Macrocycle synthesis high dilution

The synthesis of five-, six-, and seven-membered cyclic esters or timides uses intramolecular condensations under the same reaction condifions as described for intermolecular reactions. Yields are generally excellent. An example from the colchicine synthesis of E.E. van Ta-melen (1961) is given below. The synthesis of macrocyclic lactones (macrolides) and lactams (n > 8), however, which are of considerable biochemical and pharmacological interest, poses additional problems because of competing intermolecular polymerization reactions (see p. 246ff.). Inconveniently high dilution, which would be necessary to circumvent this side-... 

The intramolecular version for synthesizing cyclic and polycyclic compounds offers a powerful synthetic method for naturally occurring macrocyclic and polycyclic compounds, and novel total syntheses of many naturally occurring complex molecules have been achieved by synthetic designs based on this methodology. Cyclization by the coupling of an enone and alkenyl iodide has been applied to the synthesis of a model compound of l6-membered car-bomycin B 162 in 55% yield. A stoichiometric amount of the catalyst was used because the reaction was carried out under high dilution conditions[132]. 

I E G L E R Macrocyclic synthesis Synthesis ol macrocyclic ketones from dinitnles using high dilution... 

In the course of experiments directed at the synthesis of open-chained equivalents of macrocyclic polyethers (see Chap. 7), Rasshofer and Vogtle found that 9 or its derivatives were formed rather than the desired compounds . Although the yields obtained by this method are modest, the facts that the reaction is conducted without the use of high dilution and in one-pot recommend it. 

Although the first all-sulfur macrocycles were prepared many years ago " the first systematic study of such compounds was initiated by Busch and his coworkers , who were interested in the cation binding properties of such ligands. A sequential synthesis was utilized to produce 1,4,8,11-tetrathiacyclotetradecane [tetrathia-14-crown-4 (70)] . In the first step, 1,3-propanedithiol is metallated using sodium and alkylated with 2-chloroethanol. The diol was then treated with thiourea to form the dimercapto-dithioether compound 9. The latter was once again metallated with sodium and allowed to react with 1,3-dibromopropane. The yield of 70 in the ring closure step, conducted at high dilution in absolute ethanol, was 7.5% after recrystallization. The entire sequence is illustrated in Eq. (6.8) . ... 

Kyba and eoworkers prepared the similar, but not identical compound, 26, using quite a different approach. In this synthesis, pentaphenylcyclopentaphosphine (22) is converted into benzotriphosphole (23) by reduction with potassium metal in THF, followed by treatment with o "t/20-dichlorobenzene. Lithium aluminum hydride reduction of 23 affords l,2-i>/s(phenylphosphino)benzene, 24. The secondary phosphine may be deprotonated with n-butyllithium and alkylated with 3-chlorobromopropane. The twoarmed bis-phosphine (25) which results may be treated with the dianion of 24 at high dilution to yield macrocycle 26. The overall yield of 26 is about 4%. The synthetic approach is illustrated in Eq. (6.16), below. 

Shortly after their first report of all-oxygen bridged cryptands, Dietrich, Lehn and Sauvage reported incorporation of sulfur in the strands. The experimental methods used were essentially similar to those applied in the syntheses of the parent cryptands. As in previous cases, a diacyl chloride was condensed with a diamine under high dilution conditions. In this case, however, the diamine contained sulfur atoms rather than oxygen. The synthesis of compound 5 was accomplished in two stages as illustrated below in Eq. (8.3). The first cyclization step affords the macrocyclic amine in 55% yield. The macrobicyclic product (5) is formed in 25% yield from the monocyclic diamine and the acid chloride. 

Rossa, L., Vogtle, F. Synthesis of Medio- and Macrocyclic Compounds by High Dilution Principle Techniques, 113, 1-86 (1983). 

