ABSTRACT
ObjectiveIt remains an open question of whether the human-derived RUNX-related transcription factor 1 (RUNX1) influences the development of renal cell carcinoma. This study aims to investigate the expression and biological function of the RUNX1 gene in renal cell carcinoma.MethodsBioinformatics technique of gene chip was used to identify the expression of RUNX1 in renal cancer. The expression level of RUNX1 in renal cancer tissue was determined by real-time polymerase chain reaction (RT-PCR). Twenty samples of cancer tissue were collected from the Department of Urology, Affiliated Hospital of Nantong University between January 2015 and June 2019. Accordingly, the adjacent normal tissue of the tumor was as well collected. The 786-O cell line was transfected using small interfering RNA, and was subsequently divided into three groups by knocking down the RUNX1 gene: siRNA1 group (siRNA1 sequence transfected with si-RUNX1), siRNA2 group (siRNA2 sequence transfected with si-RUNX1), siRNA3 Group (siRNA3 sequence transfected with si-RUNX1), control group (control sequence empty vector siRNA transfection). Cell clone formation experiment was used to count the number of cell clone formation; MTT assay was used to detect 786-O cell proliferation activity; the Transwell tumor cell invasion experiment was used to analyze the amount of cell migration; Western blot was used to detect changes in protein levels.Results The expression of RUNX1 in renal tumor tissue was significantly higher than that in adjacent normal tissue. The expression of RUNX1 in renal tumor tissues was increased with the escalation of the malignant degree of the pathological stage. The prognosis of patients with high expression of RUNX1 was significantly poor than that of the patients with low expression of RUNX1. The results of cell colony formation assay and MTT assay showed that the cell viability and proliferation of si-RUNX1 groups were significantly inhibited compared to the control group (P<0.01 for both). Transwell assay showed that the number of 786-O cells passing through the membrane in the si-RUNX1 group (98.67±3.53/field) was significantly lower than that of the control group (143.3±8.74/field) (P<0.01).ConclusionThe expression of RUNX1 is correlated with the proliferation and migration ability of renal cancer cells. Knockdown of RUNX1 expression can significantly inhibit the proliferation and migration of renal cancer cells, suggesting that RUNX1 plays an important role in the proliferation and metastasis of melanoma. Hence, the RUNX1 gene can be used as a potential clinical diagnosis and treatment target and prognostic marker for renal cancer.
ABSTRACT
Epidemiological studies have investigated that functional polymorphisms in the methylenetetrahydrofolate reductase (MTHFR) gene may play an essential role in bladder carcinogenesis, but the association between these single-nucleotide polymorphisms in the MTHFR gene and the susceptibility of bladder cancer (BC) was inconsistent in previous studies. The objective of this current study was to conduct an update analysis investigating the association between three polymorphisms in the MTHFR gene and the risk of BC. We performed a meta-analysis of 13 publications involving an association between BC and MTHFR gene three polymorphisms (C677T, A1298C, and G1793A). We assessed the strength of the association, using odds ratios (ORs) with 95% confidence intervals (CIs). On one hand, we found that the C677T polymorphism was associated with increased BC risk among Asians, however, with decreased BC risk among a mixed population. Interestingly, BC patients who carried the T-allele (TT+TC) had a higher percentage than the individuals who carried the CC genotype (OR=1.38, 95% CI=1.13-1.69, p=0.002). On the other hand, the A1298C polymorphism may increase BC risk among Asians and Africans, but played a decreased association among Europeans. Results from the current update analysis suggested that the C677T and A1298C polymorphisms in the MTHFR gene were associated with BC risk and disease progression.
