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Cancer Genome and Tumor Microenvironment
Oncogenes and tumor suppressor genes had been traditionally studied in the context of cell proliferation, differentiation, senescence, and survival, four relatively cell-autonomous processes. Consequently, in the late ’80s-early ’90s, neoplastic growth was described largely as an imbalance between net cell accumulation and loss, brought about through mutations in cancer genes. In the last ten years, a more holistic understanding of cancer has slowly emerged, stressing the importance of interactions between neoplastic and various stromal components: extracellular matrix, basement membranes, fibroblasts, endothelial cells of blood and lymphatic vessels, tumor-infiltrating lymphocytes, etc. The commonly held view is that changes in tumor microenvironment are “soft-wired”, i.e., epigenetic in nature and often reversible. Yet, there exists a large body of evidence suggesting that well-known mutations in cancer genes profoundly affect tumor milieu. In fact, these non-cell-autonomous changes might be one of the primary reasons such mutations are preserved in late-stage tumors.
The Link Between Inflammation and Cancer
A link between inflammation and cancer has been established many years ago, yet it is only recently that the potential significance of this connection has become apparent. Although several examples of chronic inflammatory conditions, often induced by persistent irritation and/or infection, developing into cancer have been known for some time, there has been a notable resistance to contemplate the possibility that this association may apply in a causative way to other cancers. Examples for such progression from chronic inflammation to cancer are colon carcinoma developing with increased frequency in patients with ulcerative colitis, and the increased incidence of bladder cancer in patients su...
When They Mutate
Genetic disorders are still perceived as an uncommon event in our general population. However the literature reveals that every year an estimated 7.9 million children (6 percent of total births worldwide) are born with a serious birth defect of genetic or partially genetic origin. Additional hundreds of thousands more are born with serious birth defects of post-conception origin, including maternal exposure to environmental agents (teratogens) such as alcohol, rubella, syphilis and iodine deficiency that can harm a developing fetus.
Clusterin, Part B
The biological function of clusterin (CLU, also known as ApoJ, SGP2, TRPM2, CLI) has been puzzling researchers since its discovery and characterization in the early 1980s. Approaches such as cloning, expression and functional characterization of the different protein products generated by the CLU gene have now produced a critical mass of information of tremendous biological importance that are teaching us an important lesson in molecular biology of gene expression regulation. This volume brings together the contributions of top researchers in the field, providing an overview and synthesis of the latest thought and findings relating to CLU.
Tumor Progression and Therapeutic Resistance
This volume presents the entire breadth of translational cancer research and brings together members of academia and industry in the expectation of accelerating interactions and progress in the field. A variety of key topics are presented, beginning with discovery of molecular targets and pathways (oncogene, cell survival, tumor suppression, cell death), host-neoplasm interactions (cell adhesion, matrix proteases), early detection, monitoring progression, understanding tumor progression and metastasis, immune surveillance, in vivo molecular imaging, animal models, drug discovery including chemistry, high-throughput assays, mechanism determination, target validation, therapeutic window and some progress in clinical trials for more advanced agents and targets.
Cancer Research
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Veterinary Forum
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New Scientist
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