Abstract

The overall objective of the proposed research is to discover new natural products with significant clinically useful anticancer activity.
The specific aims of the program are: 1. To acquire 20-40 extracts per year which show good in vitro activity in topoisomerase I inhibition, topoisomerase II inhibition, or DNA damaging bioassays, The active extracts will come wither from preliminary screening carried out at the University of Virginia as part of the core activities of this Group, preliminary screening carried out at SmithKline Beecham Pharmaceuticals, or from screening carried out by us in collaboration with various colleagues around the world. 2. To fractionate each of the active extracts using a bioassay-directed fractionation scheme, and to isolate pure active compounds with selective activity in one of the bioassays indicated. 3. To determine the structures of all active compounds by whichever combination of chemical manipulation, spectroscopic techniques,a nd X-ray crystallography proves most appropriate to the specific problem. 4. To reisolate adequate amounts of all active compounds for further biological evaluation by Laboratory Program 1 (SmithKline Beecham Parmaceuticals). 5. To collaborate with Laboratory Program 4 (Dr. Sundberg, University of Virginia) in the design and synthesis of appropriate analogs of newly isolated active compounds. 6. To collaborate with other members of the Group as appropriate to assist in the development of active compounds as clinical candidates.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Program--Cooperative Agreements (U19)
Project #
2U19CA050771-06
Application #
3730999
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
6
Fiscal Year
1995
Total Cost
Indirect Cost

  Institution

Name
University of Virginia
Department
Type
DUNS #
001910777
City
Charlottesville
State
VA
Country
United States
Zip Code
22904

  Publications

Cao, Shugeng; Murphy, Brian T; Foster, Caleb et al. (2009) Bioactivities of simplified adociaquinone B and naphthoquinone derivatives against Cdc25B, MKP-1, and MKP-3 phosphatases. Bioorg Med Chem 17:2276-81
Clement, Jason A; Li, Mei; Hecht, Sidney M et al. (2006) Bioactive isomalabaricane triterpenoids from Rhabdastrella globostellata that stabilize the binding of DNA polymerase beta to DNA. J Nat Prod 69:373-6
Cao, Shugeng; Foster, Caleb; Brisson, Marni et al. (2005) Halenaquinone and xestoquinone derivatives, inhibitors of Cdc25B phosphatase from a Xestospongia sp. Bioorg Med Chem 13:999-1003
Cao, Shugeng; Foster, Caleb; Lazo, John S et al. (2005) Four diterpenoid inhibitors of Cdc25B phosphatase from a marine anemone. Bioorg Med Chem 13:5830-4
Chaturvedula, V S Prakash; Gao, Zhijie; Jones, Shannon H et al. (2004) A new ursane triterpene from Monochaetum vulcanicum that inhibits DNA polymerase beta lyase. J Nat Prod 67:899-901
Chaturvedula, V S Prakash; Zhou, Bing-Nan; Gao, Zhijie et al. (2004) New lupane triterpenoids from Solidago canadensis that inhibit the lyase activity of DNA polymerase beta. Bioorg Med Chem 12:6271-5
Prakash Chaturvedula, V S; Hecht, Sidney M; Gao, Zhijie et al. (2004) New neolignans that inhibit DNA polymerase beta lyase. J Nat Prod 67:964-7
Prakash Chaturvedula, V S; Schilling, Jennifer K; Johnson, Randall K et al. (2003) New cytotoxic lupane triterpenoids from the twigs of Coussarea paniculata. J Nat Prod 66:419-22
Prakash Chaturvedula, V S; Gao, Zhijie; Hecht, Sidney M et al. (2003) A new acylated oleanane triterpenoid from Couepia polyandra that inhibits the lyase activity of DNA polymerase beta. J Nat Prod 66:1463-5
Zhou, B N; Johnson, R K; Mattern, M R et al. (2001) The first naturally occurring Tie2 kinase inhibitor. Org Lett 3:4047-9

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