Antitumor Effects of the Novel Quinazolinone Holu-12: Induction of Mitotic Arrest and Apoptosis in Human Oral Squamous Cell Carcinoma CAL27 Cells.

BACKGROUND/AIM: Quinazolinone is a privileged chemical structure employed for targeting various types of cancer. This study aimed to demonstrate the antitumor activity of synthesized 6,7-disubstituted-2-(3-fluorophenyl) quinazolines (HoLu-11 to HoLu-14). MATERIALS AND METHODS: The cytotoxicity was assessed by the sulforhodamine B (SRB) assay. The cell cycle was examined by flow cytometry. The expression levels of cell cycle- and apoptosis-related proteins were estimated by western blotting. A xenograft animal model was used to explore the antitumor effects of HoLu-12. RESULTS: Among four synthetic quinazolinone derivatives, HoLu-12 significantly reduced the viability of oral squamous cell carcinoma (OSCC) cells. HoLu-12 induced G2/M arrest and increased the expression of cyclin B, histone H3 (Ser10) phosphorylation, and cleaved PARP, indicating that HoLu-12 could induce mitotic arrest and then apoptosis. Moreover, the combination of HoLu-12 and 5-fluorouracil (5-FU) displayed synergistic toxic effect on OSCC cells. HoLu-12 significantly inhibited tumor growth in vivo. CONCLUSION: HoLu-12 induces mitotic arrest and leads to apoptosis of OSCC cells. Furthermore, HoLu-12 alone or in combination with 5-FU is a potential therapeutic agent for OSCC.

MicroRNA-134 Contributes to Glucose-Induced Endothelial Cell Dysfunction and This Effect Can Be Reversed by Far-Infrared Irradiation.

Diabetes mellitus (DM) is a metabolic disease that is increasing worldwide. Furthermore, it is associated with the deregulation of vascular-related functions, which can develop into major complications among DM patients. Endothelial colony forming cells (ECFCs) have the potential to bring about medical repairs because of their post-natal angiogenic activities; however, such activities are impaired by high glucose- (HG) and the DM-associated conditions. Far-infrared radiation (FIR) transfers energy as heat that is perceived by the thermoreceptors in human skin. Several studies have revealed that FIR improves vascular endothelial functioning and boost angiogenesis. FIR has been used as anti-inflammatory therapy and as a clinical treatment for peripheral circulation improvement. In addition to vascular repair, there is increasing evidence to show that FIR can be applied to a variety of diseases, including cardiovascular disorders, hypertension and arthritis. Yet mechanism of action of FIR and the biomarkers that indicate FIR effects remain unclear. MicroRNA-134 (miR-134-5p) was identified by small RNA sequencing as being increased in high glucose (HG) treated dfECFCs (HG-dfECFCs). Highly expressed miR-134 was also validated in dmECFCs by RT-qPCR and it is associated with impaired angiogenic activities of ECFCs. The functioning of ECFCs is improved by FIR treatment and this occurs via a reduction in the level of miR-134 and an increase in the NRIP1 transcript, a direct target of miR-134. Using a mouse ischemic hindlimb model, the recovery of impaired blood flow in the presence of HG-dfECFCs was improved by FIR pretreatment and this enhanced functionality was decreased when there was miR-134 overexpression in the FIR pretreated HG-dfECFCs. In conclusion, our results reveal that the deregulation of miR-134 is involved in angiogenic defects found in DM patients. FIR treatment improves the angiogenic activity of HG-dfECFCs and dmECFCs and FIR has potential as a treatment for DM. Detection of miR-134 expression in FIR-treated ECFCs should help us to explore further the effectiveness of FIR therapy.

YM500: a small RNA sequencing (smRNA-seq) database for microRNA research.

MicroRNAs (miRNAs) are small RNAs ∼22 nt in length that are involved in the regulation of a variety of physiological and pathological processes. Advances in high-throughput small RNA sequencing (smRNA-seq), one of the next-generation sequencing applications, have reshaped the miRNA research landscape. In this study, we established an integrative database, the YM500 (http://ngs.ym.edu.tw/ym500/), containing analysis pipelines and analysis results for 609 human and mice smRNA-seq results, including public data from the Gene Expression Omnibus (GEO) and some private sources. YM500 collects analysis results for miRNA quantification, for isomiR identification (incl. RNA editing), for arm switching discovery, and, more importantly, for novel miRNA predictions. Wetlab validation on >100 miRNAs confirmed high correlation between miRNA profiling and RT-qPCR results (R = 0.84). This database allows researchers to search these four different types of analysis results via our interactive web interface. YM500 allows researchers to define the criteria of isomiRs, and also integrates the information of dbSNP to help researchers distinguish isomiRs from SNPs. A user-friendly interface is provided to integrate miRNA-related information and existing evidence from hundreds of sequencing datasets. The identified novel miRNAs and isomiRs hold the potential for both basic research and biotech applications.