Carpetimycin

Subsequently, other structural variations were reported encompassing compounds such as PS-5 (5) (5), carpetimycin A (6) (6), asparenomycin A (7) (7), and pluracidomycin A (8) (8), from a wide variety of streptomycete strains. Following these stmctures the simplest member of the series, having the completely unsubstituted nucleus, (1, X = CH2), was isolated from bacterial strains of Serratia and Ervinia (9). AH other natural products reported have substituents at both the C-6 and C-2 positions of the bicycHc ring system. Differences in the nature and stereochemistry of these substituents has provided a wide variety of stmctures, and over forty variations have been reported and comprehensively Hsted (10). 

In the case of thienamycin (Fig. lb) the absolute stereochemistry at C-5 was unambiguously deterrnined from the ene-lactam (16). The resultant (R)-aspartic acid (17) demonstrated that the absolute stereochemistry at C-5 of thienamycin is (R), corresponding to that found in the C-5 position of both penicillins and cephalosporins. Confirmation of the stereochemical assignments in both thienamycin (2) and the olivanic acid MM 13902 (3, n = 0) has been confirmed by x-ray crystallography (19,21,22). The stmctural determination of the nonsulfated derivatives from S. olivaceus (23), PS-5 (5) (5), the carpetimycins (6), and the asparenomycins (7) followed a similar pattern. 

The sulfated compounds MM 13902 (3, n = (5) and MM 17880 (4) are also broad-spectmm agents, but not as potent as thienamycia and all lack any significant activity against Pseudomonas (73). Many carbapenems are excellent inhibitors of isolated P-lactamases, particularly the olivanic acid sulfoxide MM 4550 (3, n = 1) (3). The possible mechanism of action of the carbapenems as inhibitors of P-lactamases has been discussed in some detail (74). Other carbapenems such as PS-5 (5) (75), the carpetimycins (76), asparenomycins (77), and pluracidomycins (8) are all highly active as antibiotics or P-lactamase inhibitors. The parent nucleus itself (1, X = CH2) is intrinsically active, but chemically unstable (9). 

Carbapenems include thienamycin (C11 IlifNyO.iS). MM 4550 (CnHmNsOvS ). MM 13902 (CnHiaNzOsS,). MM 17880 (CnlfsNsOsSz). PS-5 (CnllixNjOjS). carpetimycin A (CmIIisNcOsS). asparenomycin A (CiaH NrOnS), and pluracidomycin A (C7H11NO10S2). 

The development of antibacterial chemotherapy during the past 75 years has spearheaded the successful use of today s drugs to combat bacterial infections. Studies in (3-lactam chemistry were stimulated when (3-lactam ring, the four membered heterocycle, was recognized as a key structural feature as well as a key therapeutic feature of the bicyclic (3-lactam antibiotics such as penicillins, cephalosporins, and other classical antibiotics. The last two decades have registered the discovery of several nonclassical bicyclic (3-lactam antibiotics, e.g., thienamycin and carba-penems of natural origin like olivanic acids, carpetimycin, pluracidomycin, and aspareomycins. 

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