RESUMO
BACKGROUND: The RNA-binding protein IGF2BP2/IMP2/VICKZ2/p62 is an oncofetal protein that is overexpressed in several cancer entities. Employing IMP2 knockout colorectal cancer cells, we could show the important role of IMP2 in several hallmarks of cancer. This study aimed to functionally characterize IMP2 in lung (A549, LLC1) and hepatocellular carcinoma (HepG2, Huh7) cell lines to assess its role as a potential target for these cancer entities. METHODS: IMP2 knockouts were generated by CRISPR/Cas9 and its variant approach prime editing; the editing efficiency of two single guide RNAs (sgRNAs) was verified via next-generation sequencing. We studied the effect of IMP2 knockout on cell proliferation, colony formation, and migration and employed small-molecule inhibitors of IMP2. RESULTS: Despite multiple attempts, it was not possible to generate IMP2 biallelic knockouts in A549 and Huh7 cells. Both sgRNAs showed good editing efficiency. However, edited cells lost their ability to proliferate. The attempt to generate an IMP2 biallelic knockout in LLC1 cells using CRISPR/Cas9 was successful. Monoallelic knockout cell lines of IMP2 showed a reduction in 2D cell proliferation and reduced migration. In 3D cultures, a change in morphology from compact spheroids to loose aggregates and a distinct reduction in the colony formation ability of the IMP2 knockouts was observed, an effect that was mimicked by previously identified IMP2 inhibitor compounds that also showed an inhibitory effect on colony formation. CONCLUSIONS: Our in vitro target validation supports that IMP2 is essential for tumor cell proliferation, migration, and colony formation in several cancer entities.
Assuntos
Antineoplásicos , Neoplasias Hepáticas , Proteínas de Ligação a RNA , Humanos , Edição de Genes , RNA Guia de Sistemas CRISPR-Cas , Proteínas de Ligação a RNA/antagonistas & inibidores , Proteínas de Ligação a RNA/genéticaRESUMO
Natural products have been shown to serve as promising starting points for novel anti-cancer drugs. In this study, the anti-cancer activities of the purple compound violacein, initially isolated from Chromobacterium violaceum, were investigated. To highlight the crucial role of the tumor microenvironment on the effectiveness of cancer therapies, this study includes effects on macrophages as prototypic cells of the microenvironment in addition to the investigation of tumor-centric activities. Using 2D and 3D cell culture models, automated live-cell microscopy, and biochemical analyses, violacein was demonstrated to inhibit tumor cell proliferation and migration. The violacein-triggered tumor cell death was further associated with caspase 3-like activation and ATP release. Stimuli released from dead cells resulted in inflammatory activation of macrophages, as shown by NF-κB reporter cell assays, macrophage morphology, and gene expression analysis. Moreover, macrophages deficient in the inflammasome component Nlrp3 were found to be significantly less sensitive towards treatment with violacein and doxorubicin. Taken together, this study provides new insights into the biological activity of violacein against cancer. In addition, the in vitro data suggest immunogenic features of induced cell death, making violacein an interesting candidate for further studies investigating the compound as an inducer of immunogenic cell death.
RESUMO
The RNA-binding protein IGF2BP2/IMP2/VICKZ2/p62 is overexpressed in several tumor entities, promotes tumorigenesis and tumor progression, and has been suggested to worsen the disease outcome. The aim of this study is to (I) validate IMP2 as a potential target for colorectal cancer, (II) set up a screening assay for small-molecule inhibitors of IMP2, and (III) test the biological activity of the obtained hit compounds. Analyses of colorectal and liver cancer gene expression data showed reduced survival in patients with a high IMP2 expression and in patients with a higher IMP2 expression in advanced tumors. In vitro target validation in 2D and 3D cell cultures demonstrated a reduction in cell viability, migration, and proliferation in IMP2 knockout cells. Also, xenotransplant tumor cell growth in vivo was significantly reduced in IMP2 knockouts. Different compound libraries were screened for IMP2 inhibitors using a fluorescence polarization assay, and the results were confirmed by the thermal shift assay and saturation-transfer difference NMR. Ten compounds, which belong to two classes, that is, benzamidobenzoic acid class and ureidothiophene class, were validated in vitro and showed a biological target specificity. The three most active compounds were also tested in vivo and exhibited reduced tumor xenograft growth in zebrafish embryos. In conclusion, our findings support that IMP2 represents a druggable target to reduce tumor cell proliferation.