Evaluation the Possibility of Using of miRNA-21 as a Prognostic and Predictive Factor in Colorectal Cancer (South Egypt Experience) ()
1. Introduction
Colorectal cancer remains the third most commonly diagnosed cancer in both men and women and represents one of the most frequent causes of cancer death [1] due to its diversity in the clinical course. And approximately 50% of patients with colorectal cancer die from distant metastases, and in particular liver metastases, within 10 years of the initial diagnosis [2].
Clinicians up to now still require recognizing prognostic markers with minimal invasion and with high sensitivity, to improve the survival rate of CRC patients [3] [4].
The advances of molecular biology have added to a better understanding of cancer development, predicting its evolution, therapeutic response and even developing molecular target [5]. Recent studies have proved that microRNA (miRNA) play important roles in tumor invasion and metastasis [3] [4] [5] [6] [7]. miRNA are small, non-coding RNA that block specific target genes in mammalian cells by suppressing translation [8]. Depending on the target gene, miRNA can act as either oncogenes or tumor suppressive genes [9]. Several studies results proved that the aberrant expression of specific miRNA can be used as potent prognostic and predictive markers in colorectal cancer [10] [11]. Because current prognostic markers of many cancers, including colorectal cancer, poorly predict metastatic progression or tumor response to chemotherapy, the identification of such prognostic markers is the subject of intense research.
Several miRNAs isolated from serum have been evaluated for their use as prognostic markers in CRC. A recent report revealed a panel of miRNAs (miR-21, let-7g, miR-31, miR-92a, miR-181b, and miR-203) that can be reliably used as prognostic marker for CRC, with 93% sensitivity and 91% specificity in comparison with the traditional markers (CEA and CA19-9) [12]. Furthermore, miR-21 has also been shown to be able to differentiate both adenoma and CRC from healthy controls [13] [14]. Also recent studies suggested that low miRNA-21 could sensitize CRC cells to 5-fu treatment [6] [15].
However these results are still under investigations and researches, the results are not mature enough to reach agreement or consensus about which miRNA would be used as prognostic or predictive marker.
As miRNAs are still under investigation in colorectal cancer, so we choose mi RNA21 to focus on it in our study as the previous studies’ results about it were encouraging.
2. Patients and Methods
This is a prospective study was done on 45 CRC newly diagnosed who presented to South Egypt Cancer Institute in the period between May 2017 and October 2018 with median follow up period of 18 months. All patients included in this study will subject to: Full history taking and complete clinical examination, all patients staged according to the 8th edition, 2017 revision of the TNM staging classification. All patients had complete laboratory investigation and CEA at diagnosis. Biopsy was taken whether by endoscopy or surgery and sent to the pathology laboratory as a routine and examined by expert pathologist.
Received 5FU based chemotherapy regimen either CAPOX, FOLFOX or FOLIRI according to their stage + the target therapy in the pantumomab in patients with metastatic colorectal with K ras wild type. Patients followed up by computed tomography scan (CT) on the chest and pelvi-abdomen every 3 months during the treatment and every 6 months during the follow up. The response interpreted according to the response evaluation criteria in solid tumors (RECIST) criteria. All patients have signed a written consent containing the detailed description of the study. The research program was approved by the ethical committee, South Egypt Cancer Institute, SCI-IRBIORG0006563N0 = 354.
Before the start of the treatment we collected 2 ml of peripheral blood sample via direct venous puncture with complete aseptic precautions and measured miRNA-21 by q real time PCR.
2.1. Methods of miRNA-21 Measurement
miRNA was isolated from peripheral venous blood samples by using the miRN easy Mini kit from Qiagen, Hilden, Germany.
Isolated miRNA is converted to its complementary DNA (CDNA) by using TaqMan miRNA Reverse Transcription kit from Qiagen, Hilden, Germany.
Then relative quantification of miRNA expression is measured by performing Q-PCR amplification using Taqman Universal PCR Master MixII (2x) and Taqman small RNA Assay (20x) by 7500 fast real time PCR system, Thermo Fisher Scientific, USA.
2.2. Analysis
To calculate relative expression in RT-qPCR qPCR Ct values for:
1) The gene being tested: in control and experimental samples;
2) The housekeeping gene: in control and experimental samples.
