Macrolides Alcohol

In an attempt to synthesize the macrolide antibiotic chlorothricolide, an unhindered —COOH group was selectively protected, in the presence of a hindered —COOH group, as a MEM ester that was then reduced to an alcohol group. ... 

A related method was applied in the course of synthesis of a precursor of a macrolide antibiotic, protomycinolide IV. The migrating group was an a-trimethylsilylalkenyl group.68 In this procedure, the DiBAlH first reduces the ketone and then, after rearrangement, reduces the aldehyde to a primary alcohol. 

Specific concomitant medications or consumptions (check specific statin package insert for warnings) fibrates (especially gemfibrozil, but other fibrates too), nicotinic acid (rarely), cyclosporine, azole antifungals such as itraconazole and ketoconazole, macrolide antibiotics such as erythromycin and clarithromycin, protease inhibitors used to treat Acquired Immune Deficiency Syndrome, nefazodone (antidepressant), verapamil, amiodarone, large quantities of grapefruit juice (usually more than 1 quart per day), and alcohol abuse (independently predisposes to myopathy)... 

The hydroxy groups in natural products like, for example, the macrolide antibiotics erythromycin, 1"1 and desmycosin, 2001 2011 as well as the 3-(hydroxymethyl)-2- or 3-cephems 2021 and derivatives of the amino sugar garamin 2031 have been converted into the carbamate function with CDI and amines. In the case of aminoglycoside antibiotics of the sisomicin series, thiocarbamates or dithiocarbamates have been prepared from alcohols or thiols using ImCSIm and amines.12041... 

Four macrolides, 11-undecanolide (12-membered,UDL) [85,86], 12-dodeca-nolide (13-membered,DDL) [86,87], 15-pentadecanolide (16-membered, PDL) [85,86,88,89], and 16-hexadecanolide (17-membered, HDL) [90], were subjected to the lipase-catalyzed polymerization. For the polymerization of DDL, lipases CC, PC, PF, and PPL showed the high catalytic activity and the activity order in the bulk polymerization was as follows lipase PC > lipase PF > lipase CC> PPL. These enzymes were also active for the polymerization of other macrolides. NMR analysis showed that the terminal structure of the polymer was of carboxylic acid at one end and of alcohol at the other terminal. 

The telomer of nitroethane, 134, was used for the synthesis of 11-hydroxy-8-frans-dodecenoic acid (135) (125). Apparently, the internal double bond of 134 must have a trans configuration from a mechanistic consideration. The nitro group was converted to alcohol via ketone, and the two-carbon homologation was carried out from the terminal double bond. This acid is converted to recifeiolide (136), a naturally occurring macrolide. 

An alternative disconnection of homopropargylic alcohols substrates for intramolecular hydrosilylation is the opening of an epoxide with an alkynyl anion. This strategy was employed in a total synthesis of the macrolide RK-397 (Scheme 20). Epoxide ring opening serves to establish homopropargylic alcohol C with the appropriate stereochemistry. A hydrosilylation/oxidation protocol affords the diol E after liberation of the terminal alkyne. The... 

In connection with the synthetic work directed towards the total synthesis of polyene macrolide antibiotics -such as amphotericin B (i)- Sharpless and Masamune [1] on one hand, and Nicolaou and Uenishi on the other [2], have developed alternative methods for the enantioselective synthesis of 1,3-diols and, in general, 1, 3, 5...(2n + 1) polyols. One of these methods is based on the Sharpless asymmetric epoxidation of allylic alcohols [3] and regioselective reductive ring opening of epoxides by metal hydrides, such as Red-Al and DIBAL. The second method uses available monosaccharides from the "chiral pool" [4], such as D-glucose. 

The first total synthesis of the marine macrolide leucascandrolide A relied upon the use of two key hydroformylahon reactions [25]. Yb(OTf)3-catalyzed oxymercuration of homoallylic alcohol 46 provided organomercurial 47, which was hydroformylated to give... 

