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Cytokine and Chemokine Networks in Cancer" provides a comprehensive exploration of the roles of cytokines and chemokines in cancer biology. It offers valuable insights into their diagnostic, prognostic, and therapeutic implications, making it a valuable resource for researchers, clinicians, and students interested in the field of cancer immunology and therapy. This book illustrates the importance and significance of the cytokine and chemokine signaling networks in tumor development and progression. It describes the complex networks mediated by cytokine and chemokine receptors promoting tumor cell proliferation, site-directed metastasis, and activation of angiogenic switch in tumor cells. The books also shed light on the heterogeneity of cytokines and chemokine in solid malignancies and their impact on tumor progression and therapeutic outcomes. The chapters provide current information about the types of cytokine-chemokine interactions in promoting cancer stem cell-like characteristics, epithelial to mesenchymal transition, and modulation of the tumor microenvironment. The significance of the complex interactions in cancer biology in the light of therapeutic resistance is also highlighted. The chapters also describe recent advancements in the therapeutic potential of targeting the pro-tumor cytokine and chemokine networks and limiting tumor cell metastasis. Finally, the book also provides a comprehensive yet representative description of a large number of challenges associated with targeting these vital chemokine-cytokine networks. Given its content, the book provides valuable information for researchers in the field of cancer biology and molecular medicine.
An overview of the current systems biology-based knowledge and the experimental approaches for deciphering the biological basis of cancer.
This volume examines in detail the role of chronic inflammatory processes in the development of several types of cancer. Leading experts describe the latest results of molecular and cellular research on infection, cancer-related inflammation and tumorigenesis. Further, the clinical significance of these findings in preventing cancer progression and approaches to treating the diseases are discussed. Individual chapters cover cancer of the lung, colon, breast, brain, head and neck, pancreas, prostate, bladder, kidney, liver, cervix and skin as well as gastric cancer, sarcoma, lymphoma, leukemia and multiple myeloma.
Since the introduction of microscopy, pathologists have noted tumor infiltration by inflammatory cells and presumed that this represents the host's attempt to reject its tumor. Recent advances in the molecular biology of inflammation have revealed the signals involved in attracting inflammatory cells to tumors and, for the most part, these signals are mediated by chemokines and their receptors. Chemokines are low molecular weight proteins that attract and activate specific subsets of leukocytes to the exclusion of others.
Provides a core knowledgebase for those with minimal exposure to hematologic molecular biology, fully revised and updated Molecular Hematology brings together the most up-to-date and reliable information on the molecular basis of major hematologic diseases. Edited and authored by leading experts in the field, this volume demonstrates the clinical relevance of molecular biology in the diagnosis and treatment of blood disorders. Concise, accessible chapters address key topics in modern hematology, such as lymphoma genetics, molecular coagulation, thrombophilia, pharmacogenomics, platelet disorders, hemophilia, anemia, and multiple myeloma. Chapters introduce and summarize specific hematologic diseases, explore the pathogenesis of the disorder, highlight new and emerging molecular strategies, and more. Now in its fifth edition, Molecular Hematology is fully revised to incorporate contemporary hematology research and practice. Entirely new chapters cover topics such as CAR-T cell technology, COVID, cancer cell biology, gene therapy and gene editing in clinical practice, as well as the impact of molecular research on the diagnosis and treatment of various malignant hematologic diseases. This edition includes updated suggested readings and a wealth of new full-color charts, graphs, and illustrations throughout. Covers the molecular biology of different blood diseases, their pathogeneses, and current molecular research and therapies Illustrates the impact of molecular research on hematologic investigations and therapeutics Discusses how progress in basic science and therapeutics has improved the diagnosis and care of patients with various hematologic disorders Surveys recent developments in cancer-cell biology, with an emphasis on leukemia and lymphoma Includes access to a companion Digital Edition providing search across the book, downloadable illustrations, and notation tools Molecular Hematology is a must-have resource for established and trainee clinicians, clinical scientists and researchers, medical students, and upper-level undergraduates in the fields of hematology, oncology, and molecular biology.
Providing an overview of recent developments in the field of signal transduction, this volume emphasizes direct clinical significance. As such, topics like nuclear receptors, apoptosis, growth factors, cell cycles and cancer are examined.
The last ten years have seen the publication of a vast amount of data regarding cellular resistance to drugs in cancer cells. Recent studies have demonstrated that drug resistance assays appear to be predictive of clinical response and suggest that clinicians should now be considering the potential applications of these assays in the treatment of patients with hematological neoplasms. This collection of papers from the International Symposium on the Clinical Value of Drug Resistance Assays in Leukemia and Lymphoma, Amsterdam, 1992, provides a state-of-the-art discussion on drug resistance assays and their role in the design and individualization of treatment protocols.
Chemokines play an important role in recruiting inflammatory cells into tissues in response to infection and inflammation. They also play an important role in coordinating the movement of T-cells, B-cells and dentritic cells, necessary to generate an immune response (response to injury, allergens, antigens, invading microorganisms). They selectively attract leukocytes to inflammatory foci, inducing both cell migration and activation. They are involved in various diseases, like atherosclerosis, lung and skin inflammation, multiple sclerosis, or HIV. Volume 2 of this two-volume set discusses the pathophysiology of chemokines. It is divided into two parts: a) chemokines in animal disease models, and b) chemokines as drug targets. Together with volume 1, which discusses the immunobiology of chemokines, both volumes give a comprehensive overview of chemokine biology.
The Cytokines of the Immune System catalogs cytokines and links them to physiology and pathology, providing a welcome and hugely timely tool for scientists in all related fields. In cataloguing cytokines, it lists their potential for therapeutic use, links them to disease treatments needing further research and development, and shows their utility for learning about the immune system. This book offers a new approach in the study of cytokines by combining detailed guidebook-style cytokine description, disease linking, and presentation of immunologic roles. - Supplies new ideas for basic and clinical research - Provides cytokine descriptions in a guidebook-style, cataloging the origins, structures, functions, receptors, disease-linkage, and therapeutic potentials - Offers a textbook-style view on the immune system with the immunologic role of each cytokine
There have been tremendous recent advances in the pharmacotherapy, dose regimens, and combinations used to treat cancer and for the treatment or prevention of the spread of disease. As a direct result of these advances, there are an increasing number of cancer survivors, although research dealing with chemotherapy-induced pain is still in its early