ABSTRACT. Many studies have shown that microRNA (miR)-133 functions as a tumor suppressor in a variety of metastatic cancers, including breast cancer, gastric cancer, and liver fibrosis. However, the influence of miR-133 on pituitary tumor malignancy has not yet been reported. The purpose of this study was to explore the role of miR-133 in pituitary tumor cell migration and invasive ability and the molecular mechanisms involved. Our findings suggest that in pituitary adenoma cell lines, through direct targeting and negative control of forkhead box C1 (FOXC1), miR-133 can inhibit pituitary adenoma cell migration and invasion. In addition, epithelialto-mesenchymal transition can be induced by miR-133. Additionally, a negative correlation was found between FOXC1 and miR-133 expression when comparing their expression levels between cancerous tissue and adjacent normal tissue. This suggests that miR-133 can inhibit cell migration and invasion by directly targeting FOXC1, implying that miR-133 could be a potential therapeutic target for treatment of invasive pituitary adenoma.
MicroRNAs (miRNAs) have been reported to play a key role in oncogenesis. Genetic variations in miRNA processing genes and miRNA binding sites may affect the biogenesis of miRNA and the miRNA-mRNA interactions, hence promoting tumorigenesis. In the present study, we hypothesized that potentially functional polymorphisms in miRNA processing genes may contribute to head and neck cancer (HNC) susceptibility. To test this hypothesis, we genotyped three SNPs at miRNA binding sites of miRNA processing genes (rs1057035 in 3′UTR of DICER, rs3803012 in 3′UTR of RAN and rs10773771 in 3′UTR of HIWI) with a case-control study including 397 HNC cases and 900 controls matched by age and sex in Chinese. Although none of three SNPs was significantly associated with overall risk of HNC, rs1057035 in 3′UTR of DICER was associated with a significantly decreased risk of oral cancer (TC/CC vs. TT: adjusted OR = 0.65, 95% CI = 0.46–0.92). Furthermore, luciferase activity assay showed that rs1057035 variant C allele led to significantly lower expression levels as compared to the T allele, which may be due to the relatively high inhibition of hsa-miR-574-3p on DICER mRNA. These findings indicated that rs1057035 located at 3′UTR of DICER may contribute to the risk of oral cancer by affecting the binding of miRNAs to DICER. Large-scale and well-designed studies are warranted to validate our findings.
To evaluate whether the genetic variants in H19 influence the risk of oral squamous cell carcinoma (OSCC) in a Chinese population, a case-control study was conducted to analyze four functional single nucleotide polymorphisms (SNPs) in H19. The cohort comprised of 444 OSCC cases and 984 healthy controls, and the study further evaluated the biological effect by bioinformatics prediction and functional experiments. Two SNPs, rs217727 and rs2839701, were found to be associated with the risk of OSCC [rs217727: odds ratio (OR) = 1.32, 95% confidence interval (CI) = 1.11–1.58, P = 0.002; rs2839701: OR = 1.23, 95% CI = 1.04–1.46, P = 0.019].Bioinformatics predicted that rs2839701 C>G might alter the secondary structure of H19. In addition, rs2839701 C>G inhibited the transcription activity and was correlated with the decreased expression of downstream gene MRPL23-AS1 that was downregulated in OSCC. The current results suggested that the SNPs in H19 may play a major role in genetic susceptibility to OSCC.
Autophagy is an essential process to maintain cellular homeostasis and functions, which has been demonstrated to play an important role in the different stages of tumorigenesis. To evaluate whether the genetic variants in autophagy-related genes influence the head and neck squamous cell carcinoma (HNSCC) risk, we conducted a case-control study to analyze 11 tagging single nucleotide polymorphisms (SNPs) of three core autophagosome formation genes (ATG5, ATG12, and ATG16L1) with 576 HNSCC cases and 1552 healthy controls among Chinese population. Finally, we identified that rs26537 of ATG12 (additive model: adjusted odds ratio [OR] = 1.19, 95% confidence interval [CI] = 1.03-1.37, P = 0.017) and rs4663402 in ATG16L1 (additive model: adjusted OR = 1.39, 95%CI = 1.08-1.80, P = 0.010) were significantly associated with the increased risk of HNSCC. However, no association was detected between other SNPs and HNSCC risk. The results of expression quantitative trait loci (eQTL) analysis based on Genotype-Tissue Expression (GTEx) accessible data, showed that the risk allele of rs26537 was significantly associated with up-regulated expression of ATG12 (P = 0.0021). Further luciferase activity assay indicated that rs26537 T > C in ATG12 intron one region significantly enhanced transcription activity. These results suggested that ATG12 eQTL SNP rs26537 might contribute to an allele-specific effect on the expression of host gene ATG12 and explain a fraction of HNSCC genetic susceptibility.
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