184297-49-2Relevant academic research and scientific papers
Total synthesis of the potent microtubule-stabilizing agent (+)-discodermolide
Harried, Scott S.,Lee, Christopher P.,Yang,Lee, Tony I. H.,Myles, David C.
, p. 6646 - 6660 (2007/10/03)
The total synthesis of the potent microtubule-stabilizing, antimitotic agent (+)-discodermolide is described. The convergent synthetic strategy takes advantage of the diastereoselective alkylation of a ketone enolate to establish the key C15-C16 bond. The synthesis is amenable to preparation of gram-scale quantities of (+)-discodermolide and analogues.
Synthesis of epothilones, intermediates thereto, analogues and uses thereof
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Figure 8, (2010/01/31)
The present invention provides convergent processes for preparing epothilone A and B, desoxyepothilones A and B, and analogues thereof. Also provided are analogues related to epothilone A and B and intermediates useful for preparing same. The present invention further provides novel compositions based on analogues of the epothilones and methods for the treatment of cancer and cancer which has developed a multidrug-resistant phenotype.
Total Synthesis of Epothilones A and B
Dongfang, Meng,Bertinato, Peter,Balog, Aaron,Su, Dai-Shi,Kamenecka, Ted,et al.
, p. 10073 - 10092 (2007/10/03)
Convergent, stereocontrolled total syntheses of the microtubule-stabilizing macrolides epothilones A (2) and B (3) have been achieved. Four distinct ring-forming strategies were pursued (see Scheme 1). Of these four, three were reduced to practice. In one approach, the action of a base on a substance possessing an acetate ester and a nonenolazable aldehyde brought about a remarkably effective macroaldolization see (89 -> 90 + 91; 99 -> 100 + 101), simultaneously creating the C2-C3 bond and the hydroxyl-bearing stereocenter at C-3. Alternatively, the 16-membered macrolide of the epothilones could be fashioned through a C12-C13 ring-closing olefin metathesis (e.g. see 111 -> 90 + 117; 122 -> 105 + 123) and through macrolactonization of the appropriate hydroxy acid (e.g. see 88 -> 93). The application of a stereospecific B-alkyl Suzuki coupling strategy permitted the establishment of a cis-C12-C13 olefin, thus setting the stage for an eventual site- and diastereoselective epoxidation reaction (see 96 -> 2; 106 -> 3). The development of a novel cyclopropane solvolysis strategy for incorporating the geminal methyl groups of the epothilones (see 39 -> 40 -> 41), and the use of Lewis acid catalyzed diene-aldehyde cyclocondensation (LACDAC) (see 35 + 36 -> 37) and asymmetric allylation (see 10 -> 76) methodology are also noteworthy.
