Frederick A. Valeriote

Activity of flavone acetic acid (NSC-347512) against solid tumors of mice

Flavone acetic acid (FAA) is a new antitumor agent that has recently entered Phase I clinical trials. In preclinical studies, we have found that FAA was broadly active against a variety of transplantable solid tumors of mice (colon #51, #07, #10, #26; pancreatic ductal adenocarcinomas #02 and #03; mammary adenocarcinoma #16/C/Adr; M5076 reticulum cell sarcoma and Glasgows osteosarcoma). FAA was curative for colon adenocarcinoma # 10 and pancreatic ductal adenocarcinoma # 03. Thus, for the first time an agent has been identified with very broad, perhaps nearly universal solid tumor activity. FAA was also found to be orally active and stable in solution at 37 °C for 48 h. FAA was selectively cytotoxic in vitro for solid tumors over leukemias L1210 and P388 (in a soft-agar colony formation assay), thus correlating cellular selectivity in vitro with in vivo antitumor activity. The finding that FAA was active in vitro, established that the agent did not need metabolism (activation) outside the tumor cell. The main drawback of FAA was an unusual ‘threshold’ behavior in which only a narrow range of doses were active and splitting the dose markedly decreased activity.

Cytotoxic Anticancer Drugs: Models and Concepts for Drug Discovery and Development

1. DRUG DISCOVERY- 1990.- 2. DATA DISPLAY AND ANALYSIS STRATEGIES FOR THE NCI DISEASE-ORIENTED IN VITRO ANTITUMOR DRUG SCREEN.- 3. DISCOVERY OF SOLID TUMOR ACTIVE AGENTS USING A SOFT-AGAR-COLONY-FORMATION DISK-DIFFUSION- ASSAY.- 4. THYMIDYLATE SYNTHASE INHIBITION OF MODIFIED QUINAZOLINE ANTIFOLATES.- 5. DNA-MINOR GROOVE BINDING ANTICANCER AGENTS.- 6. 2-((ARYLMETHYL)AMIN0)-l,3-PR0PANEDI0LS (AMAPS) DISCOVERY, SELECTION AND DEVELOPMENT OF FOUR CLINICAL CANDIDATES.- 7. MECHANISM-BASED APPROACHES TO CANCER DRUG DISCOVERY.- 8. DISCOVERY AND BULK PRODUCTION OF NATURAL PRODUCTS WITH ANTICANCER ACTIVITY: THE ROLE OF CHEMICAL ECOLOGY.- 9. CHEMICAL APPROACHES TO IMPROVED RADIOTHERAPY.- 10. LARGE SCALE ANTICANCER DRUG SCREENING AT STERLING DRUG INC..- 11. ARE ANTISENSE OLIG0NUCLEOTIDES THERAPEUTIC AGENTS OF THE FUTURE?.- 12. SUPERCOMPUTER AIDED DRUG DESIGN: APPLICATION IN ONCOLOGY AND AIDS.- 13. EXTRACHROMOSOMAL DNA AS A TARGET FOR DRUG DEVELOPMENT.- 14. PROSPECTIVE EVALUATION OF A PREDICTIVE MODEL FOR PLASMA CONCENTRATION-VERSUS-TIME PROFILES OF INVESTIGATIONAL ANTICANCER DRUGS IN PATIENTS.- 15. AGENT-DIRECTED PRECLINICAL TOXICOLOGY FOR NEW ANTINFOPLASTIC DRUGS.- 16. PRECLINICAL STUDIES WITH BREQUINAR SODIUM: A NOVEL ANTICANCER AGENT.- 17. DIPHTHERIA TOXIN-RELATED PEPTIDE HORMONE FUSION PROTEINS: NEW TOXINS WITH THERAPEUTIC POTENTIAL.- 18. ANTI-GROWTH FACTOR RECEPTOR ANTIBODIES AS THERAPY FOR CANCER.- 19. REGULATION OF POLYAMINE BIOSYNTHETIC ACTIVITY AND HOMEOSTASIS AS A NOVEL ANTIPROLIFERATIVE STRATEGY.- 20. ESPERAMICIN A1 (BMY28175)- A NOVEL ANTI- TUMOR AGENT OF THE DIYNE-ENE CLASS.- 21. MODIFIED 2-TUMOR (L1210, COLON 38) ASSAY TO SCREEN FOR SOLID TUMOR SELECTIVE AGENTS.- 22. 5-FLUOROURACIL: SCHEDULE OPTIMIZATION IN METASTATIC COLORECTAL CANCER.- 23. PRECLINICAL ANTITUMOR EFFICACY OF TAXOTERE (RP56976, NSC 628503), A TAXOL ANALOG AND OF RP60475 (NSC645008), A NEW BENZOPYRI- DOINDOLE.

