Structure of neooxazolomycin,an antitumor antibiotic

Based on the spectroscopic analysis and correlation with the degradation products of oxazolomycin, the structure of neooxazolomycin has been elucidated.     

Chemical and biological modification of bleomycin,an antitumor antibiotic

Dedicated to Professor John C. Sheehan on the occasion of his sixty-fifth birthday. Chemical and biological modifications of bleomycin, an antitumor glycopeptide antibiotic, have been achieved by three procedures analogous to the modifications of penicillin.     

Total synthesis of an antitumor antibiotic,Fostriecin (CI-920)

The total synthesis of an antitumor antibiotic, fostriecin (CI-920), via a highly convergent route is described. A characteristic feature of the present total synthesis is that the synthesis was achieved via a coupling procedure of three segments A, B, and C. The unsaturated lactone moiety of fostriecin, corresponding to segment A, was constructed from a known Horner-Emmons reagent, and the stereochemistry of the C-5 position was introduced by asymmetric reduction with (R)-BINAl-H. Segment B having a series of stereogenic centers was synthesized from (R)-malic acid and the stereogenic centers at the C-8 and C-9 positions were prepared by a combination of Wittig reaction and Sharpless asymmetric dihydroxylation reaction. The conjugated Z,Z,E-triene moiety of fostriecin, corresponding to segment C, was eventually constructed by Wittig reaction and Stille coupling reaction. The phosphate moiety, which is known to be essentially important for the antitumor activity, was introduced via two routes: (i) direct phosphorylation of the monohydroxyl derivative in which other hydroxyl groups are protected with silyl groups; (ii) cyclic phosphorylation and selective cleavage of the cyclic phosphate derivative. Although the former route is basically the same as those reported by other groups, the latter route is novel and more effective than the former one. The present total synthesis would serve as a versatile synthetic route to not only fostriecin, but also its various analogues including stereoisomers.     

Synthesis of guanine 7-oxide,an antitumor antibiotic from streptomyces species

The first synthesis of the antitumor antibiotic guanine 7-oxide (VI) has been achieved via a 4-step route starting from phenacyl bromide (I) and the nitropyrimidone III and proceeding through the intermediates IVe and Ve.     

Structure determination of lavendamycin- a new antitumor antibiotic from streptomyces lavendulae

The structure elucidation of lavendamycin (1a), a new antitumor antibiotic related to streptonigrin (2) is described. The NMR spectra of 1a and several model compounds 3,4 < and 5a-b are also discussed.     

The structure of tetronolide,the aglycone of antitumor antibiotic tetrocarcin

X-ray analysis has determined the structure of tetronolide, which has a unique spiro γ-lactone group.     

Acid-accelerated DNA-cleaving activities of antitumor antibiotic varacin

It is demonstrated in this report that the authentic molecular structure of antibiotic varacin is capable of causing DNA-cleavage with high efficiency in the presence of thiols. In addition, it is found that the DNA-cleaving activity by varacin is apparently promoted by its acidic environments.     

The first total synthesis of lactonamycin, a hexacyclic antitumor antibiotic

The total synthesis of lactonamycin has been achieved. The synthesis includes sequential intramolecular conjugate addition of alcohols to the acetylenic ester, stereoselective glycosylation of the tertiary alcohol, and Michael-Dieckmann type cyclization with the thioester, by which the highly convergent route has been established.     

Total synthesis of landomycin A, a potent antitumor angucycline antibiotic

The first total synthesis of landomycin A, the longest and most potent antitumor angucycline antibiotic, has been achieved in 63 steps and 0.34% overall yield starting from 2,5-dihydroxybenzoic acid, 3,5-dimethylphenol, triacetyl d-glucal, and d-xylose, with a convergent linear sequence of 21 steps.     

Enantioselective total synthesis of a potent antitumor antibiotic, fredericamycin A.

The asymmetric total synthesis of both enantiomers of the potent antitumor antibiotic fredericamycin A (1) is detailed based on the protocol for the construction of its peri-hydroxy polyaromatic skeleton bearing the chirality at the spiro carbon via a strong base-induced cycloaddition of suitably substituted homophthalic anhydrides (AB-ring unit) with an optically active CDEF-ring unit. Particular attention has been given to the novel synthesis of the optically active spiro carbon center by a stereospecific rearrangement of optically active benzofuzed-trans-epoxy acylates leading to spirocyclopentane-1,1'-indane systems. This method is quite useful for the construction of an optically active spiro compound and was applied to the synthesis of the optically pure CDEF-ring unit of 1. Cycloaddition of the optically pure CDEF-ring unit to AB-ring units prepared via benzyne afforded two natural and unnatural-type hexacyclic compounds, which were converted to natural and unnatural enantiomers of synthetic 1, and the absolute configuration of natural 1 was determined as S.     

Isolation,chemical characterization and structure of ansamitocin,a new antitumor ansamycin antibiotic

In this paper we report the isolation, chemical characterization and structural elucidation of Ansamitocin, a new antitumor antibiotic obtained from Nocardia No. C-15003 (N-1). Ansamitocin P-3, P-3' and P-4 with molecular formulae C₃₂H₄₃ClN₂O₉, C₃₂H₄₃ClN₂O₉ and C₃₃H₄₅ClN₂O₉, respectively, were identified as novel antibiotics. Their UV spectra resemble that of maytansine obtained from a plant source. Analysis of the PMR spectrum and spin-decoup studies of P-3 demonstrated that its skeletal structure was the same as that of maytansine. Reductive cleavage of each antibiotic gave maytansinol (P-0). Alkali hydrolysis of P-3, P-3' and P-4 gave isobutyric, butyric and isovaleric acids, respectively. P-3, P-3' and P-4 were concluded to be the isobutyrate, butyrate and isovalerate ester of maytansinol at C-3, respectively. An antitumor plant product, maytanacine, and its semisynthetic derivative, maytansinol propionate, were also produced by the same strain.     

Structure determination of purpuromycin,a new antibiotic

From a culture broth of Actinoplanes ianthinogenes a red crystalline product was isolated displaying activity against bacteria and fungi. The structure of the new antibiotic, named purpuromycin, was established on the basis of chemico-physical evidences and chemical degradations. The product resulted to be structurally related to rubromycins, a group of antibiotics previously isolated from Streptomyces collinus.