Role of the amino sugar in the DNA binding of disaccharide anthracyclines: crystal structure of the complex MAR70/d(CGATCG).

Disaccharide anthracyclines analogues have been shown to exhibit different antitumour activity as compared with parents compounds doxorubicin and daunomycin. Here we report the crystal structure of the disaccharide analog MAR70 complexed with the DNA hexamer d(CGATCG). The structure has been solved at 1.

The crystal structure of the complex between a disaccharide anthracycline and the DNA hexamer d(CGATCG) reveals two different binding sites involving two DNA duplexes.

The crystal structure of the complex formed between the anthracycline antibiotic 3'-deamino-3'- hydroxy-4'-(O-L-daunosaminyl)-4-demethoxydoxo rubicin (MEN 10755), an active disaccharide analogue of doxorubicin, and the DNA hexamer d(CGATCG) has been solved to a resolution of 2.1 A. MEN 10755 exhibits a broad spectrum of antitumor activities, comparable with that of the parent compound, but there are differences in the mechanism of action as it is active in doxorubicin-resistant tumors and is more effective in stimulating topoisomerase DNA cleavage.

Degradation of the morpholino ring in the crystal structure of cyanomorpholinodoxorubicin complexed with d(CGATCG).

The cyanomorpholino analogue of antitumor anthracycline doxorubicin possesses an intense potency and differs from the parent compound in cross-resistance and other biological properties. The induction by cyanomorpholinodoxorubicin of both DNA cross-links and strand scission suggests an altered mode of action relative to doxorubicin with a different DNA-interacting capacity. We have co-crystallized 3'-(3-cyano-4-morpholinyl)-3'-desaminodoxorubicin (CMD) with the DNA hexamer d(CGATCG) and have determined the crystal structure at 0.

Interactions between morpholinyl anthracyclines and DNA. The crystal structure of a morpholino doxorubicin bound to d(CGTACG).

Anthracycline antibiotics daunomycin and adriamycin are among the most widely used in cancer chemotherapy and DNA is believed to be the primary target of their biological action. The crystal structure of a morpholino derivative of adriamycin bound to the DNA hexamer d(CGTACG) has been determined at 1.5 A resolution.

Ternary interactions of spermine with DNA: 4'-epiadriamycin and other DNA: anthracycline complexes.

The recently developed anthracycline 4'-epiadriamycin, an anti-cancer drug with improved activity, differs from adriamycin by inversion of the stereochemistry at the 4'-position. We have cocrystallized 4'-epiadriamycin with the DNA hexamer d(CGATCG) and solved the structure to 1.5 A resolution using x-ray crystallography.

Structure of 11-deoxydaunomycin bound to DNA containing a phosphorothioate.

The anthracyclines form an important family of cancer chemotherapeutic agents with a strong dependence of clinical properties on minor differences in chemical structure. We describe the X-ray crystallographic solution of the three-dimensional structure of the anthracycline 11-deoxydaunomycin plus d(CGTsACG). In this complex, two drug molecules bind to each hexamer duplex.

Structural comparison of anticancer drug-DNA complexes: adriamycin and daunomycin.

The anticancer drugs adriamycin and daunomycin have each been crystallized with the DNA sequence d(CGATCG) and the three-dimensional structures of the complexes solved at 1.7- and 1.5-A resolution, respectively.

The crystal and molecular structure of the alpha-helical nonapeptide antibiotic leucinostatin A.

The crystal and molecular structure of the nonapeptide antibiotic leucinostatin A, containing some uncommon amino acids and three Aib residues, has been determined by x-ray diffraction analysis. The molecule crystallizes in the orthorhombic space group P2(1)2(1)2(1), a = 10.924, b = 17.

Interactions between an anthracycline antibiotic and DNA: molecular structure of daunomycin complexed to d(CpGpTpApCpG) at 1.2-A resolution.

The crystal structure of a daunomycin-d(CGTACG) complex has been solved by X-ray diffraction analysis and refined to a final R factor of 0.175 at 1.2-A resolution.

Interactions of quinoxaline antibiotic and DNA: the molecular structure of a triostin A-d(GCGTACGC) complex.

The crystal structure of a DNA octamer d(GCGTACGC) complexed to an antitumor antibiotic, triostin A, has been solved and refined to 2.2 A resolution by x-ray diffraction analysis. The antibiotic molecule acts as a true bis intercalator surrounding the d(CpG) sequence at either end of the unwound right-handed DNA double helix.

Non-Watson-Crick G.C and A.T base pairs in a DNA-antibiotic complex.

The structure of a DNA octamer d(GCGTACGC) cocrystallized with the bisintercalator antibiotic triostin A has been solved. The DNA forms an unwound right-handed double helix. Four base pairs are of the Watson-Crick type while four are Hoogsteen base pairs, including two A.

A comparison of the structure of echinomycin and triostin A complexed to a DNA fragment.

Two members of the quinoxaline antibiotic family, echinomycin and triostin A, form crystals complexed to a DNA fragment with the sequence d(CpGpTpApCpG). The crystal structure of both complexes was solved by X-ray diffraction to near-atomic resolution. The two structures are similar to each other with differences in some details due to the shorter cross bridge of echinomycin.

The molecular structure of a DNA-triostin A complex.

The molecular structure of triostin A, a cyclic octadepsipeptide antibiotic, has been solved complexed to a DNA double helical fragment with the sequence CGTACG (C, cytosine; G, guanine; T, thymine; A, adenine). The two planar quinoxaline rings of triostin A bis intercalate on the minor groove of the DNA double helix surrounding the CG base pairs at either end. The alanine residues form hydrogen bonds to the guanines.

Molecular structure of an anticancer drug-DNA complex: daunomycin plus d(CpGpTpApCpG).

The structure of the crystalline daunomycin-d(CpGpTpApCpG) complex has been solved by x-ray diffraction analysis. The DNA forms a six-base-pair right-handed double helix with two daunomycin molecules intercalated in the d(CpG) sequences. The daunomycin aglycone chromophore is oriented at right angles to the long dimension of the DNA base pairs and the cyclohexene ring rests in the minor groove.