Lactams approach

Scheme 63 A P-lactam approach to fibrin peptide A protease inhibitors...

Steric hindrance, that is, the introduction of (5)-Me to C-2, while 2 (/ )-OH is retained, makes a positive contribution to the antimmor activity as well as to the tubulin binding ability. This result may have come from the reduced rotation of the side chain, which thus enhances the ratios of bioactive conformers in all con-formers. The preparation of 2 -Me analog was usually undertaken by (3-lactam approach, in which 3-keto-(3-lactam was attacked by a nucleophile to yield stereo-selectively 3-methyl-3-OH (equivalent to the 2 position in paclitaxel) (3-lactam ready for attachment to baccatin core stmcmres. Battaglia et al. prepared a series of 2 (5)-Me of paclitaxel analogs from 10-DAB and 14(3-OH-10-DAB with different C-3 and 3 -A substitutents, and all compounds 6a-e are comparable with or more active than paclitaxel toward A2780 human lung carcinoma in vitro. °... 

This arrangement resembles open chain compounds and the strain of such lactams approaches zero (AHp O). 

Two different groups independendy developed imination—Michael addition—lactamization approaches to 3-amino-3-pyrrohn-2-ones. Palacios reported that the treatment of a-ketoester 321 with two equivalents of p-methylaniline (322) in the presence Ti(OEt)4 and sulfuric acid gives the... 

Lactams can also be polymerized under anhydrous conditions by a cationic mechanism initiated by strong protic acids, their salts, and Lewis acids, as weU as amines and ammonia (51—53). The complete reaction mechanism is complex and this approach has not as yet been used successfully in a commercial process. 

An additional mole of ammonium sulfate per mole of final lactam is generated duting the manufacture of hydroxylamine sulfate [10039-54-0] via the Raschig process, which converts ammonia, air, water, carbon dioxide, and sulfur dioxide to the hydroxylamine salt. Thus, a minimum of two moles of ammonium sulfate is produced per mole of lactam, but commercial processes can approach twice that amount. The DSM/Stamicarbon HPO process, which uses hydroxylamine phosphate [19098-16-9] ia a recycled phosphate buffer, can reduce the amount to less than two moles per mole of lactam. Ammonium sulfate is sold as a fertilizer. However, because H2SO4 is released and acidifies the soil as the salt decomposes, it is alow grade fertilizer, and contributes only marginally to the economics of the process (145,146) (see Caprolactam). 

The development of new antibiotics to combat resistance, and to provide easier oral administration and improved pharmacokinetics has been successful through synthetic modifications. This approach has been particularly rewarding in the area of P-lactams. The commercial importance of the P-lactams is evident from Table 3 which gives the market share of antibacterials. Fully 62% of the 1989 world antibacterial market belonged to the cephalosporin and penicillin P-lactams (20). 

Cross-linked PVP can also be obtained by cross-linking the preformed polymer chemically (with persulfates, hydrazine, or peroxides) or with actinic radiation (63). This approach requires a source of free radicals capable of hydrogen abstraction from one or another of the labile hydrogens attached alpha to the pyrrohdone carbonyl or lactam nitrogen. The subsequently formed PVP radical can combine with another such radical to form a cross-link or undergo side reactions such as scission or cyclization (64,65), thus ... 

In the period up to 1970 most P-lactam research was concerned with the penicillin and cephalosporin group of antibiotics (1). Since that time, however, a wide variety of new mono- and bicychc P-lactam stmctures have been described. The carbapenems, characterized by the presence of the bicychc ting systems (1, X = CH2) originated from natural sources the penem ring (1, X = S) and its derivatives are the products of the chemical synthetic approach to new antibiotics. The chemical names are 7-oxo-(R)-l-a2abicyclo[3.2.0]hept-2-ene-2-carboxyhc acid [78854-41-8] CyH NO, and 7-oxo-(R)-4-thia-l-a2abicyclo[3.2.0]hept-2-ene-2-carboxylic a.cid [69126-94-9], C H NO S, respectively. 

A second method makes use of the lactone (31) from acetone dicarboxylate (40) and for which a synthesis from (—)-carvone has been reported (41). Displacement of chlorine from the 6-aminopenici11anic acid (6-APA) derived P-lactam (32) by (33) illustrates yet another approach to the dia2oketone (28) (42). 

