Abstract

The overall aim of this project is to improve human cancer therapy by developing and applying techniques to rapidly assess the efficacy of therapeutic agents, to detect resistant tumor cells at low frequency and to determine the cytokinetic characteristics of tumors before and during therapy. These techniques will be developed first in model murine tumors and then extended to human leukemias. We propose to complete development of our flow cytometric assay for cellular DNA content and amount of bromodeoxyuridine (BrdUrd/DNA assay). This will include production and characterization of new high affinity antibodies against BrdUrd incorporated in DNA for use as immunochemical reagents. We will apply this assay to assess the sensitivity of tumor cells to therapeutic agents that inhibit cell proliferation (eg. cytosine arabinoside) by measuring the extent to which these agents surpress DNA synthesis in cells with S-phase DNA content grown in vitro or in vivo. We also propose to detect ara-C killed cells directly by measuring ara-C induced DNA damage. We will develop monoclonal antibodies against ara-C incorporated in DNA and use these for immunofluorescence staining. The immunofluorescence per cell will be measured flow cytometrically along with total DNA content (ara-C/DNA assay). We will apply the ara-C/DNA and BrdUrd/DNA assays and high speed cell sorting to detect rare ara-C resistant cells that might eventually lead to therapy failure. We propose to apply our BrdUrd/DNA assay to analysis of the cytokinetic status of murine and human tumors before and during therapy. Cytokinetic information will be determined by measuring the rate of cell cycle traverse of cells labeled in vitro or in vivo with BrdUrd.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA014533-15
Application #
3163944
Study Section
Radiation Study Section (RAD)
Project Start
1977-09-01
Project End
1989-05-31
Budget Start
1987-06-01
Budget End
1988-05-31
Support Year
15
Fiscal Year
1987
Total Cost
Indirect Cost

  Institution

Name
Lawrence Livermore National Laboratory
Department
Type
Organized Research Units
DUNS #
827171463
City
Livermore
State
CA
Country
United States
Zip Code
94550

  Publications

Linfoot, P A; Gray, J W; Dean, P N et al. (1986) Effect of cell cycle position on the survival of 9L cells treated with nitrosoureas that alkylate, cross-link, and carbamoylate. Cancer Res 46:2402-6
Stanker, L H; Branscomb, E; Vanderlaan, M et al. (1986) Monoclonal antibodies recognizing single amino acid substitutions in hemoglobin. J Immunol 136:4174-80
Vanderlaan, M; Watkins, B; Thomas, C et al. (1986) Improved high-affinity monoclonal antibody to iododeoxyuridine. Cytometry 7:499-507
Rice, G; Laszlo, A; Li, G et al. (1986) Heat shock proteins within the mammalian cell cycle: relationship to thermal sensitivity, thermal tolerance, and cell cycle progression. J Cell Physiol 126:291-7
Gray, J W; Dolbeare, F; Pallavicini, M G et al. (1986) Cell cycle analysis using flow cytometry. Int J Radiat Biol Relat Stud Phys Chem Med 49:237-55
Kurki, P; Vanderlaan, M; Dolbeare, F et al. (1986) Expression of proliferating cell nuclear antigen (PCNA)/cyclin during the cell cycle. Exp Cell Res 166:209-19
Xue, S B; Paiiavicini, M G; Gray, J W (1985) Double label radioactivity per cell (RC) analysis in vivo: rapid cytokinetic analysis of the KHT sarcoma. Shi Yan Sheng Wu Xue Bao 18:215-24
Pinkel, D; Thompson, L H; Gray, J W et al. (1985) Measurement of sister chromatid exchanges at very low bromodeoxyuridine substitution levels using a monoclonal antibody in Chinese hamster ovary cells. Cancer Res 45:5795-8
Vanderlaan, M; Thomas, C B (1985) Characterization of monoclonal antibodies to bromodeoxyuridine. Cytometry 6:501-5
Waldman, F M; Dolbeare, F; Gray, J W (1985) Detection of cytosine arabinoside resistant cells at low frequency using the bromodeoxyuridine/DNA assay. Cytometry 6:657-62

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