A state-of-the-art review of the molecular underpinnings of bone-seeking cancers, current treatment approaches for them, and future therapeutic strategies. The authors illuminate the role of various autocrine, paracrine, and immunological factors involved in the progression and establishment of bone metastases, highlighting the physiological processes that lead to bone degradation, pain, angiogenesis, and dysregulation of bone turnover. They also discuss the various strategies that appear to have promise and are currently deployed in treatment or are at the experimental stage.
A state-of-the-art review of the molecular underpinnings of bone-seeking cancers, current treatment approaches for them, and future therapeutic strate...
An integrated overview of cancer drug discovery and development from the bench to the clinic, showing with broad strokes and representative examples the drug development process as a network of linked components leading from the discovered target to the ultimate therapeutic product. Following a systems biology approach, the authors explain genomic databases and how to discover oncological targets from them, how then to advance from the gene and transcript to the level of protein biochemistry, how next to move from the chemical realm to that of the living cell and, ultimately, pursue animal...
An integrated overview of cancer drug discovery and development from the bench to the clinic, showing with broad strokes and representative examples t...
The possibility of treating cancer, a disease defined by genetic defects, by introducing genes targeting these very alterations has led to an immense interest in gene therapy for cancer. Although incremental successes have been realized, enthusiasm for gene therapy has declined due to an increasing number of obstacles. These obstacles include vector systems that do not reach systemic metastases, therapeutic genes with redundant mec- nisms allowing for cellular resistance, and toxicities in clinical trials leading to premature closure of these studies. Different tactics to overcome or...
The possibility of treating cancer, a disease defined by genetic defects, by introducing genes targeting these very alterations has led to an immense ...
A panel of leading investigators summarizes and synthesizes the new discoveries in the rapidly evolving field of histone acetylation as a key regulatory mechanism for gene expression. The authors describe what has been learned about these proteins, including the identification of the enzymes, the elucidation of the enzymatic mechanisms of action, and the identification of their substrates and their partners. They also review the structures that have been solved for a number of enzymes-both alone and in complex with small molecule inhibitors-and the biological roles of the several histone...
A panel of leading investigators summarizes and synthesizes the new discoveries in the rapidly evolving field of histone acetylation as a key regulato...
Expert bench and clinical scientists join forces to concurrently review both the state-of-the-art in tumor immunology and its clinical translation into promising practical treatments. The authors explain in each chapter the scientific basis behind such therapeutic agents as monoclonal antibodies, cytokines, vaccines, and T-cells, and illustrate their clinical manipulation to combat cancer. Additional chapters address statistical analysis-both of clinical trials and assay evaluations-methods for the discovery of antigens, adoptive T cell therapy, and adaptive and innate immunity. The...
Expert bench and clinical scientists join forces to concurrently review both the state-of-the-art in tumor immunology and its clinical translation int...
Genomics and Pharmacogenomics in Anticancer Drug Development and Clinical Response provides the most comprehensive body of knowledge available on the role of genetic and genomic variation in the individualization of drug therapies in cancer patients. As a consequence of the intrinsic chromosomal and genetic instability of the tumor genome, it is generally believed that tailoring of chemotherapy in cancer - tients might be achieved by molecular analysis of patient tumor DNA. In addition, to reduce the toxicity risk of patients, the tumor DNA information should be in- grated with the available...
Genomics and Pharmacogenomics in Anticancer Drug Development and Clinical Response provides the most comprehensive body of knowledge available on the ...
This volume represents a compendium of scientific findings and approaches to the study of angiogenesis in cancer. The second edition of Antiangiogenic Agents in Cancer Therapy is intended to give a current perspective on the state-of-the-art of angiogenensis and therapy directed at this process.
Antiangiogenesis is a dynamic and evolving field in oncology. New therapeutic targets continue to emerge followed by the rapid development of new therapeutic agents to be investigated in clinical trials. Optimizing the therapeutic potential of antiangiogenic agents in combination with the other...
This volume represents a compendium of scientific findings and approaches to the study of angiogenesis in cancer. The second edition of Antiangioge...
Extensive research has uncovered a set of molecular surveillance mechanisms commonly called checkpoints which tightly monitor cell-cycle processes. Today s anticancer drug development has identified many of these cell-cycle checkpoint molecules as effective targets. Research now promises to uncover a new generation of anticancer drugs with improved therapeutic indices based on their ability to target emerging checkpoint components. Checkpoint Responses in Cancer Therapy summarizes the advances made over the past 20 years, identifying components of cell-cycle checkpoints and their molecular...
Extensive research has uncovered a set of molecular surveillance mechanisms commonly called checkpoints which tightly monitor cell-cycle processes....
The epidermal gro wth factor (EGF ) receptor and its downstream signal transduction networks have been implicated in the ontology and maintenance of tumor tissues, which has motivated the discovery and development of molecularly targeted anti-EGF receptor therapies. Over decades of study, the EGF receptor structure, its ligand binding domains, the physical biochemistry underlying its intrinsic tyrosine kinase catalytic function and the modular interactions with SH2, PTB, and SH3 domain containing signaling adaptor p- teins required for signal transduction, have been extensively dissected. Not...
The epidermal gro wth factor (EGF ) receptor and its downstream signal transduction networks have been implicated in the ontology and maintenance of t...
Leading cancer researchers update and review the mechanisms of action and the therapeutic selectivity and efficacy of 5-FU with and without leucovorin and its prodrugs in the treatment of colorectal cancer. Among the combination agents considered are UFT/LV, 5-FU/EU, capecitabine (Xeloda), S-1, and a variety of thymidylate synthase inhibitors. The authors discuss the potential advantages and disadvantages of these varied drugs and their mode of administration. Based on historical results with these agents when used alone, they also present a rationale for their results when used in...
Leading cancer researchers update and review the mechanisms of action and the therapeutic selectivity and efficacy of 5-FU with and without leucovorin...