Other approaches to (36) make use of (37, R = CH ) and reaction with a tributylstannyl allene (60) or 3-siloxypentadiene (61). A chemicoen2ymatic synthesis for both thienamycia (2) and 1 -methyl analogues starts from the chiral monoester (38), derived by enzymatic hydrolysis of the dimethyl ester, and proceeding by way of the P-lactam (39, R = H or CH ) (62,63). (3)-Methyl-3-hydroxy-2-methylpropanoate [80657-57-4] (40), C H qO, has also been used as starting material for (36) (64), whereas 1,3-dipolar cycloaddition of a chiral nitrone with a crotonate ester affords the oxa2ohdine (41) which again can be converted to a suitable P-lactam precursor (65). 

One approach to combating antibiotic resistance caused by P-lactamase is to inhibit the enzyme (see Enzyme inhibition). Effective combinations of enzyme inhibitors with P-lactam antibiotics such as penicillins or cephalosporins, result in a synergistic response, lowering the minimal inhibitory concentration (MIC) by a factor of four or more for each component. However, inhibition of P-lactamases alone is not sufficient. Pharmacokinetics, stability, ability to penetrate bacteria, cost, and other factors are also important in determining whether an inhibitor is suitable for therapeutic use. Almost any class of P-lactam is capable of producing P-lactamase inhibitors. Several reviews have been pubUshed on P-lactamase inhibitors, detection, and properties (8—15). 

The first /3 -lactam was produced by addition of a ketene to an imine and there are now many examples of this type of approach. The ketenes are most frequently generated in situ from acid chlorides by dehydrohalogenation, but have also been produced from diazo ketones, by heating of alkoxyacetylenes and in the case of certain cyanoketenes by thermolysis of the cyclic precursors (162) and (163). 

There are several mechanistically related ring expansion reactions of cyclopropanones which lead to /3-lactams. The conversion of cyclopropanone to /3-lactam (174) via the cyclopropanolamine (173) (75JOC1505) is just one modification, but it illustrates the strategy of this type of approach (73TL4855, 69JA2375) which has been applied to the synthesis of 3-amino-nocardicinic acid (81JOC2999). 

A third approach to 3-amino-/3-lactams is by Curtius rearrangement of the corresponding acyl azides. These are readily prepared from r-butyl carbazides, available via photochemical ring contraction of 3-diazopyrrolidine-2,4-diones in the presence of f-butyl carbazate (c/. Section 5.09.3.3.2). Thus treatment of (201) with trifluoroacetic acid followed by diazotiz-ation gives the acyl azide (202) which, in thermolysis in benzene and subsequent interception of the resulting isocyanate with r-butanol, yields the protected 3-amino-/3-lactam (203) (73JCS(P1)2907). 

At Smith Kline French a general approach to cephalosporin and penicillin nuclear analogs was developed that utilizes a monocyclic /3-lactam (59) with the correct cis stereochemistry as a key intermediate. This is prepared by reaction of the mixed anhydride of azidoacetic acid and trifluoroacetic acid with imine (58) followed by oxidative removal of the dimethoxybenzyl group. This product could be further elaborated to intermediate (60) which, on reaction with a -bromoketones, provides isocephalosporins (61). These nuclear analogs displayed antibacterial properties similar to cephalosporins (b-79MI51000). 

An elegant approach to fluonnated (3-lactams starts with a Reformatshi reaction of alky] halodifluoroacetates on imines, followed by an intramolecular acyla non of the ammo function formed in situ [49] (equation 24)... 

The preparation of enamines by reduction of aromatic heterocyclic bases and their quaternary salts or of lactams is not the most useful approach (97). The lithium aluminum hydride reduction of N-acyl enamines has been used with both fruitful and unsuccessful results. A series of 3-N-acetyl -d -cholestenes (104) has been prepared by desulfurization of the appropriate thiazolidine (105) (98,99). Lithium aluminum hydride reduction of the... 

A radical approach to asymmetnc iildol synthesis, which is based on the radical addition of a chiral hydroxyalkyl radical equivalent to a tutroalkene, has been reported, as shown in Eq 4 93 The radical precursor is prepared from the corresponding carboxyhc acid by the Barton reaction, which has been used for synthesis of new fi-lactams ... 

One alternative strategy is to use metabolic inhibitors. Although this approach has not been used with the P-lactams, it is worthwhile bearing in mind as a possibility. It has been used in the production of tetracyclines. 

The concentration of the lactam in the final product is determined by (3.11). Cyclic dimers can also form, and these also take part in the polymerization12 the reactions are acid catalyzed. The kinetics of this ring-opening polymerization with the three reactions in (3.10)—(3.12) is complex. The reaction rate constants and equilibrium constants have been described by several authors,5 6,8,12 28 and more pragmatic approaches for describing the reaction kinetics have also been given.28,31,33... 

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