Perspectives on surrogate end points in the development of drugs that reduce the risk of cancer.
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This paper proposes a scientific basis and possible strategy for applying surrogate end points in chemopreventive drug development. The potential surrogate end points for cancer incidence described are both phenotypic (at the tissue, cellular, and molecular levels) and genotypic biomarkers. To establish chemopreventive efficacy in randomized, placebo-controlled clinical trials, it is expected that in most cases it will be critical to ensure that virtually all of the biomarker lesions are prevented or that the lesions prevented are those with the potential to progress. This would require that both the phenotype and genotype of the target tissue in agent-treated subjects, especially in any new or remaining precancers, are equivalent to or show less progression than those of placebo-treated subjects. In the National Cancer Institute chemoprevention program, histological modulation of a precancer (intraepithelial neoplasia) has thus far been the primary phenotypic surrogate end point in chemoprevention trials. Additionally, we give high priority to biomarkers measuring specific and general genotypic changes correlating to the carcinogenesis progression model for the targeted cancer (e.g., progressive genomic instability as measured by loss of heterozygosity or amplification at a specific microsatellite loci). Other potential surrogate end points that may occur earlier in carcinogenesis are being analyzed in these precancers and in nearby normal appearing tissues. These biomarkers include proliferation and differentiation indices, specific gene and general chromosome damage, cell growth regulatory molecules, and biochemical activities (e.g., enzyme inhibition). Serum biomarkers also may be monitored (e.g., prostate-specific antigen) because of their accessibility. Potentially chemopreventive drug effects of the test agent also may be measured (e.g., tissue and serum estrogen levels in studies of steroid aromatase inhibitors). These initial studies are expected to expand the list of validated surrogate end points for future use. Continued discussion and research among the National Cancer Institute, the Food and Drug Administration, industry, and academia are needed to ensure that surrogate end point-based chemoprevention indications are feasible. (+info)
Diet, natural products and cancer chemoprevention.
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There is considerable scientific evidence to suggest that nutritive and nonnutritive plant-based dietary factors can inhibit the process of carcinogenesis effectively. Cancer chemoprevention involves pharmacologic intervention with synthetic or naturally occurring chemicals to prevent, inhibit or reverse carcinogenesis or prevent the development of invasive cancer. In light of the considerable effort that has been expended by scientists from the academic, governmental and private sectors in identifying, characterizing and utilizing potential cancer chemopreventive agents, it is reasonable to inquire about the progress that has been made to date and the promise that this field holds in the fight against cancer. The symposium entitled Diet, Natural Products and Cancer Chemoprevention: Progress and Promise was therefore organized at Experimental Biology 99 by the American Society for Nutritional Sciences to address in part these two issues. Progress in the development of cancer chemopreventive agents, examples of current clinical and experimental research of particular relevance to cancer prevention and the promise of chemoprevention in effectively contributing to the conquest of cancer were highlighted. (+info)
Progress in cancer chemoprevention: development of diet-derived chemopreventive agents.
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Because of their safety and the fact that they are not perceived as "medicine," food-derived products are highly interesting for development as chemopreventive agents that may find widespread, long-term use in populations at normal risk. Numerous diet-derived agents are included among the >40 promising agents and agent combinations that are being evaluated clinically as chemopreventive agents for major cancer targets including breast, prostate, colon and lung. Examples include green and black tea polyphenols, soy isoflavones, Bowman-Birk soy protease inhibitor, curcumin, phenethyl isothiocyanate, sulforaphane, lycopene, indole-3-carbinol, perillyl alcohol, vitamin D, vitamin E, selenium and calcium. Many food-derived agents are extracts, containing multiple compounds or classes of compounds. For developing such agents, the National Cancer Institute (NCI) has advocated codevelopment of a single or a few putative active compounds that are contained in the food-derived agent. The active compounds provide mechanistic and pharmacologic data that may be used to characterize the chemopreventive potential of the extract, and these compounds may find use as chemopreventives in higher risk subjects (patients with precancers or previous cancers). Other critical aspects to developing the food-derived products are careful analysis and definition of the extract to ensure reproducibility (e.g., growth conditions, chromatographic characteristics or composition), and basic science studies to confirm epidemiologic findings associating the food product with cancer prevention. (+info)
Advances in the development of retinoids as chemopreventive agents.
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With the inclusion of brief discussions of retinoid drug development in animal carcinogenesis models (e.g., skin, breast, oral cavity, lung, prostate or bladder) and clinical trials (e.g., head and neck or cervix), this review will focus on recent advances in retinoid molecular targeting studies designed primarily to develop retinoids with reduced toxicity, while maintaining or enhancing activity in the context of chemoprevention. Major current retinoid molecular targets include the six known nuclear retinoid receptors (RAR and RXR). Receptor numbers, distinct functions, tissue-expression patterns, ligand specificities, functional redundancy and regulation of multiple pathways make retinoid signaling highly complex. Development of receptor-selective synthetic retinoids is a major focus of molecular retinoid development. RAR heterodimerize with RXR and mediate classic retinoid activity/toxicity. RXR are more promiscuous, heterodimerizing with several other members of the steroid receptor superfamily [e.g., peroxisome proliferator-activated receptors (PPAR) or vitamin D receptors]. RXR-selective ligands are less toxic and more active in animal breast cancer prevention studies and less toxic than RAR ligands in clinical trials. Other new avenues of retinoid molecular drug development include newly identified retinoid-regulated genes, orphan-receptor ligands/functions, novel retinoid mechanisms involving potent receptor-independent apoptosis-inducing activity (e.g., 4-HPR or anhydroretinol), synergistic combinations [e.g., RXR agonists plus selective estrogen receptor modulators (SERM)], activity in other diseases and novel delivery systems. (+info)
Hormonal approaches to the chemoprevention of endocrine-dependent tumors.