Additions of carbon nucleophiles to vinylepoxides are well documented and can be accomplished by several different techniques. Palladium-catalyzed allylic alkylation of these substrates with soft carbon nucleophiles (pKa 10-20) proceeds under neutral conditions and with excellent regioselectivities [103, 104]. The sul-fone 51, for example, was cyclized through the use of catalytic amounts of Pd(PPh3)4 and bis(diphenylphosphino)ethane (dppe) under high-dilution conditions to give macrocycle 52, an intermediate in a total synthesis of the antitumor agent roseophilin, in excellent yield (Scheme 9.26) [115, 116]. 

Trost and coworkers137 have reported the polymer-supported palladium catalyzed cyclization of 1, l-bis(phenylsulfonyl)epoxyalkene 235 which gives cycloalkanes 236 and 237 in a 2 1 ratio (equation 143). This method has proven useful for the synthesis of macrocyclic compounds under neutral conditions without using high dilution technique. Temperature and concentrations are critical. The best results are achieved if a reaction mixture of 0.1-0.5 m is added to a preheated (at 65 °C) suspension of the catalyst. 

Intramolecular condensation of phosphonate carbanions with carbonyl groups carried out under conditions of high dilution have been utilized in macrocycle syntheses. Entries 7 and 8 show macrocyclizations involving the Wadsworth-Emmons reaction. Entries 9 to 11 illustrate the construction of new double bonds in the course of a multistage synthesis. The LiCl/amine conditions are used in Entries 9 and 10. 

Synthesis of TTF-phenanthroline macrocycles (e.g., 13) were accomplished in a simple multi-step sequence the macrocyclization procedure was from the 2,9-di(p-hydroxyphenyl)-1,10-phenanthroline with TTF-diiodide under high dilution conditions in the presence of CS2CO3 <00CC215>. 

As recently demonstrated by Furstner and Langemann, higher yields of the disubstituted olefin 83 can be obtained under high dilution conditions using la as the catalyst. Our experiments clearly illustrate that synthesis of trisubstituted macrocyclic alkenes is more complicated than that of their disubstituted analogues. See Furstner A, Langemann K (1996) J Org Chem 61 3942... 

Rossa, L. and Vogtle, F Synthesis of medio- and macrocyclic compounds by high dilution principle techniques, Top. Curr. Chem., 113, 1 (1983). 

Phase-transfer catalysis can be used to mimic high dilution reaction conditions and has been utilized to good effect in the synthesis of large ring lactones [67J. Macrocyclic nitrolactones have also been obtained by rearrangement of 2-(3-hydroxy-propyI)-2-nitrocycloalkanones using a stoichiometric amount of tetra-n-butyl-ammonium fluoride [68]. 

Intramolecular condensation of phosphonate carbanions with carbonyl groups carried out under conditions of high dilution has been utilized in macrocycle synthesis (entries 8 and 9 in Scheme 2.17)... 

The effident synthesis of macrocycles generally requires the use of high dilution conditions in order to depress the formation of oligomers and polymers with respect to the monomer ( High Dilution Principle ) (52, 53). 

Macrocyclic tetrathiafulvalenophanes have recently been prepared (80AG(E)66, 67) by a variation of the synthesis of tetrathiafulvalene (74JOC3608) via a high dilution intramolecular cyclization. 

Macrocyclic lactones. Ireland and Brown1 have adapted the Eschenmoser contraction of sulfides to a synthesis of five- and six-membered lactones. An example is formulated in equation (1). A hydroxy thioamide is esterified to give a chloro ester, which is then treated in sequence with Nal and phosphine I. The inelhod can also be used for preparation of macrocyclic lactones under high-dilution... 

Kyba and co-workers employ multistep synthesis and a high dilution technique88,89 for the final cyclization stage (Scheme 2). By variation of the reactants of the final high dilution stage, various novel macrocycles, e.g. [14]aneP2S2 (10), have been synthesized in yields of 30-60%. Kyba also modified this route to produce an 11-membered series of macrocycles (Scheme 3).90 Kyba et al. have used similar techniques to produce a range of arsine macrocycles. 

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