Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) plays an important role in multiple cellular functions including metabolism and gene transcription. Our previous study showed that GAPDH expression was elevated in colon cancer and further upregulated in liver metastatic tissues, suggesting a possilbe role of GAPDH in promoting cancer metastasis. The present study was designed to investigate the underlying mechanism, using multiple experimental approaches including genetic silencing of GAPDH expression by short hairpin RNA (shRNA) and biochemcial/molecular analyses of the key events involved in glycolytic metabolism and epithelial-mesenchymal transition (EMT). We showed that silencing of GAPDH expression resulted in a significant reduction of glycolysis in colon cancer cell lines, accompanied by a decrease in cell proliferation and an apparent change in cell morphology associated with alterations in actin expression and phalloidine staining patterns. Furthermore, GAPDH suppression also caused a downregulation of gene expression involved in cancer stem-like cells and EMT. CHIP assay and co-immunoprecipitation revealed that GAPDH physically interacted with the transcriptional factor Sp1 and enhance the expression of SNAIL, a major regulator of EMT. Suppression of GAPDH expression resulted in a signficant decrease in SNAIL expression, leading to inhibition of EMT and attenuation of colon cancer cell migration in vitro and reduced metastasis in vivo. Overall, the present study suggests that GAPDH plays an important role in cancer metastasis by affecting EMT through regulation of Sp1-mediated SNAIL expression.
Circular RNAs (circRNAs) are a type of endogenous non-coding RNA that were discovered to regulate gene expression through multiple pathways. Metastasis remains one of the biggest obstacles in cancer treatment. In this review, we focus on circRNAs involved in cancer tumorigenesis and metastasis. We present recently identified tumor-related circRNAs and discuss their functioning in tumor progression and metastasis. These circRNAs are categorized into different functional mechanisms, including microRNA (miRNA) sponging, protein binding, regulation of host genes, translation of circRNAs, and exosomal circRNAs. Additionally, the indirect functions of circRNAs that regulate epithelial-mesenchymal transition and autophagy are also discussed.The first step of investigating circRNAs in cancer is to identify which circRNAs are expressed differently than in the normal tissues. Galasso et al. 62 examined a large group of circRNAs (n = 1,938) in breast cancer and described the genomic localization of circRNAs for the first time. They predicted that non-linear RNA would be resistant to RNase R treatment and confirmed the existence of circRNAs. With
Andrographolide is bestowed with an interesting pharmacophore and has attracted numerous studies on the design and synthesis of andrographolide derivatives.
The aim of this study is to investigate the anti-angiogenic properties of andrographolide derivatives AGP-26a (12β-isomer), AGP-26b (12α-isomer) and AGP-26 (4 : 1 mixture of AGP-26a and AGP-26b) in vitro and in vivo. Human umbilical vein endothelial cells (HUVECs) and the Tg(fli-1a:EGFP)y1 zebrafish model were used to identify the anti-angiogenic activities of AGP-26, AGP-26a, and AGP-26b. The results showed that AGP-26b exhibits the strongest inhibitory effect on VEGF-induced proliferation, migration, invasion and formation of capillary-like structures in HUVECs. In the zebrafish model, AGP-26b also showed the strongest suppression of ISV development. Further studies showed that the underlying mechanism of the anti-angiogenic effects of AGP-26b was at least partly through the blockage of the VEGF/VEGFR2 signaling pathways. AGP-26b blocked the activation of VEGFR2. Consequently, the phosphorylation of key intracellular proangiogenic kinases such as Src family kinase (Src), focal adhesion kinase (Fak), mitogen-activated protein kinase (MEK), extracellular signal-regulated kinase 1 and 2 (Erk1/2) and Akt induced by VEGF was suppressed by treatment with AGP-26b. Moreover, AGP-26b reduced the protein expression of matrix metalloproteinases (MMP-9 but not MMP-2) in HUVECs. These results provide evidence supporting the notion that AGP-26b may serve as a potential therapeutic anti-angiogenic agent.
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