Antifolates are an important class of anticancer drugs originally developed as anti leu kemic agents, but now used, usually in combination with other drugs, for the treatment of a wide range of tumors, notably carcinomas of the head and neck, breast, germ cell tumors, non-Hodgkin's lymphoma, acute lymphoblastic leukemia, and osteogenic sar comas. 5-Fluorouracil and its prodrugs also target, in part, the folate-dependent enzyme, thymidylate synthase. Furthermore, folate supplementation in the form of leucovorin, modulates 5-fluororuacil activity. 5-Fluorouracil is widely used in the treatment...

Leading international experts comprehensively review all aspects of platinum anticancer drugs and their current use in treatment, as well as examining their future therapeutic prospects. Writing from a variety of disciplines, these authorities discuss the chemistry of cisplatin in aqueous solution, the molecular interaction of platinum drugs with DNA, and such exciting new areas as DNA mismatch repair and replicative bypass, apoptosis, and the transport of platinum drugs into tumor cells. The emergent platinum drugs of the future-orally active agents, the sterically hindered ZD0473, and the...

Cutting-edge researchers describe their efforts to design, synthesize, and evaluate the biological activities of farensyltransferase inhibitors (FTIs); geranylgeranyltransferase inhibitors (GGTIs) are also discussed as potential anticancer drugs. The authors survey in detail such inhibitors as CAAX box peptidomimetics, FPP mimics, and bisubstrate transition state analogs, and critically review their uses in combination with radiation and other cytotoxic agents, such as gemcitabine, cisplatin, and taxanes. Illuminating and richly detailed, Farnesyltransferase Inhibitors in Cancer Therapy...

Cutting-edge investigators review the current status of the entire field, from the biology of MMPs through the current clinical studies. The authors include many leading scientists from pharmaceutical companies who present all the latest concepts and results on the preferred design strategies for MMP inhibitors, their molecular mechanisms, and their substrates. In addition, they fully describe their personal research on specific MMP inhibitors, detailing vanguard design strategies, their in vitro activity, the outcome of animal model studies and, where available, their toxicology, safety,...

In Hormone Therapy in Breast and Prostate Cancer, many of today's leading researchers and clinicians describe the principles underlying targeted hormonal treatments, assess the actions of new and established agents, and illustrate the new applications of hormonal chemoprevention for breast cancer. Topics range from preclinical and clinical antiestrogens to the inhibition of estrogen synthesis and the effects of androgen withdrawal. A wide variety of proven and new agents are discussed-antiestrogens, including aromatase inhibitors (anastrozole, letrozole, and others), SERMs (tamoxifen,...

Leading scientists summarize the latest findings on signal transduction and cell cycle regulation and describe the effort to design and synthesize inhibiting molecules, as well as to evaluate their biochemical and biological activities. They review the relevant cell surface receptors, their ligands, and their downstream pathways. Also examined are the latest findings on the components of novel signaling networks controlling the activity of nuclear transcription factors and cell cycle regulatory molecules. Cutting-edge and highly suggestive, Signaling Networks and Cell Cycle Control: The...

The past few years have witnessed an astonishing international effort that established the role of some 20 new molecules in apoptosis and added activation or suppression of apoptosis to the accepted biological functions of a great many others already familiar in cancer biology. Some of these molecules are receptors, transducing cytokine-mediated signals; others appear to intensify or diminish the risk that a compro- mised cell will fire its apoptosis effector mechanism. All are of interest as potential targets for tumor therapy, and some may prove to be control points influenced in the...

David Fisher, MD, PhD, and an authoritative panel of academic, cutting-edge researchers review and summarize the current state of the field. Describing the broad roles of tumor suppressors from a perspective based in molecular biology and genetics, the authors detail the major suppressors and the pathways they regulate, including cell cycle progression, stress responses, apoptosis, and responses to DNA damage. Leading-edge and forward-looking, Tumor Suppressor Genes in Human Cancer illuminates what is currently known of tumor suppressor genes and their regulation, work that is already...

Leading experts survey the currently available technologies designed to improve the delivery of today's cancer chemotherapeutic agents. The authors review both the theoretical and practical considerations governing conventional and nonconventional methods of drug administration, and identify promising opportunities for product development. In their outline and discussion of the use of novel formulation technologies-including synthetic polymers and biomaterials for prolonged or sustained drug release to achieve potentially greater therapeutic effect-they profile those technologies that have...