Abstract
Background/Aim: The aim of this study was to examine the role of caspase-8 rs3834129 polymorphism on colorectal cancer (CRC) risk in Taiwanese CRC patients and healthy controls. Materials and Methods: The caspase-8 rs3834129 (-652 6N insertion/deletion) polymorphic genotypes were analyzed in 362 patients with CRC and the same number of age- and gender-matched healthy subjects. The interaction of caspase-8 rs3834129 genotypes with personal behaviors and clinicopathological features were also examined. Results: The percentage of variants ID and DD for caspase-8 rs3834129 genotype were 37.6 and 5.8% in CRC group and 39.0 and 6.6% in the control group, respectively (p for trend=0.7987). The allelic frequency distribution analysis showed that caspase-8 rs3834129 D allele conferred a non-significant lower susceptibility for CRC compared with I allele (OR=0.92, 95%CI=0.74-1.20, p=0.5063). There was no obvious link between caspase-8 rs3834129 genotype and CRC risk among ever-smokers, non-smokers, non-alcohol drinkers or alcohol drinkers. No statistically significant correlation was observed between caspase-8 rs3834129 genotypic distribution and age, gender, tumor size, location or metastasis status. Conclusion: Overall, caspase-8 rs3834129 genotypes may not serve as predictors for CRC risk or prognosis.
Colorectal cancer (CRC) is the third most prevalent type and the fourth most death-causing cancer worldwide (1, 2). In Taiwan, the incidence and mortality of CRC has been ranked as the first and third cancer among the common types of cancer for many years (3), and the extremely high incidence of CRC has been closely associated with the modern dietary habits of the Western world and the rapid decrease in the consumption of dietary fiber or grain-derived foods. However, the definitive mechanisms of CRC carcinogenesis remain largely unknown. Mounting evidence has suggested that CRC is the result of the interaction among individual genomic and environmental factors, which are waiting to be revealed in the era of precise medicine (4-6). This hypothesis is supported by epidemiological studies, which attributed indirect evidence for the involvement of specific lifestyle and environmental factors in the etiology of more than 85% of CRC cases, particularly meat consumption, cigarette smoking, and exposure to carcinogenic aromatic amines, such as arylamines and heterocyclic amines (7, 8). In addition, 15-20% of CRC cases have a history of familial cancer that have led molecular epidemiologists to search for genomic susceptibility factors that can serve as cancer predictors (9-11). In Taiwan, although several biomarkers for early detection of CRC have been revealed and published during the past decade (12-18), their phenotype and value in clinical practice is not yet known.
Programmed cell death, also named apoptosis, is an essential mechanism to maintain proper cellular growth rate in a stable population (19). It has been reported that aberrant apoptotic pathway is closely associated with tumorigenesis in CRC (20, 21). Caspases are recognized as a family of regulative and executive proteins in the typical apoptosis processes (22). Among them, caspase-8 is one of the most important members of the caspase family of proteins playing an important role in apoptosis (20, 23), especially in mediating the extrinsic apoptotic pathway (24). The protein is encoded by the caspase-8 (also known as CASP8) gene which has 11 exons and is located on chromosome 2q33 q34. Several caspase-8 gene SNPs have been identified to be associated with the risk of various types of cancer (25-28). Among them, the caspase-8 rs3834129 (-652, 6N ins/del) polymorphism, a six-nucleotide insertion (I)/deletion (D) variant, has been functionally shown to lead to the down-regulation of the mRNA of caspase-8 (29). Caspase-8 SNPs are reported to be genomic markers for prediction of the personal risk for several types of cancer, including neuroblastoma (26), bladder cancer (30) and breast cancer (27). Among them, caspase-8 rs3834129 is the most investigated SNP on caspase-8. Epidemiological studies have extensively examined the association between caspase-8 rs3834129 polymorphism and CRC risk, with discrepant results. Therefore, the current case–control study, aimed to investigate the distribution of genotypes of caspase-8 rs3834129 polymorphism, evaluate its association with CRC risk in a Taiwanese population, and discuss concisely the differences and similarities among this and other studies.
Materials and Methods
Collected population. The investigated population was composed of 724 individuals, including 362 patients diagnosed with CRC and the same number of control subjects. The 362 patients diagnosed with CRC were recruited at the outpatient clinics of general surgery at the China Medical University Hospital by the surgical teams under the supervision of LB Jeng and MD Yang during the period between 2002 and 2008. The clinical characteristics for the investigated patients, including their histological details, were all identified and recorded by the well-trained surgeons (13, 18, 31). Well-matched for age (no different than 5 years), gender (most of them were the same) and some specific habits (such as smoking and alcohol drinking), 362 non-cancer healthy volunteers were selected as controls after initial random sampling from the Health Examination Cohort of the Hospital with the help of colleagues at the Department of Family Medicine. The exclusion criteria of the controls included previous malignancy, metastasized cancer from other or unknown origin and any familial or genetic diseases. All the 724 recruited participants completed a self-administered questionnaire and provided a 5-ml sample of peripheral blood for genotyping. This study has been approved by the Institutional Review Board of the China Medical University Hospital (IRB project identification coding number: DMR99-IRB-108) and written informed consents were obtained from all the participants with the help of Tissue-Bank of China Medical University Hospital. The selective demographic information for all the 724 participants in this study is summarized in Table I.