Isolation and Identification of Rhizoxin Analogs from Pseudomonas fluorescens Pf-5 by Using a Genomic Mining Strategy

ABSTRACT The products synthesized from a hybrid polyketide synthase/nonribosomal peptide synthetase gene cluster in the genome of Pseudomonas fluorescens Pf-5 were identified using a genomics-guided strategy involving insertional mutagenesis and subsequent metabolite profiling. Five analogs of rhizoxin, a 16-member macrolide with antifungal, phytotoxic, and antitumor activities, were produced by Pf-5, but not by a mutant with an insertion in the gene cluster. The five rhizoxin analogs, one of which had not been described previously, were differentially toxic to two agriculturally important plant pathogens, Botrytis cinerea and Phytophthora ramorum. The rhizoxin analogs also caused swelling of rice roots, a symptom characteristic of rhizoxin itself, but were less toxic to pea and cucumber roots. Of the rhizoxin analogs produced by Pf-5, the predominant compound, WF-1360 F, and the newly described compound 22Z-WF-1360 F were most toxic against the two plant pathogens and three plant species. These rhizoxin analogs were tested against a panel of human cancer lines, and they exhibited potent but nonselective cytotoxicity. This study highlights the value of the genomic sequence of the soil bacterium P. fluorescens Pf-5 in providing leads for the discovery of novel metabolites with significant biological properties.

Comparison of fascaplysin and related alkaloids: a study of structures, cytotoxicities, and sources.

The fascaplysin class of compounds have been further investigated from six organisms consisting of four sponge collections (Fascaplysinopsis reticulata) and two tunicate collections (Didemnum sp.). This work is an extension of an earlier communication and reports the isolation of 12 new fascaplysin derivatives: 10-bromofascaplysin (7), 3,10-dibromofascaplysin (8), homofascaplysate A (9), homofascaplysin B-1 (11), 3-bromohomofascaplysins B (12), B-1 (13), and C (15), 7,14-dibromoreticulatine (17), reticulatol (20), 14-bromoreticulatol (21), and 3-bromosecofascaplysins A (22) and B (23), along with known compounds: fascaplysin (1), reticulatine (4), 3-bromofascaplysin (6), and homofascaplysin C (14). Selected compounds were screened in a cell-based cytotoxicity assay with compounds 1, 6, and fascaplysin A (24) also screened in the NCI 60 cell line panel. A biogenetic pathway for the brominated fascaplysins and brominated related alkaloids is proposed and discussed.

Azonazine, a novel dipeptide from a Hawaiian marine sediment-derived fungus, Aspergillus insulicola.

Azonazine, a unique hexacyclic dipeptide, was isolated from a Hawaiian marine sediment-derived fungus eventually identified as Aspergillus insulicola. Its absolute configuration, 2R,10R,11S,19R, was established using NMR, HRESIMS, and CD data plus insights derived from molecular models. A possible route for its biogenesis is proposed, and biological properties were explored against cancer cell lines and in an NFκB inhibition assay.

Natural products chemistry and taxonomy of the marine cyanobacterium Blennothrix cantharidosmum.

A Papua New Guinea field collection of the marine cyanobacterium Blennothrix cantharidosmum was investigated for its cytotoxic constituents. Bioassay-guided isolation defined the cytotoxic components as the known compounds lyngbyastatins 1 and 3. However, six new acyl proline derivatives, tumonoic acids D-I, plus the known tumonoic acid A were also isolated. Their planar structures were defined from NMR and MS data, while their stereostructures followed from a series of chiral chromatographies, degradation sequences, and synthetic approaches. The new compounds were tested in an array of assays, but showed only modest antimalarial and inhibition of quorum sensing activities. Nevertheless, these are the first natural products to be reported from this genus, and this inspired a detailed morphologic and 16S rDNA-based phylogenetic analysis of the producing organism.

