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1998 | 45 | 1 |

Tytuł artykułu

The geometry of intercalation complex of antitumor mitoxantrone and ametantrone with DNA: Molecular dynamics simulations

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Intercalative binding of the antitumor drugs ametantrone and mitoxantrone to the dodecamer duplex d(CGCGAGCTCGCG)2 was studied by applying molecular dynamics in water with the GROMOS 87 force field. A number of reasonable binding orientations were tested by short pre-simulations. It was shown that in energetically favorable orientation the anthraquinone chromophore is perpendicular to the direction of inter-base hydrogen bonds. Helically shaped side-chains of the drugs fit to the minor groove. The best orientation obtained in pre-simulations was applied in the main simulations. Small but significant differences were found between structures of intercalation complexes of the two drugs with the dodecamer duplex, the mitoxantrone complex possessing more favorable energy. The molecular nature of interactions responsible for those differences has been discussed.

Wydawca

-

Rocznik

Tom

45

Numer

1

Opis fizyczny

p.1-11,fig.

Twórcy

autor
  • Technical University of Gdansk, G.Narutowicza 11-12, 80-952 Gdansk, Poland
autor
autor

Bibliografia

  • 1. Cheng, C.C. & Zee-Cheng, R.K.Y. (1983) The design, synthesis, and development of a new class of potential antineoplastic anthraqui- nones; in Progress of Medicinal Chemistry (El­lis, G.P. & West, G.B., eds.) pp. 83-118, El­sevier, Amsterdam, and references cited therein.
  • 2. Zee-Cheng, R.K.Y. & Cheng, C.C. (1978) Anti­neoplastic agents. Structure-activity relation­ship study of bis(8ubstituted aminoalkylo- amino)anthraquinones. J. Med. Chem. 21, 291-294.
  • 3. Zee-Cheng, R.K.Y., Podrebarac, E.G., Menon, C.S. & Cheng, C.C. (1979) Structural modifica­tion study of bis(substituted aminoalkylo- amino)anthraquinones. An evaluation of the relationship of the [2-[(2-hydroxyethyl)ami- nolethyllamino side chain with antineoplastic activity. J. Med. Chem. 22, 501-505.
  • 4. Murdock, K.C., Child, R.G., Fabio, P.F., Angier, R.B., Wallace, R.E., Durr, F.E. & Ci- tarella, R.V. (1979) Antitumor agents. 1. 1,4- Bis[(aminoalkyl)aminol-9,10-anthracene- diones. J. Med. Chem. 22, 1024-1030.
  • 5. Cheng, C.C. & Zee-Cheng, R.K.Y. (1983) The design, synthesis and development of a new class of potent antineoplastic anthraquinones. Progr. Med. Chem. 20, 83-118.
  • 6. Krapcho, A.P., Shaw, K.J., Landi, J.J., Jr., Phinney, D.G., Hacker, M.P. & McCormack, J.J. (1986) Synthesis and antitumor activities of asymmetrically substituted l,4-bis[(ami- noalkyl)amino]anthracene-9,10-diones and re­lated systems. J. Med. Chem. 29,1370-1375.
  • 7. Durr, F.E. (1988) Biochemical pharmacology and tumor biology of mitoxantrone and ame- tantrone; in Anthracycline and Anthra- cenedione-Rased Anticancer Agents (Lown, J.W.,ed.) pp.401-445, Elsevier, Amsterdam.
  • 8. Baguley, B.C. (1991) DNA intercalating anti­tumor agents. Anti-Cancer Drug Design 6, 1-35.
  • 9. VanGunsteren, W.F., Berendsen, H.J.C., Geursten, R.G. & Zwinderman, H.R.J. (1986) A molecular computer dynamics simulation if an eight-base-pair DNA fragment in aqueous solution: Comparison with experimental two- dimensional NMR data. Ann. N. Y. Acad. Sei. 482, 287-303.
