Lv Tang scite author profile

Mimicking different pharmacophoric units into one scaffold is a promising structural modification tool to design new drugs with enhanced biological properties. To continue our research on the tubulin inhibitors, the synthesis and biological evaluation of arylpyridine derivatives (9−29) are described herein. Among these compounds, 6-arylpyridines (13−23) bearing benzo[d]imidazole side chains at the 2-position of pyridine ring displayed selective antiproliferative activities against HT-29 cells. More interestingly, 2-trimethoxyphenylpyridines 25, 27, and 29 bearing benzo[d]imidazole and benzo[d]oxazole side chains displayed more broad-spectrum antitumor activities against all tested cancer cell lines. 29 bearing a 6-methoxybenzo[d]oxazole group exhibited comparable activities against A549 and U251 cells to combretastatin A-4 (CA-4) and lower cytotoxicities than CA-4 and 5-Fu. Further investigations revealed 29 displays strong tubulin polymerization inhibitory activity (IC 50 = 2.1 μM) and effectively binds at the colchicine binding site and arrests the cell cycle of A549 in the G2/M phase by disrupting the microtubules network.

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Discovery of 2‐(3,4‐dialkoxyphenyl)‐2‐(substituted pyridazin‐3‐yl)acetonitriles as phosphodiesterase 4 inhibitors with anti‐neuroinflammation potential based on three‐dimensional quantitative structure–activity relationship study

Huang

Zhong

Tang

et al. 2018

Chem Biol Drug Des

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Phosphodiesterase 4 (PDE4) inhibitors with potential activities for CNS disorders provide a new therapeutic strategy for depression. To discover PDE4 inhibitors with anti‐neuroinflammation activities, reliable three‐dimensional quantitative structure‐activity relationship (3D‐QSAR) models on our previous reported catecholic PDE4 inhibitors was built with a statistically significant cross‐validated coefficient (q2), conventional coefficient (r2), and good predictive capabilities based on the molecular docking results, using comparative molecular field analysis (CoMFA) and comparative molecular similarity index analysis (CoMSIA) methods. Based on the analysis of CoMFA and CoMSIA contour maps, a series of 2‐(3,4‐dialkoxyphenyl)‐2‐(substituted pyridazin‐3‐yl) acetonitriles 16a–i was designed and synthesized. Among these compounds, compound 16a exhibited good inhibitory activities toward PDE4B1 and PDE4D7 with mid‐nanomolar IC50 values and potential anti‐neuroinflammation activity in BV‐2 cells. Docking simulation of compound 16a in the PDE4 catalytic domain activity pocket revealed that compound 16a maybe assumed a “V‐shaped” conformation, extending the side chain to S‐pocket.

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Lv Tang

Discovery of arylbenzylamines as PDE4 inhibitors with potential neuroprotective effect

Synthesis, Biological Evaluation, and Molecular Docking of Arylpyridines as Antiproliferative Agent Targeting Tubulin

Discovery of 2‐(3,4‐dialkoxyphenyl)‐2‐(substituted pyridazin‐3‐yl)acetonitriles as phosphodiesterase 4 inhibitors with anti‐neuroinflammation potential based on three‐dimensional quantitative structure–activity relationship study

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