CYP450 3A4 (CYP3A4), encoded by the CYP3A4 gene, is a major enzyme catalyzing the metabolism of both endogenous and exogenous agents that may play a role in the etiology of carcinogenesis. Several potentially functional polymorphisms of the CYP3A4 gene have been implicated in cancer risk, but individually published studies have shown inconclusive results. The aim of this Human Genome Epidemiology (HuGE) review and meta-analysis was to investigate the association between CYP3A4*1B (rs2740574 A > G) polymorphism and cancer risk. Eleven studies were included with a total of 3,810 cancer patients and 3,173 healthy controls. We found that the G allele and GG genotype of CYP3A4*1B polymorphism were associated with increased risk of cancers using the fixed effects model (allele model: odds ratio (OR) = 1.24, 95 %CI: 1.09-1.42, P = 0.001; recessive model: OR = 1.77, 95 %CI: 1.30-2.41, P < 0.001; homozygous model: OR = 1.72, 95 %CI: 1.19-2.47, P = 0.004). Subgroup analyses by cancer type showed that the G allele and G carrier (AG + GG) of CYP3A4*1B polymorphism had significant associations with increased risk of prostate cancer, but not with breast cancer, leukemia, or other cancers. With further subgroup analysis based on different ethnicities, the results indicated that the GG genotype of CYP3A4*1B polymorphism might increase the risk of cancer among African populations. However, similar associations were not observed among Caucasian and Asian populations. Results from the current meta-analysis indicate that the G allele and GG genotype of CYP3A4*1B polymorphism might be associated with increased cancer risk, especially for prostate cancer among African populations.
Colorectal cancer (CRC) is one of the most prevalent tumors worldwide. Recently, long noncoding RNAs (lncRNAs) have been recognized as key regulators in postgenomic biology. Numerous lncRNAs have been identified as diagnostic biomarkers and therapeutic targets. However, the molecular mechanisms underlying the role of lncRNAs in CRC progression are not fully understood. Differentially expressed lncRNAs and messenger RNAs were investigated using a microarray approach in five paired primary CRC tumor tissues and the corresponding nontumor tissues and confirmed in an additional 116 paired tissues and 21 inflammatory bowel disease tissues and 15 adjacent normal tissues by a quantitative real‐time polymerase chain reaction. We also performed comprehensive transcriptome profiling analysis on Gene Expression Omnibus and The Cancer Genome Atlas datasets. We identified LINC02595 and evaluated its clinical significance as a plasma biomarker. The function of LINC02595 was evaluated using a panel of in vivo and vitro assays, including cell counting kit‐8, colony formation, cell cycle, apoptosis, RNA fluorescence in situ hybridization, luciferase reporter, immunohistochemistry, and CRC xenografts. We found that LINC02595 is upregulated in tumor tissues and blood samples of patients with CRC and CRC cell lines. Functional research found that LINC02595 promotes CRC cell growth, influences the cell cycle, and reduces apoptosis in vitro and vivo. Mechanistically, LINC02595 promoted BCL2‐like 1 (BCL2L1) expression through miR‐203b‐3p sponging. Our research demonstrated that LINC02595 is an oncogene in CRC and established the presence of a LINC02595‐miR‐203b‐BCL2L1 axis in CRC, which might provide a new diagnostic biomarker and therapeutic targets for the treatment of this disease.
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