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This volume focuses on defining the unique attributes of using the zebrafish cancer model for discovering important pathways and potential drug targets for the treatment of human cancers. Using the zebrafish model, the volume explores oncogene and tumor suppressor discovery, chemical genetic approaches, genomics, epigenetics, cancer imaging, and cell transplantation. Contributed chapters come from the most prominent laboratories working in this field, which provides a unique perspective on zebrafish models from a wide spectrum of the research community. In addition, the book offers a detailed analysis of the most current research in the area for specific zebrafish cancer models, including T cell leukemia, rhabdomyosarcoma, liver and pancreatic cancer, melanoma, neuroblastoma, germ cell tumors, and malignant peripheral sheath tumors. A chapter is also dedicated to the development and utilization of other piscine models of cancer. The compilation of chapters in the volume culminates into a comprehensive and definitive text on zebrafish and cancer, providing a much needed resource on the powerful attributes of the zebrafish model system.
This volume focuses on defining the unique attributes of using the zebrafish cancer model for discovering important pathways and potential drug targets for the treatment of human cancers. Using the zebrafish model, the volume explores oncogene and tumor suppressor discovery, chemical genetic approaches, genomics, epigenetics, cancer imaging, and cell transplantation. Contributed chapters come from the most prominent laboratories working in this field, which provides a unique perspective on zebrafish models from a wide spectrum of the research community. In addition, the book offers a detailed analysis of the most current research in the area for specific zebrafish cancer models, including T cell leukemia, rhabdomyosarcoma, liver and pancreatic cancer, melanoma, neuroblastoma, germ cell tumors, and malignant peripheral sheath tumors. A chapter is also dedicated to the development and utilization of other piscine models of cancer. The compilation of chapters in the volume culminates into a comprehensive and definitive text on zebrafish and cancer, providing a much needed resource on the powerful attributes of the zebrafish model system.
The Zebrafish in Biomedical Research: Biology, Husbandry, Diseases, and Research Applications is a comprehensive work that fulfills a critical need for a thorough compilation of information on this species. The text provides significant updates for working vivarium professionals maintaining zebrafish colonies, veterinarians responsible for their care and well-being, zoologists and ethologists studying the species, and investigators using the species to gain critical insights into human physiology and disease. As the zebrafish has become an important model organism for the study of vertebrate development and disease, organ function, behavior, toxicology, cancer, and drug discovery, this book presents an important resource for future research. - Presents a complete view of the zebrafish, covering their biology, husbandry, diseases and research applications - Includes the work of world-renowned authors - Provides the first authoritative and comprehensive treatment of zebrafish in biomedical research as part of the ACLAM series
This detailed volume explores numerous methods used in basic science laboratories to characterize cancer-related biomarkers, vital for better managing cancer burden, including cancer risk assessment, cancer diagnosis, determining cancer progression, and therapeutic response. From a radiography method to an examination of single-cell RNA-seq and computational analysis tools in cancer research, this book delves into many techniques that could provide valuable molecular information about the tumor and its microenvironment components. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Cancer Biomarkers: Methods and Protocols offers researchers multiple helpful ways to study cancer-associated molecular biomarkers.
Using HeLa cells, we found that the requirement for SIL in mitotic spindle organization is conserved in mammalian cells. A polyclonal antibody revealed endogenous SIL localizes to the mitotic spindle poles during metaphase. Similar to the defects in the csp mutant zebrafish, two short hairpin RNAs targeted against SIL caused microtubule disorganization in HeLa cells. The combination of results from the zebrafish and mammalian studies show that SIL is required for proper organization of the mitotic spindle.
This volume provides the most recent developments and methodologies on metastatic process, formation, and detection. Chapters guide readers through functional metastasis in vitro assays, non-mouse and mice metastasis models, methods for imaging metastasis, analyzing the tumor microenvironment, senescence and inflammation with respect to metastasis, methods to investgate the premetastatic/ metastatic, detecting biomarkers in patient, and bioinformatics to simulate the metastatic process. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Metastasis: Methods and Protocols aims to be a useful practical guide to researches to help further their study in this field.
