The development of multidrug resistance (MDR) is a crucial cause of therapy failure in gastric cancer, which results in disease recurrence and metastasis. Long non-coding RNAs (lncRNAs) have been proven to be critical in carcinogenesis and metastasis of gastric cancer. However, little is known about the roles of ANRIL (antisense non-coding RNA in the INK4 locus) in gastric cancer MDR. The aim of our study is to identify the biological function of ANRIL in gastric cancer MDR. In our results, ANRIL was highly expressed in gastric cancer tissues of cisplatin-resistant and 5-fluorouracil (5-FU)-resistant patients, and the same upregulation trends were observed in cisplatin-resistant cells (BGC823/DDP) and 5-FU-resistant cells (BGC823/5-FU). In addition, BGC823/DDP and BGC823/5-FU cells transfected with ANRIL siRNA and treated with cisplatin or 5-FU, respectively, exhibited significant lower survival rate, decreased invasion capability, and high percentage of apoptotic tumor cells. The influence of ANRIL knockdown on MDR was assessed by measuring IC50 of BGC823/DDP and BGC823/5-FU cells to cisplatin and 5-FU, the result showed that silencing ANRIL decreased the IC50 values in gastric cancer cells. Moreover, qRT-PCR and western blotting revealed that ANRIL knockdown decreased the expression of MDR1 and MRP1, both of which are MDR related genes; regression analysis showed that the expression of ANRIL positively correlated with the expression of MDR1 and MRP1, resprectively In summary, knockdown of lncRNA ANRIL in gastric cancer cells inhibits the development of MDR, suggesting an efficacious target for reversing MDR in gastric cancer therapy.
Background: With the development of radiological technologies, radiotherapy has been gradually widely used in the clinic to intracranial tumours and become standardised. However, the related central nervous system disorders are still the most obvious complications after radiotherapy. This study aims to quantify the effectiveness of anlotinib, a small molecule inhibitor of multiple receptor tyrosine kinases, in mitigating acute phase of radiation-induced brain injury (RBI) in a mouse model. Methods:The onset and progression of RBI were investigated in vivo. All mice, (except for the sham group) were irradiated at a single-fraction of 20 Gy and treated with different doses of anlotinib (0, 0.2 and 0.8 mg/kg, respectively). The expression levels of glial fibrillary acidic protein (GFAP), hypoxia-inducible factor-1α (HIF-1α), vascular endothelial growth factor (VEGF), and phosphorylated vascular endothelial growth factor receptor-2 (p-VEGFR2) were assessed by western blot. Histological changes were identified by luxol fast blue (LFB) staining. Results:The expression levels of GFAP, HIF-1α, and VEGF were downregulated following treatment with anlotinib. However, anlotinib failed to inhibit the development of demyelination. Cerebral edema [as measured by brain water content (BWC)] was also mitigated following treatment with anlotinib.Conclusions: In summary, treatment with anlotinib significantly mitigated the adverse effects of acute RBI in a dose-dependent manner by downregulating the activation of astrocytes, improving brain hypoxia, and alleviating cerebral edema.
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