A series of diphenyl ether-containing pyrazole-carboxamide derivatives was designed and synthesized as new succinate ubiquinone oxidoreductase (SQR) inhibitors. This highly potent molecular scaffold was developed from a moderately activie hit 3, obtained from our previous pharmacophore-linked fragment virtual screening (PFVS) method. The results of greenhouse tests indicated that some analogues showed good SQR inhibitory activity, with promising fungicidal activity against Rhizoctonia solani and Sphaerotheca fuliginea at a dosage of 200 mg/L. Most surprisingly, compound 62 showed the highest SQR inhibitory activity with a K value of 0.081 μM, about 4-fold more potent than penthiopyrad (K = 0.307 μM). In addition, compounds 43 and 62 displayed excellent fungicidal activity even at a dosage as low as 6.25 mg/L, which was superior to thifluzamide. Moreover, compound 62 exhibited excellent protection effect against R. solani and provided about 81.2% protective control efficancy after 21 days with two sprayings. The present work indicated that these two compounds could be used as potential agricultural fungicides targeting SQR.
Succinate-ubiquinone oxidoreductase (SQR) is an attractive target for fungicide discovery. Herein, we report the discovery of novel SQR inhibitors using a pharmacophore-linked fragment virtual screening approach, a new drug design method developed in our laboratory. Among newly designed compounds, compound 9s was identified as the most potent inhibitor with a Ki value of 34 nM against porcine SQR, displaying approximately 10-fold higher potency than that of the commercial control penthiopyrad. Further inhibitory kinetics studies revealed that compound 9s is a noncompetitive inhibitor with respect to the substrate cytochrome c and DCIP. Interestingly, compounds 8a, 9h, 9j, and 9k exhibited good in vivo preventive effects against Rhizoctonia solani. The results obtained from molecular modeling showed that the orientation of the R(2) group had a significant effect on binding with the protein.
Prostate cancer (PC) is one of the most common solid tumors in men. However, the molecular mechanism of PC remains unclear. Numerous studies have demonstrated that long noncoding RNA (lncRNA) can act as microRNA (miRNA) sponge, one type of competing endogenous RNAs (ceRNAs), which offers a novel viewpoint to elucidate the mechanisms of PC. Here, we proposed an integrative systems biology approach to infer the gain and loss of ceRNAs in PC. First, we re-annotated exon microarray data to obtain lncRNA expression profiles of PC. Second, by integrating mRNA and miRNA expression, as well as miRNA targets, we constructed lncRNA-miRNA-mRNA ceRNA networks in cancer and normal samples. The lncRNAs in these two ceRNA networks tended to have a longer transcript length and cover more exons than the lncRNAs not involved in ceRNA networks. Next, we further extracted the gain and loss ceRNA networks in PC. We found that the gain ceRNAs in PC participated in cell cycle, and the loss ceRNAs in PC were associated with metabolism. We also identified potential prognostic ceRNA pairs such as MALAT1-EGR2 and MEG3-AQP3. Finally, we inferred a novel mechanism of known drugs, such as cisplatin, for the treatment of PC through gain and loss ceRNA networks. The potential drugs such as 1,2,6-tri-O-galloyl-beta-D-glucopyranose (TGGP) could modulate lncRNA-mRNA competing relationships, which may uncover new strategy for treating PC. In summary, we systematically investigated the gain and loss of ceRNAs in PC, which may prove useful for identifying potential biomarkers and therapeutics for PC.
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