This volume of Methods in Cell Biology is the 3e, and provides comprehensive compendia of laboratory protocols and reviews covering all the new methods developed since 2004. This new volume on Disease Models and Chemical Screens, covers two rapidly emerging and compelling applications of the zebrafish. - Details state-of-the art zebrafish protocols, delineating critical steps in the procedures as well as potential pitfalls - This volume concentrates on Disease Models and Chemical Screens
This book provides the latest information on the significance of zebrafish as an ideal model for researching the biomedical field, with references. This book also focused on the evidence of zebrafish as a model in cardiovascular, neurologic, psychiatric and metabolic research. In addition, the book also includes the research carried out on zebrafish in hepatic, renal, ophthalmic, and ENT related areas. Contributed chapters come from the most prominent laboratories working in this field, which provides a unique perspective on zebrafish models from a wide spectrum of the research community. In addition, the book offers a detailed analysis of the most current research in the area for specific zebrafish models including specific research in the area of skin disorders, endocrine diseases, nutritional disorders, gastrointestinal, hematological disorders and cancer. The compilation of chapters in the volume culminates into a comprehensive and definitive text on zebrafish and its suitability for modeling various diseases, providing a critical resource on the potential attributes of the zebrafish as a pharmacological model. In terms of scope, this book is a useful tool for young researchers, professors and pharmaceutical scientists for understanding the significance of zebrafish as an emerging pharmacological model that can significantly aid in the process of drug discovery and development.
This open access book presents recent advances in the pure sciences that are of significance in the quest for alternatives to the use of animals in research and describes a variety of practical applications of the three key guiding principles for the more ethical use of animals in experiments – replacement, reduction, and refinement, collectively known as the 3Rs. Important examples from across the world of implementation of the 3Rs in the testing of cosmetics, chemicals, pesticides, and biologics, including vaccines, are described, with additional information on relevant regulations. The coverage also encompasses emerging approaches to alternative tests and the 3Rs. The book is based on the most informative contributions delivered at the Asian Congress 2016 on Alternatives and Animal Use in the Life Sciences. It will be of value for those working in R&D, for graduate students, and for educators in various fields, including the pharmaceutical and cosmetic sciences, pharmacology, toxicology, and animal welfare. The free, open access distribution of Alternatives to Animal Testing is enabled by the Creative Commons Attribution license in International version 4: CC BY 4.0.
Breast cancer is defined as a group of malignant cells that originate in the breast and have the potential to spread to distant sites in the body, most commonly the liver, lungs, bones and brain. Many factors increase the risk of breast cancer, including but not limited to environmental factors, age, race, gender and obesity. Methylmercury (MeHg) is an environmental metalloestrogen, a type of metal that mimics the activity of estrogen. Previous studies have shown that low concentrations of MeHg cause breast cancer proliferation via the estrogen receptor (ER), but that at high concentrations it causes cell death. However, the long-term effects of MeHg exposure on breast cancer development are unknown and thus worth researching. Many studies have used xenografts in adult zebrafish (Danio rerio) to research metastatic capability. By using xenografts of mammalian breast cancer cells in zebrafish, the effects of MeHg in an in vivo system can be studied in regards to tumor progression. It is hypothesized that dietary MeHg treatment of zebrafish transplanted with human breast cancer cells will increase tumor size and the number of tumors and will result in micrometastases. In order to test this hypothesis, zebrafish from Professor Lanni’s lab in the Biochemistry Department at Wheaton College were used. First, fish were injected with fluorescently-labeled MCF-7 breast cancer cells. Fish survival and health as well as tumor growth and metastasis were measured. Once it was known that tumors could be successfully grown, an eight-week experiment was designed in which zebrafish were injected with fluorescently-labeled MCF-7 cells. Every week, fish were imaged under a fluorescent scope; after the eight-week period, fish were sacrificed and dissected for tumors. Although further troubleshooting is necessary, a protocol was successfully developed for the injection and growth of breast tumor cells in zebrafish.