· Take the average of the Cycle threshold (Ct) values for the housekeeping gene and the gene being tested in the experimental and control samples, returning 4 values. The 4 values are Gene being Tested Experimental (TE), Gene being Tested Control (TC), Housekeeping Gene Experimental (HE), and Housekeeping Gene Control (HC).
· Calculate ΔCt values for the experimental (ΔCTE) and control (ΔCTC) conditions. ΔCTE is the differences between TE and HE (TE-HE) and ΔCTC is the difference between TC and HC (TC-HC).
· Then, calculate ΔΔCt which is the difference between ΔCTE and ΔCTC (ΔCTE-ΔCTC) to arrive at the Double Delta Ct Value (ΔΔCt).
· Calculate fold change: Relative quantification (RQ) which is the value of 2^-ΔΔCt to get the expression status. If RQ is more than 1 means expression of target is more than the control included in my experiment (up expressed) and if RQ is less than 1 means expression of target is less than the control (down expressed).
3. Statistical Analysis
Data was represented as numbers, percentages, means or median. All analyses were conducted using SPSS software version 21. Univariant factors were analyzed using the chi-square test for categorical variables, Cox’s proportional hazard regression analyses were used to estimate hazard ratios (HRs) of death according to serum and tumor miRNA levels, unadjusted and adjusted for potential confounding factors for death, Assumptions of proportionality were confirmed for the Cox proportional hazards analyses by generating Kaplan-Meier survival curves (e.g., high- vs. low-expression groups) and by ensuring that the two curves did not intersect each other. All p values are two-sided; p less than or equal to 0.05 also we calculated the odd ratio (OR) between low and high expression groups.
4. Results
4.1. The Clinico-Pathological Features of the Studied Patients
We enrolled 45 patients with CRC newly diagnosed who presented to SECI out patients clinic from May 2017 to September 2018. Tumor characteristics of the study patients are shown in Table 1. 16 patients (36%) had high risk pathology
Table 1. Clinico-pathological character of the patients.
Data was expressed in form of mean (SD) and frequency (percentage).
(mucinous adenocarcinoma, signet ring carcinoma, mucoid adenocarcinoma with signet ring differentiation and poorly differentiated adenocarcinoma) and 29 patients (64%) patients had low risk pathology (well differentiated adenocarcinoma and moderate differentiated adenocarcinoma) with 7 patients (16%) had grade 1 (G1) tumor, 22 patients (49%) had G2 tumor and 16 patients (35%) had G3 tumor. 15 patients (33%) had negative lymphovascular invasion (LVI), 19 patients (42%) had positive LVI. 11 patients LVI not assessed.
Regarding the TNM staging, only 7 patients (16%) had limited invasion (T1, T2) and 38 (84%) patients had marked invasion (T3, T4). 13 (29%) patients had N0 and 32 (71%) had N+ (N1, N2, Nx). 22 (49%) patients presented with stage I-III, while 23 (51%) presented with metastatic disease (Table 1). 25 (56%) patients presented with high CEA level (≥5 ng/ml) while 20 (44%) patients with normal level (<5 ng/ml) (Table 1).
4.2. Expression of miRNA-21 and Its Correlation with Control and Clinico-Pathological Features
Nineteen patients (42%) had down expressed miRNA-21 level and 26 patients (57.78%) had up expressed level with (cut off value = 1). We didn’t find any significant association between the high expression of miRNA21 and age, sex, site of tumors, pathology type and tumors grads (Table 2). However, our results
Table 2. Corerelatioon between miRNA-21 expression and clicopathological data.
T = tumor invasion, N = lymph node invasion, M = distant metastasis.
found significant association between high expression of miRNA21 and LVI p < 0.01 and the LN invasions p value = 0.002 OR 16.5 (95% CI: 2.99 - 90.86). So patients with down expressed miRNA-21 were about 16 times more likely to have no lymph node invasion at time of diagnosis than those with up expressed miRNA21 (Table 2). Also we found statistical significant correlation with miRNA-21 and distant metastasis p value = 0.01, OR 0.244 (95% CI: 0.069 - 0.862).
Patients with down expressed miRNA-21 are about four times less likely to being metastatic than those with up expressed miRNA-21 with (95% CI: 1.16 - 14.49) (Table 2). The miRNA-21 was statistically significant stage p value = 0.001, OR 13.33 (95% CI: 2.44 - 73.02) (Table 2). There was also significant corelation between CEA and miRNA21 with p value = 0.01, OR 3.86 (95% CI: 1.11 - 13.46). Patients with down expressed miRNA21 were about three times more likely to have CEA at presentation <5 ng/ml than those with up expression with (95% CI: 1.11 - 13.46).
