Publications (2)5.64 Total impact
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Article: Synthesis and structure-activity relationships of benzophenone-bearing diketopiperazine-type anti-microtubule agents.
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ABSTRACT: KPU-105 (4), a potent anti-microtubule agent that contains a benzophenone was derived from the diketopiperazine-type vascular disrupting agent (VDA) plinabulin 3, which displays colchicine-like tubulin depolymerization activity. To develop derivatives with more potent anti-microtubule and cytotoxic activities, we further modified the benzophenone moiety of 4. Accordingly, we obtained a 4-fluorobenzophenone derivative 16j that inhibited tumor cell growth in vitro with a subnanomolar IC(50) value against HT-29 cells (IC(50)=0.5 nM). Next, the effect of 16j on mitotic spindles was evaluated in HeLa cells. Treatment with 3nM of 16j partially disrupted the interphase microtubule network. By contrast, treatment with the same concentration of CA-4 barely affected the microtubule network, indicating that 16j exhibited more potent anti-mitotic effects than did CA-4.Bioorganic & medicinal chemistry 06/2012; 20(14):4279-89. · 2.82 Impact Factor -
Article: Anti-microtubule 'plinabulin' chemical probe KPU-244-B3 labeled both alpha- and beta-tubulin.
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ABSTRACT: Plinabulin (1, NPI-2358), a potent microtubule-targeting agent derived from the natural diketopiperazine 'phenylahistin' with a colchicine-like tubulin depolymerization activity, is an anticancer agent undergoing Phase II clinical trials in four countries including the United States. In order to understand the precise binding mode of plinabulin with tubulin, a new bioactive biotin-tagged photoaffinity probe 4 (KPU-244-B3) was designed and synthesized. Probe 4 showed significant binding affinity to tubulin in a binding assay, and selectively bound to tubulin in an HT-1080 cell lysate without photo-irradiation. In a tubulin photoaffinity labeling study, probe 4 labeled both alpha- and beta-tubulin subunits and these interactions were competitively inhibited by plinabulin during photo-irradiation. These results suggest that plinabulin binds in the boundary region between alpha- and beta-tubulin near the colchicine binding site, and not inside the colchicine binding cavity.Bioorganic & medicinal chemistry 05/2010; 18(9):3169-74. · 2.82 Impact Factor