Genotyping conditions for caspase-8 rs3834129. Genomic DNA was extracted within 12 h after getting the blood from the peripheral blood leukocytes using the QIAamp Blood Mini Kit (Blossom, Taipei, Taiwan, ROC), stored long-term at −80°C, then diluted and aliquoted for caspase-8 rs3834129 genotyping as a working stock at −20°C as per our routine practice (12, 14). The primer pairs and the selection of restriction enzymes used for caspase-8 rs3834129 genotyping are listed in Table II. The polymerase chain reaction (PCR) cycling conditions were: one cycle at 94°C for 5 min; 35 cycles at 94°C for 30 sec, 59°C for 30 sec and 72°C for 30 sec, and a final extension at 72°C for 10 min. After PCR, the SNP-containing DNA amplicons were subjected to overnight digestion by restriction endonucleases. Following enzyme digestion, each sample was immediately subject to 3% agarose gel electrophoresis. All the genotypic processing was repeated by two well-trained researchers independently and blindly, and their results were 100% concordant to each other. In addition, the success rate of PCR-restrictive fragment length polymorphism (RFLP) was 100%, and the genotypes of 5% of the participants in both the control and patient groups were randomly selected and subject to PCR direct sequencing (Genomics BioSci & Tech Co. There was 100% concordance in the results obtained by direct sequencing and PCR-RFLP.
Statistical analysis. The Student's t-test was used for the comparison of the continuous variables such as age among the CRC cases and controls. The Pearson's Chi-square was used to compare the distribution of the caspase-8 rs3834129 genotypes among the investigated subjects. The associations between caspase-8 rs3834129 genotypes and CRC risk were estimated with the indexes of computing odds ratios (ORs) and their 95% confidence intervals (CIs) using logistic regression analysis. Similar to typical cancer genomic studies, any difference between the two groups at p<0.05 was identified as statistically significant.
Results
The recording and comparisons of the selected demographic characteristics, including age and gender for the 724 subjects, including 362 patients with CRC and 362 non-cancer healthy controls, are summarized Table I. In addition, the tumor size, location, and lymph node metastasis status of the 362 CRC patients are concisely summarized in Table I. Since the strategies of frequency matching were applied for age, gender and habits in recruiting the 362 non-cancer healthy individuals as controls, there was no difference in respect to the distributions of age and gender between the two groups (p=0.8654 and 0.6525, respectively) (Table I). Also, there was no difference in respect to the distributions of smoking and alcohol drinking status between the control and case groups (data not shown).
The distributions of the caspase-8 rs3834129 genotypes among the 362 non-cancer healthy controls and the 362 patients with CRC are presented and analyzed in Table III. The genotypes of caspase-8 rs3834129 were not differently distributed between the case and control groups (p for trend=0.7987) (Table III). In detail, the caspase-8 rs3834129 heterozygous and homozygous variant ID and DD genotypes were not associated with altered CRC risk compared with the wild-type II genotype (adjusted OR=0.94 and 0.88, 95%CI=0.71-1.23 and 0.49-1.46, p=0.6270 and 0.5818, respectively). In addition, in the dominant model, there was no significant association between D allele carriers (ID+DD) of caspase-8 rs3834129 and CRC risk compared with the II wild-type genotype (adjusted OR=0.90, 95%CI=0.62-1.28, p=0.5496).
In order to confirm the highlight findings in Table III, analysis of allelic frequency distributions for caspase-8 rs3834129 was also conducted and the results are presented in Table IV. Supporting the conclusion that the genotype of caspase-8 rs3834129 is not associated with CRC risk, the frequency of variant allele D was 24.6% in the case group, slightly but non-significantly lower than that of 26.1% in the control group (adjusted OR=0.92, 95%CI=0.74-1.20, p=0.5063) (Table IV).
Smoking and alcohol drinking habits are well-known risk factors for CRC in Taiwan. Thus, the interactions between the genotypes of caspase-8 rs3834129 and personal cigarette smoking and alcohol drinking behaviors of Taiwanese were examined, and the results are presented in Tables V and VI. Firstly, among non-smokers, people with ID and DD genotypes at caspase-8 rs3834129 were at 0.90- and 0.83-fold odds of having CRC (95%CI=0.63-1.28 and 0.42-1.64, p=0.5677 and 0.5881) (Table V, left panel). After adjusting for confounding factors including age, gender and alcohol drinking status, the statistical results still were maintained at a non-significant level for ID and DD genotypes (Table V, left panel). Similarly, a non-significant effect was found among the non-smokers (Table V, right panel). Secondly, among non-alcohol drinkers and alcohol drinkers, those with ID and DD genotypes at caspase-8 rs3834129 did not have a significantly increased risk of having CRC (Table VI).