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The estrogen dependency of human breast cancer has been successfully exploited in the treatment of early and advanced diseases and provides a unique opportunity for chemoprevention of this common malignancy. Preliminary results with the antiestrogens Tamoxifen and Raloxifene show an encouraging reduction in the incidence of breast cancer. Alternative approaches include the use of highly selective and non-toxic aromatase inhibitors and, in premenopausal women, the use of LHRH agonists in conjunction with the administration of small doses of estrogen and progesterone. The rationale for these chemopreventive strategies and their possible limitations are briefly discussed. (+info)
Ingestion of green tea rapidly decreases prostaglandin E2 levels in rectal mucosa in humans.
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The objective of this Phase I/II study was to assess the potential for green tea to be used as a colorectal cancer chemopreventive agent. This study measured the dose-related biological effects of administration of a single dose of green tea on the rectal mucosa of normal volunteers. Volunteers were admitted to the Robert Wood Johnson Medical School Clinical Research Center for 24 h. Baseline blood and rectal biopsy samples were obtained before the volunteers drank 0.6, 1.2, or 1.8 g of green tea solids dissolved in warm water. Blood samples were taken 2, 4, 8, and 24 h after the tea administration. Rectal biopsies were obtained at 4, 8, and 24 h. Prostaglandin E2 (PGE2) levels were analyzed by ELISA. Tea polyphenol levels in the blood, urine, and rectal tissue were measured by high-performance liquid chromatography using a Coulochem electrode array detection system. Statistical comparisons were made using ANOVA. Decreased levels of PGE2 in rectal mucosa were observed at 4 and 8 h after consumption of green tea. There was no correlation between inhibition of PGE2 and tissue or plasma levels of tea polyphenols. Ten of 14 subjects demonstrated a response to green tea, as evidenced by at least a 50% inhibition of PGE2 levels at 4 h. We conclude that green tea constituents have biological activity in inhibiting PGE2 synthesis. Given the 71% "response rate," we believe these data support the study of green tea as a colorectal chemopreventive agent in more long-term Phase II trials. (+info)
Validity of short food frequency questionnaires used in cancer chemoprevention trials: results from the Prostate Cancer Prevention Trial.
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Here, we describe the measurement characteristics of a 13-item dietary screener used in the Prostate Cancer Prevention Trial. We used data from 10,913 men who completed the 13-item dietary screener, a food frequency questionnaire (FFQ), and questionnaires on demographic and health-related characteristics and from 146 men who also completed multiple 24-h dietary recalls in a substudy. The analyses in this report focused on percentage energy from fat and saturated fat and used the mean estimates from the dietary recalls as the criterion measures. Absolute nutrient estimates from the screener were about one-third of the estimates from the recalls and the FFQ. Validity was defined as the Pearson correlation of the criterion measures of fat with the corresponding measures from the FFQ and the screener. The FFQ was a statistically significantly more precise measure of percentage energy from fat (r = 0.71) and saturated fat (r = 0.72) than was the screener (r = 0.50 and 0.53, respectively). There were also statistically significant differences in how well these instruments could detect variation in dietary fat across various participant characteristics, suggesting that the screener may not perform as well as the FFQ across demographic strata such as education (P < 0.001). The results from this study suggest that the use of short dietary screeners as the sole assessment instrument may result in a serious loss of information regarding important exposures (e.g., fat intake) and lost opportunities to enhance our knowledge regarding dietary factors and cancer risk. (+info)
The Fourth DeWitt S. Goodman lecture. Novel approaches to the prevention of colon cancer by nutritional manipulation and chemoprevention.
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Large bowel cancer is one of the most common human malignancies in Western countries including North America. This report details the preventive strategies aimed at reducing the incidence and mortality of large bowel cancer by nutritional manipulation and chemopreventive agents. During recent decades, multidisciplinary research in epidemiology and laboratory animal model studies have contributed much to our understanding of the etiology of this cancer; more importantly, it has enabled us to approach cancer prevention. An impressive body of data thus far accumulated has provided important concepts about dietary factors such as fat and fiber as key modulators of large bowel cancer. Compelling experimental evidence indicates that certain dietary lipids and fibers influence tumorigenesis in the colon. Data obtained in metabolic epidemiological and laboratory animal model studies are sufficiently convincing in showing the enhancement of colon cancer by certain types of fat and protection against it by certain dietary fibers. Our approach to the primary prevention of large bowel cancer is to translate the findings from clinical epidemiological and laboratory studies into sound advice for patients and for the public at large to reduce fat intake and increase fiber intake, specifically cereals and grains. Preclinical efficacy studies have provided scientifically sound evidence as to how several phytochemicals and their synthetic analogues act to retard, block, or reverse carcinogenesis. Equally exciting are opportunities for effective chemoprevention with nonsteroidal anti-inflammatory agents, both synthetic and naturally occurring, or selective cyclooxygenase-2 inhibitors. Our exploration of the multistep process of carcinogenesis has provided substantial insights into the mechanisms by which chemopreventive agents modulate these events. Growing knowledge in this area has brought about an innovative combination of agents with different modes of action as a means of increasing efficacy and minimizing toxicity. There is growing optimism for the view that realization of preventive concepts in large bowel cancer will also serve as a model for preventing malignancies such as cancer of the prostate and breast. (+info)