Drugs that may affect benzodiazepines include alcohol/CNS depressants, cimetidine, oral contraceptives, disulfiram, isoniazid, probenecid, rifampin, smoking, theophyllines, and macrolides. 

Other procedures using TPAP/NMO/PMS/CH Cl include steps in the synthesis of (+)-altholactone (lactol to lactone) [78] antheliolide A [168] the AChE inhibitor (+)-arisugacin A and B (primary alcohol to aldehyde step also) [83] the marine macrolide amphidinolide T1 [169] the alkaloid (+)-batzelladine D cf. mech. 

With the important exception of additive effects when combined with other CNS depressants, including alcohol, BZDs interact with very few drugs. Disulfiram (see the section The Alcoholic Patient in Chapter 14) and cimetidine may increase BZD blood levels, and diazepam may increase blood levels of digoxin and phenytoin. Antacids may reduce the clinical effects of clorazepate by hindering its biotransformation to desmethyidiazepam. Coadministration of a BZD and another drug known to induce seizures may possibly increase seizure risk, especially if the BZD is abruptly withdrawn. Furthermore, as noted earlier, important interactions have been reported among nefazodone, erythromycin, troleandomycin, and other macrolide antibiotics, as well as itraconazole. In each case, metabolism is inhibited, and triazolam levels can increase significantly. 

The Pd(0)-catalysed carbonylation of benzyl chloride proceeds under atmospheric pressure in a two-phase system utilizing the water-soluble phosphine to give phenylacetic acid (461) [227]. In the total synthesis of the macrolide curvularin (465), the Pd-catalysed carbonylation of the benzyl chloride 462 in the presence of the alcohol 463 to give the ester 464 has been applied [228]. Phenylacetic acid (461) is produced commercially by Co2(CO)8-catalysed carbonylation of benzyl chloride. The Co2(CO)8-catalysed double carbonylation of benzyl chloride using Ca(OH)2 as a base gives phenylpyruvic acid (466) with high selectivity [229]. Selection of solvents is important. DME is a good solvent, whereas MeOH is not satisfactory. 

This use of 1 as a carbonyl synthon has been extended to a synthesis of macrolides by use of a long-chain alcohol for the acylation step, followed by Pd(0)-catalyzed cyclization and deblocking (equation II). 

Since ketene is probably the intermediate of the Wolff rearrangement, the choice of solvents dictates the nature of the product. Indeed, water gave carboxylic acids, whereas alcohols or amines led to esters and amides, respectively. These combinations have been applied to the synthesis of more complex molecules. For example, the total synthesis of carbonolide B, a 16-membered macrolide antibiotic, relied on Amdt-Eistert homologation. In this sequence, a protected furanuronic acid was transformed to the corresponding a-diazoketone, which was then converted to its homologous carboxylic ester. The reaction was achieved using catalytic amounts of silver benzoate and excess of triethylamine in methanol (Scheme 3.4).11... 

In the presence or absence of a copper catalyst, O-arylation of alcohols and phenols by Ph3Bi(OAc)2 proceeds to give the corresponding aryl ethers.196-198 The monophenylation of m-l,2-cyclopentanediol with Ph3Bi(OAc)2 in the presence of a Cu(n) complex bearing a chiral triamine or diamine ligand affords an a-hydroxy phenyl ether with moderate enantiomeric excesses up to 38% (Equation (127)).199 The copper-catalyzed O-arylation has been success-fully applied to the synthesis of immunosuppressive macrolides. 

The samarium-catalyzed reduction was utilized in the asymmetric synthesis of the marine macrolide bryostatin 2 (42) to furnish an intermediate (46)12 (Scheme 4.21). The ketone 43 underwent an aldol reaction with the ketoaldehyde 44 via the isopinylboryl enolate to give the aldol adduct 45 in good yield and 93 7 diastereoselectivity. Subsequent samarium-catalyzed Evans-Tishchenko reduction of the (3-hydroxy ketone 45 provided the p-nilrobenzoale 46 with excellent stereoselectivity. Silylation and saponification readily converted compound 46 into the alcohol 47 in 88% yield over two steps. 

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