4.3. The Correlation of the miRNA-21 with the Response to 5-Fu Based Chemotherapy
The response to 5-fu based regimen in metastatic patients showed statistically significant association with the low expression of miRNA21 levels p value = 0.001.
4.4. The Correlation of the miRNA-21 with the Survival
Our results showed statistical significant difference in patients with low expression of miRNA-21 in patients with early disease (non metastatic) in their median DFS than those who presented with high expression p value = 0.024 (Figure 1).
Figure 1. Correlation between the miRNA-21 and DFS.
Hazard of relapse with up expressed miRNA-21 = 2.26 (95% CI: 1.05 - 4.85). On the other hand, we didn’t find significant difference between patients with low and high expression of miRNA-21 in advanced patients with metastases in their median PFS p value = 0.05 Regarding the OS results showed significant difference between patients with low and high expression of miRNA 23 months (95% CI: 21.1 - 25.53) vs. 20 months (95% CI: 16.28 - 22.91), Hazard of death with up expressed miRNA21 = 4.22 (95% CI = 0.901 - 19.65), p value = 0.04 (Figure 2).
Figure 2. Correlation between the miRNA-21 and the OS.
5. Discussion
miRNA-21 is one of the most extensively investigated oncogenic miRNAs whose expression is frequently up-regulated in CRC [16]. It can down regulate several tumor suppressor genes, including PTEN [17].which acts as a lipid phosphatase to dephosphorylate phosphatidylinositol 3 trisphosphate (PIP3), antagonizing the PI3K/Akt pathway [6]. This pathway has an important effect on numerous biological functions, such as cell proliferation, adhesion, angiogenesis, migration, invasion, metabolism and anti-apoptosis [18]. This suggests the oncogenic role of miRNA-21 in CRC.
We conducted this study to investigate the miRNA21 as a prognostic and predictive factor in our cases of CRC.
There was no significant relationships in our study between the miRNA21 and the age, sex and site of tumor this was matched with previous studies by Zhang et al. and Bastaminejad et al. [19] [20].
Also we didn’t find significant association between miRNA21 expression and pathological type and grade of differentiation this similar to the results of Mima et al. [21]. Our results might disagree with Wu et al. [22] who showed that miRNA-21 expression was significantly higher in patients with poor differentiation but this asymmetry probably explained by small sample size in our study.
There was no significant relationship in our study with the depth of invasion this was similar to results of Schee et al. [23] while Oue et al. [16] demonstrated that miRNA-21 expression was significantly increased in patients with T4, versus patients with T1–T3. These discrepancies might be explained by different sample size and may be different cut off values.
Patients with down expressed miRNA21 in our study are about four times less likely to being metastatic than those with high expression level. This was similar to results of multiple studies example of which Toiyama et al. [13] and Drusco et al. [24].
We found strong association between high expression of mi RNA and advanced stage and that was in line with previous results like Liu et al. [25] and Bastaminejad et al. [20] also significant association was found between the levels of expression of miRNA21 and LVI and this was explained by Fukushima et al. [26] who reported that miRNA inhibit programmed cell death protein 4 (PDCD4) which cause more invasion and intravasation [6].
Despite our results contradict previous meta-analysis [27] who reported no association between expression of mi RNA 21 and CEA levels. However, our results were in line with Wu et al. [22], as our data showed that patients with down expressed miRNA21 are about three times more likely to have CEA at presentation <5 ng/ml than those with up expressed miRNA21, OR 3.86 (95% CI= 1.11 - 13.46).
Regarding the response to 5FU based chemotherapy and survival, patients with high expressed level of miRNA21 were statistically significant insensitive to 5 FU chemotherapy this was similar to results of Caramés et al. and Takaaki et al. [28] [29].
Moreover, we found strong significant association with DFS and OS which agree with previous researches like Tsukamotoet al. [30], Xia et al. [27] and Gao et al. [31]. But our results failed to find association with PFS however similar results were published before by Jie et al. [5].
6. Conclusion
miRNA-21 high expression is associated with bad risk factors and poor DFS and OS in CRC, also its high expression associated with decreased sensitivity to 5Fu based regimens. So miRNA-21 could be considered as an ideal non-invasive prognostic and predictive marker in CRC.