排序方式: 共有134条查询结果,搜索用时 0 毫秒
1.
Yen-Ling Wang Chun-Yuan Lin Kuei-Chung Shih Jui-Wen Huang Chuan-Yi Tang 《Bioorganic & medicinal chemistry letters》2013,23(23):6286-6291
Damage to DNA is caused by ionizing radiation, genotoxic chemicals or collapsed replication forks. When DNA is damaged or cells fail to respond, a mutation that is associated with breast or ovarian cancer may occur. Mammalian cells control and stabilize the genome using a cell cycle checkpoint to prevent damage to DNA or to repair damaged DNA. Checkpoint kinase 2 (Chk2) is one of the important kinases, which strongly affects DNA-damage and plays an important role in the response to the breakage of DNA double-strands and related lesions. Therefore, this study concerns Chk2. Its purpose is to find potential inhibitors using the pharmacophore hypotheses (PhModels) and virtual screening techniques. PhModels can identify inhibitors with high biological activities and virtual screening techniques are used to screen the database of the National Cancer Institute (NCI) to retrieve compounds that exhibit all of the pharmacophoric features of potential inhibitors with high interaction energy. Ten PhModels were generated using the HypoGen best algorithm. The established PhModel, Hypo01, was evaluated by performing a cost function analysis of its correlation coefficient (r), root mean square deviation (RMSD), cost difference, and configuration cost, with the values 0.955, 1.28, 192.51, and 16.07, respectively. The result of Fischer’s cross-validation test for the Hypo01 model yielded a 95% confidence level, and the correlation coefficient of the testing set (rtest) had a best value of 0.81. The potential inhibitors were then chosen from the NCI database by Hypo01 model screening and molecular docking using the cdocker docking program. Finally, the selected compounds exhibited the identified pharmacophoric features and had a high interaction energy between the ligand and the receptor. Eighty-three potential inhibitors for Chk2 are retrieved for further study. 相似文献
2.
Zhengui Huang Kejiang Lin Qidong You 《Bioorganic & medicinal chemistry letters》2013,23(14):4166-4171
As increasing drug-resistance poses an emerging threat to public health, the development of novel antibacterial agents is critical. We developed a workflow consisting of various methods for de novo design. In the workflow, 2D-QSAR model based on molecular fingerprints was constructed to extract the bioactive molecular fingerprints from a data set of DNA–gyrase inhibitors with new structure and mechanism. These fingerprints were converted into molecular fragments which were recombined to generate compound library. The new compound library was virtually screened by LigandFit and Gold docking, and the results were further investigated by pharmacophore validation and binding mode analysis. The workflow successfully achieved a potential DNA–gyrase inhibitor. It could be applied to design more novel potential DNA–gyrase inhibitors and provide theoretical basis for further optimization of the hit compounds. 相似文献
3.
Igor F. Tsigelny Valentina L. Kouznetsova Nilima Biswas Sushil K. Mahata Daniel T. O’Connor 《Bioorganic & medicinal chemistry》2013,21(18):5855-5869
The endogenous catecholamine release-inhibitory peptide catestatin (CST) regulates events leading to hypertension and cardiovascular disease. Earlier we studied the structure of CST by NMR, molecular modeling, and amino acid scanning mutagenesis. That structure has now been exploited for elucidation of interface pharmacophores that mediate binding of CST to its target, with consequent secretory inhibition. Designed pharmacophore models allowed screening of 3D structural domains. Selected compounds were tested on both cultured catecholaminergic cells and an in vivo model of hypertension; in each case, the candidates showed substantial mimicry of native CST actions, with preserved or enhanced potency and specificity. The approach and compounds have thus enabled rational design of novel drug candidates for treatment of hypertension or autonomic dysfunction. 相似文献
4.
Butyrylcholinesterase (BChE) is recently considered as a new target for the treatment of Alzheimer’s disease (AD). There is an increasing interest in the development of BChE inhibitors. In the present study, a set of pharmacophore models for BChE was developed and validated. Based on the models, virtual screening was performed on five compound collections, from which seventeen potential hits were retained for biological investigation. In total, eight of these seventeen potential hits showed selective BChE inhibitory activity. Moreover, four compounds displayed IC50 values in sub-micromolar range on eqBChE and three displayed IC50 values < 2 μM on huBChE. The diverse scaffolds of the active compounds provided good starting point further development of selective BChE inhibitors. As far as we concerned, here we disclose the first selective pharmacophore model targeting BChE. The high rate of the model in the identification of active hits indicates it is a valuable tool for the development of selective BChE inhibitors, which may benefit the treatment of AD. 相似文献
5.
