for strong, the latter corresponding to the intensity of normal squamous epithelium of pharyngeal tonsils. For CCND1, the proportion of positive cells was recorded separately for each intensity grade due to the substantial variation in staining intensity observed within each core. Suprabasal squamous epithelial cells (tonsil) served as a positive control (intensity grade 2). The extent of immunoreactivity for all markers was assessed with the H-score. The H-score was generated by adding the percentage of strongly-stained nuclei (3×), the percentage of moderately stained nuclei (2×), and the percentage of weakly stained nuclei (1×), giving a score of range 0-300. Membranous reactivity for β-catenin was evaluated as for E-cadherin. The percentage of cells with nuclear positivity was recorded separately when a uniform brown nuclear reaction of any intensity was present. Since there is no validated scoring system for interpreting IHC staining for any of the markers included in this study, cut-off values were defined post-hoc, based on analyses of data distribution in frequency histograms.

mRNA expression. Tissue samples were obtained during surgery in the operating room from surplus tumor as determined by the pathologist on service, cut into pieces of maximally 5×5 mm, added to cryovials, immediately snap frozen in liquid nitrogen, and stored at −80°C until use. The exact tissue samples available for gene expression analysis are depicted in Figure 1. Frozen tissue pieces were minced on disposable sterile plastic surfaces placed on dry ice between two scalpels and transferred into a lysis buffer containing 500 μg/ml proteinase K for overnight lysis at 56°C. Tissue lysates were then processed for total RNA with TRIZOL-LS (Invitrogen/Life Technologies, Paisley, UK), according to the manufacturer's instructions. Following UV measurements, 4-5 μg of total RNA were reverse-transcribed with random hexamers and SuperScript® III Reverse Transcriptase (all reagents from Invitrogen/Life Technologies, Carlsbad, California, USA). cDNAs were normalized at 25 ng/μl and kept at 20°C until use. Relative mRNA expression was assessed with quantitative Polymerase Chain Reaction (qPCR) and appropriate fluorogenic, fluorescein amidite (FAM), dye-labelled probes in an ABI7900HT system under default conditions.

The following Taqman-MGB assays (Applied Biosystems/Life Technologies) were selected for the gene targets under investigation (data in parentheses refer to assay ID; Genbank reference; amplicon location; size): MMP7 (Hs01042796_m1; NM_002423.3; exons 4-5; 64 bp); SFRP1 (Hs00610060_m1; NM_003012.4; exons 2 -3; 130 bp); SFRP2 (Hs00293258_m1; NM_003013.2; exons 1-2; 129 bp); SFRP4 (Hs00180066_m1; NM_003014.3; exons 5-6; 109 bp); WNT5A (Hs00998537_m1, NM_001256105.1, NM_003392.4; exons 4-5; 61 bp), AXIN2 (Hs00610344_m1; NM_004655.3; exons 4-5; 82 bp), CCND1 (Hs00765553_m1; NM_053056.2; exons 3-4; 57 bp) and APC (Hs01568269_m1; NM_000038.5, NM_001127510.2, NM_001127511.2; exons 12-13, 14-15, 15-16, 93 bp).

Samples were processed in 10 μl reactions (50 ng cDNA/reaction) with TaqMan® Universal PCR Master Mix and run in duplicates in 384-well plates. As a positive control, a commercially available reference RNA (TaqMan® Control Total RNA, cat. no 4307281, Applied Biosystems/Life Technologies) was also used in each run. Moreover, as an endogenous control and for the normalization of cycle threshold (CT) values, an assay targeting β-glucuronidase (GUSB) mRNA was used (Hs00939627_m1; NM_000181.3; exons 8-9; 96 bp). Hence, for each gene target, duplex qPCR reactions were performed, whereby the VIC dye-labelled TaqMan Assay for GUSB was used together with the respective FAM dye-labelled TaqMan assay in the same reaction. GUSB was preferred over other commonly applied endogenous controls because no pseudogenes have as yet been reported for this gene.

Relative quantification (RQ) was assessed in a linear mode as (40-dCT), whereby dCT=(avg CT target) − (avg CT GUSB). Exclusion criteria for sample RQ analysis were GUSB CT values higher than 36, whereas PCR assay stability was evaluated among runs with the reference RNA.

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Figure 1.

Reporting recommendations for criteria in tumour marker prognostic studies (REMARK) flow chart.

Statistical analysis. Continuous variables are described using the median value estimate and the range, while categorical variables are reported as frequencies and percentages. The different clinicopathological variables were tested for association with the differential expression of the WNT pathway molecules. IHC expression of nuclear CCND1, membranous E-cadherin and P-cadherin, membranous and nuclear β-catenin by in the IF and the TC, as well as the mean of the two values, were assessed by H-score. APC, AXIN2, CCND1, MMP7, SFRP1, 2 and 4 and WNT5A were evaluated by RT-PCR. The associations were examined using the Fisher's exact test or the Chi-square test for categorical variables and the Kruskal–Wallis test for continuous variables. Disease-free survival (DFS) was measured from the date of diagnosis until verified disease progression, death or last contact, whichever occurred first, and overall survival (OS) from diagnosis until death from any cause or date of last

contact. Time-to-event distributions were estimated using Kaplan-Meier curves. Unsupervised hierarchical clustering (using the Ward's minimum variance method) was conducted using IHC and mRNA markers separately and combined, in order to identify distinct groups correlated with prognosis. In univariate analysis, significance was determined at the level of 5% and in multivariate at 15% (two-sided).

The clinical and tumor characteristics assessed were patient gender and age, site (colon vs. rectal and right vs. left/sigmoidal colon), T-stage, lymph node (N-) stage, Astler-Coller stage, grade of differentiation, vascular, lymphatic and perineural invasion, histological type, presence of precursor lesion (adenoma), administration of adjuvant chemotherapy or not. The study complied with reporting recommendations for criteria in tumour marker prognostic studies (16). A (REMARK) flow chart is shown in Figure 1.