Synthesis and evaluation of analogs of (Z)-1-(4-methoxyphenyl)-2-(3,4,5-trimethoxyphenyl)ethene as potential cytotoxic and antimitotic agents

Cushman, Mark; Nagarathnam, Dhanapalan; Gopal, Dharshini; He, H.‐M.; Lin, Chii M.; Hamel, Ernest

doi:10.1021/jm00090a021

Cited by 230 publications

(213 citation statements)

References 5 publications

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“…Why only these two agents (4b,7b) cause this block is not known, particularly as no disruption of the intracellular microtubular network was observed even at 50 gIM. In general, these studies are in agreement with the report by Cushman et al (1992) that the cis-methyl and -ethyl derivatives (3a,4a) inhibit tubulin assembly. This present study further characterises the interaction of agents of this type with tubulin.…”

Section: Discussionsupporting

confidence: 92%

“…(d) The 3'-hydroxyl group has a relatively small effect on binding to tubulin (Cushman et al, 1992). (e) The 4'-methoxy group of combretastatin A-4 (1) can be replaced with small hydrophobic groups while still retaining significant activity against tubulin.…”

Section: Discussionmentioning

confidence: 99%

“…Similarly, the effects of these agents on the growth of A2780 human ovarian tumour cells and P388 mouse leukaemia cells, together with their multidrug-resistant sublines, were studied in vitro. This study is complementary to that of Cushman et al (1992). …”

mentioning

confidence: 96%

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The interaction with tubulin of a series of stilbenes based on combretastatin A-4

Woods

Hadfield²,

Pettit³

et al. 1995

Br J Cancer

162

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Summary A series of stilbenes, based on combretastatin A-4, were synthesised. A structure-activity study was carried out to characterise the interaction of these agents with tubulin. The substitution of small alkyl substituents for the 4'-methoxy group of combretastatin A-4 and the loss of the 3'-hydroxyl group does not have a major effect on the interaction with tubulin. trans-Stilbenes were shown to bind tubulin, but do not inhibit microtubule assembly. This work, together with previous studies, has been used to propose (McGown and Fox, 1989). This work also suggested that a bicycic structure, in which two planar rings are tilted at 50-60°to each other, is an important structural feature for binding to the colchicine site on tubulin.The present study was carried out to investigate further the structural features involved in the interaction of combretastatin analogues with tubulin. To this end, a series of 4'-alkyl and fluoroalkyl derivatives of combretastatin ( Figure 2) were synthesised and tested for their interactions with purified tubulin. Similarly, the effects of these agents on the growth of A2780 human ovarian tumour cells and P388 mouse leukaemia cells, together with their multidrug-resistant sublines, were studied in vitro. This study is complementary to that of Cushman et al. (1992). Materials and methods ChemicalsCombretastatin A-4 (1) was synthesised in our laboratories (Pettit et al., 1989). Synthetic intermediates were used as received from Aldrich, Kodak or Lancaster Synthesis. Tetrahydrofuran was dried over calcium hydride and chromatographic solvents were distilled before use. Nuclear magnetic resonance (NMR) spectra were determined on Bruker AC300 or Jeol EX270 spectrometers in deuterochloroform (unless otherwise stated) and are referenced (6) to tetramethylsilane. Electron impact mass spectra were recorded on a VG Trio 2 mass spectrometer at an ionising energy of 70 eV. Melting points were measured on a Kofler block and are uncorrected.

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Section: Discussionsupporting

confidence: 92%

Section: Discussionmentioning

confidence: 99%

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The interaction with tubulin of a series of stilbenes based on combretastatin A-4

Woods

Hadfield²,

Pettit³

et al. 1995

Br J Cancer

162

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“…SAR studies of CA-4 have underlined that the presence of a 3,4,5-trimethoxy-substituted A-ring and 4-methoxy-substituted B-ring separated by a double bond with the cis-configuration are fundamental for anti-proliferative activity [3]. It has also been reported that the 3-hydroxy group on the B-ring is not necessarily determinant for potent activity [63,64]. Cushman et al [64] synthesized a series of 4'-methoxy-3,4,5-trimethoxy-cis-stilbene derivatives where the methoxy group in the B-ring was replaced with a variety of other substituents.…”

Section: Other Synthetic Stilbene Derivatives As Tubulin-interactive mentioning

confidence: 99%

“…It has also been reported that the 3-hydroxy group on the B-ring is not necessarily determinant for potent activity [63,64]. Cushman et al [64] synthesized a series of 4'-methoxy-3,4,5-trimethoxy-cis-stilbene derivatives where the methoxy group in the B-ring was replaced with a variety of other substituents. The most potent tubulin polymerization inhibitor, 4'-methoxy-3,4,5-trimethoxy-cisstilbene, influenced tubulin assembly with an IC 50 of 2.0 M comparable to CA-4.…”

Section: Other Synthetic Stilbene Derivatives As Tubulin-interactive mentioning

confidence: 99%

Tubulin-interactive stilbene derivatives as anticancer agents

Mikstacka

Stefański

Różański

2013

Cellular and Molecular Biology Letters

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Microtubules are dynamic polymers that occur in eukaryotic cells and play important roles in cell division, motility, transport and signaling. They form during the process of polymerization of α- and β-tubulin dimers. Tubulin is a significant and heavily researched molecular target for anticancer drugs. Combretastatins are natural cis-stilbenes that exhibit cytotoxic properties in cultured cancer cells in vitro. Combretastatin A-4 (3′-hydroxy-3,4,4′, 5-tetramethoxy-cis-stilbene; CA-4) is a potent cytotoxic cis-stilbene that binds to β-tubulin at the colchicine-binding site and inhibits tubulin polymerization. The prodrug CA-4 phosphate is currently in clinical trials as a chemotherapeutic agent for cancer treatment. Numerous series of stilbene analogs have been studied in search of potent cytotoxic agents with the requisite tubulin-interactive properties. Microtubule-interfering agents include numerous CA-4 and transresveratrol analogs and other synthetic stilbene derivatives. Importantly, these agents are active in both tumor cells and immature endothelial cells of tumor blood vessels, where they inhibit the process of angiogenesis. Recently, computer-aided virtual screening was used to select potent tubulin-interactive compounds. This review covers the role of stilbene derivatives as a class of antitumor agents that act by targeting microtubule assembly dynamics. Additionally, we present the results of molecular modeling of their binding to specific sites on the α- and β-tubulin heterodimer. This has enabled the elucidation of the mechanism of stilbene cytotoxicity and is useful in the design of novel agents with improved anti-mitotic activity. Tubulin-interactive agents are believed to have the potential to play a significant role in the fight against cancer.

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Tubulin as a target for anticancer drugs: Agents which interact with the mitotic spindle

et al. 1998

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Synthesis and evaluation of analogs of (Z)-1-(4-methoxyphenyl)-2-(3,4,5-trimethoxyphenyl)ethene as potential cytotoxic and antimitotic agents

Cited by 230 publications

References 5 publications

The interaction with tubulin of a series of stilbenes based on combretastatin A-4

The interaction with tubulin of a series of stilbenes based on combretastatin A-4

Tubulin-interactive stilbene derivatives as anticancer agents

Tubulin as a target for anticancer drugs: Agents which interact with the mitotic spindle

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