The interaction between long non-coding RNA LINC01564 and POU2F1 promotes the proliferation and metastasis of gastric cancer.

BACKGROUND: An increasing number of studies have demonstrated that long non-coding RNAs (lncRNAs) serve as key regulators in tumor development and progression. However, only a few lncRNAs have been functionally characterized in gastric cancer (GC). METHODS: Bioinformatics analysis was conducted to find lncRNAs that are associated with GC metastasis. RNA FISH, RIP, and RNA pull down assays were used to study the complementary binding of LINC01564 complementary to the 3'UTR of transcription factor POU2F1. The transcription activation of LINC01564 by POU2F1 as a transcription factor was examined by ChIP assay. In vitro assays such as MTT, cell invasion assay, and clonogenic assay were conducted to examined the impacts of LINC01564 and POU2F1 on GC cell proliferation and invasion. Experiments in vivo were performed to access the impacts of LINC01564 and POU2F1 on GC metastasis. RESULTS: The results showed that LINC01564 complementary bound to the 3'UTR of POU2F1 to form an RNA duplex, whereby stabilizing POU2F1 mRNA and increasing the enrichment in cells. The level of LINC01564 was also increased by POU2F1 through transcription activation. In vitro assays showed that LINC01564 promoted the proliferation, invasion and migration of GC cells through increasing POU2F1. In vivo experiments indicate the promotion of GC proliferation and metastasis by the interaction between LINC01564 and POU2F1. CONCLUSION: Taken together, our results indicate that the interaction between LINC01564 and POU2F1 promotes the proliferation, migration and invasion of GC cells.

Molecular and Genetic Basis of Pancreatic Carcinogenesis: Which Concepts May be Clinically Relevant?

Carcinogenic progression in the pancreas arises through a well-established stepwise accumulation of molecular aberrations from a normal cell to an invasive adenocarcinoma. Recent large-scale sequencing efforts have provided insight into novel driver genes as well as enriched core signaling pathways that underlie the inherent heterogeneity found in pancreatic cancer. By exploiting these genomic profiles, we may begin to provide new insights into patient stratification and therapeutic guidance. This review discusses the molecular landscape of pancreatic cancer and its role in tumor progression, clinical prognostication, and the development of novel therapeutic strategies.