  • 10. Subraminian, P.S., Ravishanker, G. & Beveridge, D.L. (1988) Theoretical considera­tions on the 'spine of hydration" in the minor groove of d(CGCGAATTCGCG) • d(CGC- GAATTCGCG): Monte Carlo computer simula­tion. Proc. Natl. Acad. Sei. U.S.A. 85, 1836- 1840.
  • 11. Zielinski, T.J. & Shibata. M. (1990) A molecu­lar dynamics simulation of the d(G)6 minihelix including counterions and water. Rinpnlymfira 29, 1027-1044.
  • 12. Dang, L. & Kollman, P.A. (1990) Molecular dy­namics simulations study of the free energy of association of 9-methyladenine and 1-methyl- thymine bases in water. J. Am. Chem. Soc. 112 , 503-507.
  • 13. Cieplak, P., Rao, S.N., Grootenhuis, P.D.J. & Kollman, P.A. (1990) Free energy calculations on base specificity of drug-DNA interactions: Application to daunomycin and acridine inter­calation into DNA. Biopolymers 2», 717-727.
  • 14. Swaminathan, S., Beveridge, D.L. & Berman, H.H. (1990) Molecular dynamics simulation of a deoxynucleotide-drug intercalation complex: d(CpG)/proflavine. J. Phys. Chem. 94. 4660-4665.
  • 15. Langley, D.R., Doyle, T.W. & Beveridge. D.L. (1991) The dyneimicin-DNA intercalation complex. A model based on DNA affinity cleav­age and molecular dynamics simulations. J. Am. Chem. Soc. 113, 4395-4403.
  • 16. Chuprina, V.P., Heinemann, U., Nurislamov, A.A., Zielenkiewicz, P., Dickerson, R.E. & Saenger, W. (1991) Molecular dynamics simu­lation of the hydration shell of a B-DNA dode- camer reveals two main types of minor-groove hydration depending on groove width. Proc. Natl Acad. Sci. U.S.A. 88, 593-597.
  • 17. Herzyk, P., Neidle, S. & Goodfellow. J.M. (1992) Conformation and dynamics of drug- DNA intercalation. J. Biomol Struct Dyn. 10, 97-139.
  • 18. Subraminian, P.S., Ravishanker, G. & Beveridge, D.L. (1991) Molecular dynamics of B-DNA including water and counterions. A 140-ps trajectory for d(CGCGAATTCGCG) based on the GROMOS Force Field. J. Am. Chem. Soc. 113, 5027-5040.
  • 19. Herzyk. P., Goodfellow, J.M. & Neidle, S. (1991) Molecular dynamics simulations of dinucleoside and dinucleoside-drug crystal hy­drates. J. Biomol. Struct Dyn. 9. 363-386.
  • 20. VanGunsteren, W.F. & Berendsen, H.J.C. (1987) GROMOS Library Manual, Biomos Groningen, The Netherlands.
  • 21. Ryckeart, J.P., Ciccotti, G. & Berendsen, H.J.C. (1977) Numerical integration of the car­tesian equations of motion of a system with constraints: Molecular dynamics of n-alkanes. J. Comput. Phys. 23, 327-341.
  • 22. Gago, F. & Richargs, W.G. (1990) Netropsin binding to polyid(IC)l+polyfd(IC)l and poly[d(GC)l + polyld(GC)!: A computer simula­tion. Mol Pharmacol 37, 341-346.
  • 23. Frederick, Ch.A., Williams, J.D., Ughetto, G., van der Marel, G.A., van Boom, J.H., Rich, A. & Wang, A.H.-J. (1990) Structural camparison of anticancer drug-DNA complexes: Adramy- cin and daunomycin. Biochemistry, 29, 2538-2549.
  • 24. Cirilli, M., Bachechi, F., Ughetto, G., Colonna, F.P. & Capobianco, M.L. (1993) Interactions between morpholinyl anthracyclines and DNA. The crystal structure of a morpholino- doxorubicin bound to d(CGTACG). J. MoL Biol 230, 878-883.
  • 25. Denny, W.A. & Wakelin, L.P.G. (1990) Kinet­ics of the binding of mitoxantrone, ametan­trone and analogs to DNA: Relationship with binding mode and antitumor activity. Anti- Cancer Drug Design 5, 189-196.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-article-e39e5dba-f177-449b-95a0-55aa44384519
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