The correlations between genotypes of caspase-8 rs3834129 and clinicopathological features of 362 patients with CRC were further stratified, analyzed and presented in Table VII. No statistically significant correlation was observed between caspase-8 rs3834129 genotypic distributions and age, gender, tumor size, location or metastasis status (all p>0.05) (Table VII).
Discussion
Caspase-8 belongs to a family of cysteine proteases, which play critical roles in the regulation of apoptosis and cytokine processing (32). As originally identified, caspase-8 plays a role as an initiator of both the extrinsic and the intrinsic apoptotic pathway after activation by Fas-FasL ligands (33, 34). Further, activated caspase-8 may team-up with initiator caspase-10, contributing to the formation of death inducing signaling complex and subsequently the activation the downstream effector caspases to execute the overall apoptosis (35). Among caspase-8 SNPs, rs3834129 is the most investigated. The first case-control study was conducted by Sun and his colleagues in 2007 to examine the contribution of caspase-8 rs3834129 to several types of cancer (36). They found that the D allele at caspase-8 rs3834129 was associated with a decreased susceptibility to lung, colorectal, esophageal, breast, cervical and gastric cancer among 4995 cases and 4972 controls. Further studies have indicated that caspase-8 rs3834129 genotypes might be associated with a susceptibility to cancers such as melanoma (25), brain tumor (26), breast cancer (27) and kidney cancer (28). Sun and his colleagues have also reported that the deletion genotype at caspase-8 rs3834129 destroys a stimulatory protein 1 binding element in the promoter regulatory region, which may cause decreased CASP8 transcription and eventually reduced apoptosis of antitumor T lymphocytes (36).
There were several reports examining the contribution of caspase-8 rs3834129 in CRC risk in other populations. A multi-centric study that included 6,733 CRC cases and 7,576 controls recruited from Spain, Italy, USA, England, Czech Republic and the Netherlands has indicated that rs3834129 was not associated with CRC risk (37). This is consistent with the study conducted by Xiao MS et al. which included 305 CRC patients and 342 healthy Chinese controls (38). In order to clarify the role of caspase-8 rs3834129 polymorphism on the risk of CRC, Ying and his colleagues have performed a meta-analysis and concluded that caspase-8 rs3834129 polymorphism was not associated with CRC risk (39). In agreement, the present study, indicated that ID or DD genotypes at caspase-8 rs3834129 are not significantly associated with increased risk of CRC in this Taiwanese population (Table II). Therefore, the direct effect of caspase-8 rs3834129 on carcinogenesis is still controversial and needs further investigation.
Long-term smoking habit has been reported as a risk factor for CRC (40), thus the interaction of caspase-8 rs3834129 genotype and smoking on CRC risk was examined. Among both smokers and non-smokers, variant genotypes at caspase-8 rs3834129 were not associated with altered risk of CRC in Taiwanese (Table V). Similarly, the variant genotypes at caspase-8 rs3834129 were not associated with altered risk of CRC among non-alcohol drinkers or drinkers in Taiwanese (Table VI). In addition, no interaction was found between caspase-8 rs3834129 genotype and age or gender on CRC risk. Regarding tumor size, location and lymph node metastasis, no determinant effect of caspase-8 rs3834129 on CRC was found in the patients investigated (Table VII). These findings also need to be validated by further studies in additional and larger populations.
In conclusion, solid evidence was provided within a moderate and representative population showing that caspase-8 rs3834129 was not associated with increased CRC risk in a Taiwanese population. Additionally, the stratified analyses indicated that smokers and alcohol drinkers do not bear additional risk for CRC. Moreover, caspase-8 rs3834129 variant genotypes were not found to be predictors of poorer prognosis. Further validation in large population-based studies in different ethnicities are urgently encouraged and needed.
Acknowledgements
The Authors would like to thank the personnel of the Tissue-Bank of China Medical University Hospital for their excellent technical assistance including all, doctors, nurses and colleagues. The excellent technical expertise and efforts from Yu-Shih Wang, Huai-Mei Hsu and Hsin-Ting Li are also appreciated. This study was supported mainly by the Taichung Armed Forces General Hospital (107A21) to Dr. Wu and Taichung Veterans General Hospital (TCVGH-1077304B) to Dr. Hung. The statistician Cheng-Li Lin who was supported with a research grant from Taiwan Ministry of Health and Welfare Clinical Trial and Research Center of Excellence (MOHW108-TDU-B-212-133004) is highly appreciated.
Footnotes
↵* These Authors contributed equally to this study.
Authors' Contributions
Research Design: Wu MH and Hung YW; Patient and Questionnaire Summarize: Yueh TC, Wang SC, Lai YL and Ke TW; Experiment Performance: Chao CC, Wang YC and Chang WS; Statistical Analysis: Hsu SW, Fu CK; Manuscript Writing: Tsai CW, Gong CL and Bau DT; Reviewing and Revising: Bau DT, Chang WS and Tsai CW
Conflicts of Interest
The Authors declare no conflict of interest in regard to this study.
- Received April 15, 2019.
- Revision received April 30, 2019.
- Accepted May 2, 2019.
- Copyright© 2019, International Institute of Anticancer Research (Dr. George J. Delinasios), All rights reserved