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| Preface | p. vii |
| Acknowledgments | p. xi |
| Introduction | p. 1 |
| What is cancer? | p. 2 |
| Evidence suggests that cancer is a genetic disease at the cellular level | p. 4 |
| Influential factors in human carcinogenesis | p. 9 |
| Principles of conventional cancer therapies | p. 12 |
| Clinical trials | p. 14 |
| The role of molecular targets in cancer therapies | p. 15 |
| DNA structure and stability: mutations versus repair | p. 21 |
| Gene structure-two parts of a gene: the regulatory region and the coding region | p. 22 |
| Mutations | p. 23 |
| Carcinogenic agents | p. 24 |
| DNA repair and predispositions to cancer | p. 36 |
| Therapeutic strategies | p. 39 |
| Conventional therapies: chemotherapy and radiation therapy | p. 39 |
| Regulation of gene expression | p. 47 |
| Transcription factors and transcriptional regulation | p. 47 |
| Chromatin structure | p. 54 |
| Epigenetic regulation of transcription | p. 55 |
| Evidence of a role for epigenetics in carcinogenesis | p. 58 |
| Telomeres and telomerase | p. 60 |
| Therapeutic strategies | p. 64 |
| Epigenomic and histonomic drugs | p. 64 |
| Telomerase inhibitors | p. 65 |
| Growth factor signaling and oncogenes | p. 69 |
| Epidermal growth factor signaling: an important paradigm | p. 70 |
| Oncogenes | p. 78 |
| Therapeutic strategies | p. 86 |
| Kinase inhibitors | p. 87 |
| RAS-directed therapies | p. 91 |
| The cell cycle | p. 95 |
| Cyclins and cyclin-dependent kinases (cdks) | p. 96 |
| Mechanisms of cdk regulation | p. 99 |
| Progression through the G[subscript 1] checkpoint | p. 101 |
| The G[subscript 2] checkpoint | p. 103 |
| The mitotic checkpoint | p. 104 |
| The cell cycle and cancer | p. 106 |
| Therapeutic strategies | p. 108 |
| Cyclin-dependent kinase inhibitors | p. 109 |
| Other cell cycle kinase targets | p. 109 |
| Inhibitors of the mitotic spindle | p. 110 |
| Growth inhibition and tumor suppressor genes | p. 113 |
| Definitions of tumor suppressor genes | p. 113 |
| The retinoblastoma gene | p. 117 |
| Mutations in the RB pathway and cancer | p. 118 |
| The p53 pathway | p. 119 |
| Mutations in the p53 pathway and cancer | p. 127 |
| Interaction of DNA viral protein products with RB and p53 | p. 129 |
| Therapeutic strategies | p. 130 |
| Targeting of the p53 pathway | p. 130 |
| Apoptosis | p. 137 |
| Molecular mechanisms of apoptosis | p. 139 |
| Apoptosis and cancer | p. 148 |
| Apoptosis and chemotherapy | p. 152 |
| Therapeutic strategies | p. 154 |
| Apoptotic drugs | p. 154 |
| Stem cells and differentiation | p. 161 |
| Stem cells and cancer | p. 162 |
| Differentiation and the regulation of transcription | p. 171 |
| Therapeutic strategies | p. 176 |
| Inhibitors of the Wnt pathway | p. 177 |
| Inhibitors of the Hh pathway | p. 178 |
| Leukemia and differentiation therapies | p. 180 |
| Metastasis | p. 185 |
| Steps of metastasis | p. 186 |
| Tools of cell migration: cell adhesion molecules, integrins, and proteases | p. 186 |
| Intravasation | p. 189 |
| Transport | p. 191 |
| Extravasation | p. 191 |
| Metastatic colonization | p. 192 |
| The angiogenic switch | p. 194 |
| Parallels between early development and metastasis | p. 199 |
| Other means of tumor neovascularization | p. 200 |
| Therapeutic strategies | p. 201 |
| Metalloproteinase inhibitors (MPIs) | p. 201 |
| Anti-angiogenic therapy and vascular targeting | p. 202 |
| Targeting several steps of metastasis at once | p. 207 |
| Infections and inflammation | p. 211 |
| Identifying infectious agents as carcinogens | p. 212 |
| Inflammation and cancer | p. 217 |
| Therapeutic strategies | p. 223 |
| A national vaccination program against Hepatitis B virus in Taiwan | p. 224 |
| Eradication of H. pylori and the relationship to prevention of gastric cancer | p. 225 |
| Cancer vaccines to prevent cervical cancer | p. 225 |
| Inhibition of inflammation | p. 227 |
| Nutrients, hormones, and gene interactions | p. 231 |
| Causative factors | p. 233 |
| Preventative factors: microconstituents of fruits and vegetables | p. 237 |
| Metabolic changes in tumor cells | p. 242 |
| Genetic polymorphisms and diet | p. 244 |
| Vitamin D: a link between nutrients and hormone action | p. 245 |
| Hormones and cancer | p. 247 |
| Therapeutic strategies | p. 251 |
| 'Enhanced' foods and dietary supplements for chemoprevention | p. 251 |
| Drugs that target energy pathways | p. 252 |
| Drugs that target estrogen | p. 252 |
| The cancer industry: drug development and clinical trial design | p. 259 |
| Strategies of drug development | p. 259 |
| Development of imatinib | p. 263 |
| Second-generation therapeutics | p. 265 |
| Pharmacogenomics | p. 266 |
| Improved clinical trial design | p. 267 |
| A career in cancer research | p. 270 |
| Cancer in the future: focus on diagnostics and immunotherapy | p. 275 |
| Cancer vaccines | p. 276 |
| Microarrays and expression profiling | p. 283 |
| Diagnostics and prognostics | p. 285 |
| Imaging | p. 287 |
| Cancer research bioinformatics | p. 288 |
| Cancer nanotechnology | p. 289 |
| Treating cancer symptoms | p. 291 |
| Are we making progress? | p. 291 |
| Cell Cycle Regulation | p. 297 |
| Centers for Cancer Research | p. 298 |
| Glossary | p. 302 |
| Index | p. 311 |
| Color Plates | |
| Table of Contents provided by Ingram. All Rights Reserved. |
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