Treatment of human prostate tumors PC-3 and TSU-PR1 with standard and investigational agents in SCID mice

Both the PC-3 and the TSU-PR1 prostate tumor models were found to be satisfactory for chemotherapeutic investigations in ICR-SCID mice. The 30 to 60 mg fragments implanted took in all mice (as judged by 100% takes in the controls of all experiments as well as the passage mice). The tumor volume doubling time was 4.0 days for PC-3 and 2.5 days for TSU-Pr1. Nine agents were evaluated IV against early stage subcutaneous PC-3 tumors, with Nano-piposulfan being the only agent highly active (4.9 log kill). Three other agents were moderately active: Taxol (1.5 log kill), Cryptophycin-8 (1.6 log kill), Vinblastine (1.0 log kill). Five agents were inactive: VP-16, Adriamycin, CisDDPt, 5-FUra, and Cyclophosphamide. Ten agents were evaluated IV against early stage subcutaneous TSU-Pr1 tumors. Three agent were highly active, producing > 6 log kill and cures: Taxol (5/5 cures), Cryptophycin-8 (5/5 cures), Vinblastine (2/4 cures). Two other agents were moderately active: Nano-piposulfan (1.2 log kill), and Cyclophosphamide (1.1 log kill). Five agents were inactive: VP-16, Adriamycin, CisDDPt, 5-FUra, and BCNU. In part, activity was determined by the ability of the SCID mice to tolerate meaningful dosages of the agents. Agents producing granulocyte toxicity (e.g., Adriamycin) were poorly tolerated and appeared less active than expected. Vinblastine, producing little or no granulocyte toxicity was very well tolerated and appeared to be more active than expected.

Total synthesis and biological evaluation of (+)-kalkitoxin, a cytotoxic metabolite of the cyanobacterium Lyngbya majusculaElectronic supplementary information (ESI) available: 1H NMR spectrum of synthetic (+)-kalkitoxin in C6D6. See http://www.rsc.org/suppdata/ob/b4/b404205k/

+-Kalkitoxin, a metabolite of the marine cyanobacterium Lyngbya majuscula, was synthesized from (R)-2-methylbutyric acid, (R)-cysteine, and (3S, 4S, 6S)-3,4,6-trimethyl-8-(methylamino)octanoic acid. A key step in the synthesis was installation of the anti,anti methyl stereotriad by means of a tandem asymmetric conjugate addition of an organocopper species to an alpha,beta-unsaturated N-acyl oxazolidin-2-one followed in situ by alpha-methylation of the resultant enolate. The thiazoline portion of kalkitoxin was assembled by titanium tetrachloride catalyzed cyclization of a vinyl substituted amido thiol.

The carmaphycins: new proteasome inhibitors exhibiting an α,β-epoxyketone warhead from a marine cyanobacterium.

Two new peptidic proteasome inhibitors were isolated as trace components from a Curaçao collection of the marine cyanobacterium Symploca sp. Carmaphycin A (1) and carmaphycin B (2) feature a leucine‐derived α,β‐epoxyketone warhead directly connected to either methionine sulfoxide or methionine sulfone. Their structures were elucidated on the basis of extensive NMR and MS analyses and confirmed by total synthesis, which in turn provided more material for further biological evaluations. Pure carmaphycins A and B were found to inhibit the β5 subunit (chymotrypsin‐like activity) of the S. cerevisiae 20S proteasome in the low nanomolar range. Additionally, they exhibited strong cytotoxicity to lung and colon cancer cell lines, as well as exquisite antiproliferative effects in the NCI60 cell‐line panel. These assay results as well as initial structural biology studies suggest a distinctive binding mode for these new inhibitors.

A randomized trial of a low-fat dietary intervention in women at high risk for breast cancer.

A randomized intervention trial of dietary fat reduction to 15% of total calories was initiated in 1987 for women at high risk for breast cancer to determine the feasibility of recruiting and maintaining them on a low-fat diet. The study has enrolled 194 women between the ages of 18 and 67 years who met at least one of three eligibility criteria: 1) a first-degree relative with breast cancer, 2) a P2 or DY Wolfe mammographic pattern, and 3) a prior breast biopsy demonstrating epithelial hyperplasia with or without atypia. Eligible women must also have had diets that contained > or = 30% of calories from fat at entry. Women were randomized to a nonintervention usual diet vs. a 15% low-fat diet. Recruitment was sought through physicians, personal mailings, breast cancer patients, and the news media. Two study sites participated: a large urban hospital affiliated with a university medical center and a community oncology private practice. The results from both institutions were similar and demonstrated that a low-fat dietary plan could be effectively conducted in private as well as academic settings with recruitment tailored to the community where the trial is being conducted. Reduction in dietary fat intake was maximal during the first three months of the dietary intervention and remained stable throughout 12 months of follow-up. Reductions in total calories, weight loss, and percent body fat were minimal. The nonintervention group experienced no major change in their diet. We conclude that it is feasible to recruit women who are at high risk for breast cancer into a dietary intervention trial and with sufficient dietary counseling and motivation on the part of participants, reduction in dietary fat intake can be achieved and maintained. More in-depth analyses of these data will be presented in subsequent reports.