Increasing evidence has placed eukaryotic translation initiation factor 4E (eIF4E) at the hub of tumor development and progression. Several studies have reported that eIF4E is over-expressed in cervical cancer; however, the mechanism remains elusive. The results of this study further confirm over-expression of eIF4E in cervical cancer tumors and cell lines, and we have discovered that the transcription of eIF4E is induced by protein E6 of the human papillomavirus (HPV). Moreover, regulation of eIF4E by E6 significantly influences cell proliferation, the cell cycle, migration, and apoptosis. Therefore, eIF4E emerges as a key player in tumor development and progression and a potential target for CC treatment and prevention.
Eukaryotic translation initiation factor 4E (eIF4E) is involved in integration and amplification of many carcinogenesis signals in tumors. However, it remains unclear whether eIF4E over-expresses in NPC and whether it is associated with the development of NPC. Here, we analyzed the expression state of eIF4E, c-Myc, and MMP9 in 24 nasopharyngitises and 64 nasopharyngeal carcinomas (NPC) tissues and studied the influences of eIF4E on the proliferation and cell cycle in NPC cell lines. The results indicate that eIF4E might over-express in NPC and the over-expression of eIF4E promotes NPC growth and cell cycle progression through enhancing the translational expression of c-Myc and MMP9. The finding certainly adds new knowledge in the understanding of the carcinogenesis of NPC and provides a potential molecular target for the NPC therapy and prevention.
Melanoma is a tumor produced by skin melanocytes, which has a high metastatic rate and poor prognosis. So far, plenty of work has been done on melanoma, but mechanisms underlying melanoma development have not been fully elucidated. Here we identified regulator of G protein signaling 4(RGS4) as novel therapeutic target for malignant melanoma and its regulating effect on melanoma. We found that endogenous RGS4 expression was much lower in melanoma tissues and cells. In A375 cell line with low endogenous RGS4 expression, the function of RGS4 was detected by up-regulation its expression with pcDNA3.1-RGS4 and knockdown its expression with siRNA. Our results showed that RGS4 could significantly reduce the proliferation, migration and invasion of melanoma cells. RGS4 is an important regulator for the apoptosis of melanocyte, and the apoptosis rate is significantly decreased in low RGS4 enviroment. RGS4 induced non-activation of PI3K/AKT pathway, resulting in decreased expression of E2F1 and Cyclin D1, thus constraining cell proliferation and invasion. These results were further confirmed in M14 cell lines. Collectively, our findings show that RGS4 plays an important role in multiple cellular functions of melanoma development and is valuable to be a therapeutic target.
Eukaryotic translation initiation factor 4E (eIF4E) is the rate-limiting translation initiation factor for many oncogenes. Previous studies have shown eIF4E overexpression in nasopharyngeal carcinoma (NPC). We aimed to study whether viral oncogene latent membrane protein 1 (LMP1) stimulates the transcription of eIF4E to promote NPC malignancy. In NPC cell lines (CNE1 and CNE2), ectopic LMP1 significantly increased the mRNA and protein levels of eIF4E and the transcriptional activity of the eIF4E promoter in a LMP1-plasmid-transfected dose-dependent manner. As a backward experiment, knocking down of LMP1 significantly reduced eIF4E mRNA in B95-8 cells. In the high LMP1 expression condition, knocking down of c-Myc significantly reduced eIF4E mRNA in both NPC and B95-8 cells, and knocking down of eIF4E significantly inhibited the tumor proliferation, migration and invasion promoted by LMP1. The results indicated that LMP1 stimulates the transcription of eIF4E via c-Myc to promote NPC. To the best of our knowledge, this is the first evidence that LMP1 stimulates the transcription of eIF4E. This might be an important cause of the overexpression of eIF4E in NPC and be the novel mechanism by which LMP1 initiates cancer. LMP1-stimulated eIF4E initiates the translation of those oncogenes transcriptionally activated by LMP1 to amplify and pass down the carcinogenesis signals launched by LMP1.Abbreviations EBV, Epstein-Barr virus; eIF4E, eukaryotic translation initiation factor 4E; LMP1, latent membrane protein 1; NPC, nasopharyngeal carcinoma; qRT-PCR, real-time quantitative PCR; shRNA, small hairpin RNA; siRNA, small interfering RNA.
Dehydrocostus lactone (DHC) is the main active ingredient extracted from a traditional Chinese medicine called Radix Aucklandiael. A few studies recently showed that DHC has anticancer potential. However, no reports exist as yet on the effects of DHC on colorectal carcinoma (CRC). This study aimed to determine whether and how DHC functions in CRC cells. After treatment with DHC, both Lovo and SW480 cells were significantly inhibited in their proliferation, cell cycle progression, migration, and invasion abilities in a dose-dependent and/or treatment time-dependent manner. Also, DHC significantly increased the apoptosis rate of SW480 cells, but not Lovo cells. The expression of eukaryotic translation initiation factor 4E (eIF4E), which was originally highly expressed in both cells, was significantly decreased by DHC. The inhibition of proliferation, migration, and invasion was significantly attenuated by the ectopic transfection of eIF4E, and was promoted by the knockdown of eIF4E in Lovo cells. To the best of our knowledge, this is the first time it has been shown that DHC suppressed the proliferation, cell cycle progression, antiapoptosis, and migration and invasion capabilities of CRC cells by the downregulation of eIF4E expression. In terms of the overexpression of eIF4E in many cancers, it was speculated that DHC might also play an anticancerous role by suppressing eIF4E expression. This discovery could lay the foundations for advancing our understanding of the anticancerous mechanism of DHC and developing DHC into a novel and effective natural anticancer therapeutic.
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