6.
Takasawa R Tao A Saeki K Shionozaki N Tanaka R Uchiro H Takahashi S Yoshimori A Tanuma S 《Bioorganic & medicinal chemistry letters》2011,21(14):4337-4342
The human glyoxalase I (hGLO I), which is a rate-limiting enzyme in the pathway for detoxification of apoptosis-inducible methylglyoxal (MG), has been expected as an attractive target for the development of new anti-cancer drugs. We have previously identified a natural compound myricetin as a substrate transition-state (Zn2+-bound MG-glutathione (GSH) hemithioacetal) mimetic inhibitor of hGLO I. Here, we constructed a hGLO I/inhibitor 4-point pharmacophore based on the binding mode of myricetin to hGLO I. Using this pharmacophore, in silico screening of chemical library was performed by docking study. Consequently, a new type of compound, which has a unique benzothiazole ring with a carboxyl group, named TLSC702, was found to inhibit hGLO I more effectively than S-p-bromobenzylglutathione (BBG), a well-known GSH analog inhibitor. The computational simulation of the binding mode indicates the contribution of Zn2+-chelating carboxyl group of TLSC702 to the hGLO I inhibitory activity. This implies an important scaffold-hopping of myricetin to TLSC702. Thus, TLSC702 may be a valuable seed compound for the generation of a new lead of anti-cancer pharmaceuticals targeting hGLO I. 相似文献
7.
8.
Iman Azimi Jack U. Flanagan Ralph J. Stevenson Marco Inserra Irina Vetter Gregory R. Monteith William A. Denny 《Bioorganic & medicinal chemistry》2017,25(1):440-449
The Orai1 Ca2+ permeable ion channel is an important component of store operated Ca2+ entry (SOCE) in cells. It’s over-expression in basal molecular subtype breast cancers has been linked with poor prognosis, making it a potential target for drug development. We pharmacologically characterised a number of reported inhibitors of SOCE in MDA-MB-231 breast cancer cells using a convenient Fluorescence Imaging Plate Reader (FLIPR) assay, and show that the rank order of their potencies in this assay is the same as those reported in a wide range of published assays. The assay was also used in a screening project seeking novel inhibitors. Following a broad literature survey of classes of calcium channel inhibitors we used simplified ligand structures to query the ZINC on-line database, and following two iterations of refinement selected a novel Orai1-selective dichlorophenyltriazole hit compound. Analogues of this were synthesized and evaluated in the FLIPR assay to develop structure–activity relationships (SAR) for the three domains of the hit; triazole (head), dichlorophenyl (body) and substituted phenyl (tail). For this series, the results suggested the need for a lipophilic tail domain and an out-of-plane twist between the body and tail domains. 相似文献
9.
Chen SB Tan JH Ou TM Huang SL An LK Luo HB Li D Gu LQ Huang ZS 《Bioorganic & medicinal chemistry letters》2011,21(3):1004-1009
Discovery of potent and selective ligands for telomeric G-quadruplex DNA is a challenging work. Through a combination approach of pharmacophore model construction, model validation, database virtual screening, chemical synthesis and interaction evaluation, we discovered and confirmed triaryl-substituted imidazole TSIZ01 to be a new telomeric G-quadruplex ligand with potent binding and stabilizing activity to G-quadruplex DNA, as well as a 8.7-fold selectivity towards telomeric G-quadruplex DNA over duplex DNA. 相似文献
10.
In the present study, the pharmacophore integration methodology provided an efficient access to a new library of thioxothiazolidinone–sulfonate conjugates (8a–r) from easily available synthetic precursors. The approach was excellently high yielding with flexible structural sites for chemical modifications. The designed hybrid scaffolds were assessed for aldehyde/aldose reductase inhibition activities. The results for the in vitro bioassays were promising with the identification of compound 8e as the lead and selective candidate for ALR2 inhibition with an IC50 value of 0.468 ± 0.003 µM as compared to 3.1 ± 0.2 µM for the standard (sorbinil), whereas compound 8o demonstrated high inhibitory potency for both ALR2 and ALR1 enzymes. Molecular modeling analysis of the potent compounds provided further insight into the biological properties where detailed binding mode analysis revealed that the conjugates (8a–r) were found stabilized in the active site of the enzymes through the development of a number of interactions with catalytic residues. 相似文献