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Pancreatic B Cell Biology in Health and Disease, Volume 360 presents the latest release in this ongoing series on the novel and widely studied physiology of pancreatic cells in homeostasis and under pathogenic conditions. This new volume includes new chapters on a variety of topics, including Pancreatic Beta Cell Dysfunction in Type 1 Diabetes: The Role of Ifn, Sexual Hormones and Diabetes: The Impact in Pancreatic Beta Cell, Pancreatic Beta Cell Dysfunction in Monogenic Diabetes, The Role of MiRNAs In Beta Cell Function, Pancreatic Beta Cell: How Environmental Endocrine Disruptors Alter Its Function, Enteroviral Infections and Pancreatic Beta Cell Dysfunction, and more. Final sections cover Long Non-Coding Rna-Regulated Pathways in Pancreatic Beta Cell: Their Role in Diabetes and Pancreatic Beta Cell Biology in Health and Disease. - Provides updated and extensive review articles that focus on different aspects of pancreatic cell biology - Offers a wide range of perspectives for basic and translational research - Includes original figures that help readers understand the complex pathways involved in cell function in homeostasis and under pathogenic conditions
The beta cells of the pancreatic islets of Langerhans are the only cells in the body that produce and secrete insulin. This metabolic hormone plays a central role in the maintenance of glucose homeostasis. This book provides a comprehensive review of the beta cell in health and disease. The book’s primary aim is to encourage investigators to become actively involved in diabetes research and the search for new approaches to prevent and treat diabetes.
Beta Cells in Health and Disease presents the latest information on the novel and widely studied physiology of pancreatic cells in homeostasis and under pathogenic conditions. This book includes chapters on a variety of topics, including the importance and the biology of insulin hormone, pancreatic beta cell dysfunction in type 1 diabetes, the biological importance of physical activity in managing type 1 diabetes, the use of stem cell therapy for the treatment of diabetes, the role of microRNAs in modulating beta cell function, and more.
The beta cells of the pancreatic islets of Langerhans are the only cells in the body that produce and secrete insulin. This metabolic hormone plays a central role in the maintenance of glucose homeostasis. This book provides a comprehensive review of the beta cell in health and disease. The book’s primary aim is to encourage investigators to become actively involved in diabetes research and the search for new approaches to prevent and treat diabetes.
First published in 1943, Vitamins and Hormones is the longest-running serial published by Academic Press. The Series provides up-to-date information on vitamin and hormone research spanning data from molecular biology to the clinic. A volume can focus on a single molecule or on a disease that is related to vitamins or hormones. A hormone is interpreted broadly so that related substances, such as transmitters, cytokines, growth factors and others can be reviewed. This volume focuses on the pancreatic beta cell. - Expertise of the contributors - Coverage of a vast array of subjects - In depth current information at the molecular to the clinical levels - Three-dimensional structures in color - Elaborate signaling pathways
BetaSys uses the example of regulated exocytosis in pancreatic β-cells, and its relevance to diabetes, to illustrate the major concepts of systems biology, its methods and applications.
From the discovery of Pdx1, the first “master gene” of pancreatic development, to the most recent findings on the role of microRNAs in beta cell homeostasis, the last fifteen years have seen an unprecedented advance in our understanding of the precise development and organization of the many different cell types that make up the pancreas. It is now widely acknowledged that the therapeutic differentiation of stem cells into pancreatic cells is an ambitious endeavor that will not succeed without a thorough understanding of the molecular processes underlying the native development of the organ. This book, aimed at experts and students alike, offers a comprehensive review of the state of the art in both pancreatic development and regeneration. The many strategies to differentiate adult and embryonic stem cells into pancreatic beta cells are also discussed in the context of potential therapeutic interventions for type I diabetes.
Plasticity in insulin-producing cells (β-cells) of the pancreas is a major contributor to metabolic control. Targeted regeneration of pancreatic β-cells for the reversal of diabetes (by optimizing β-cells mass and proliferation to meet metabolic requirements and counter autoimmune response) is still a theoretical intervention. This monograph reviews the biology, ontogeny, capabilities, and present practical limitations of β-cell plasticity. Relevant biochemical pathways are described with the inclusion of information about how they change with aging, during pregnancy, and with diet. Readers will learn the following key aspects about β-cell plasticity: -current knowledge of pancreatic β-cells development, and how β-cell mass and proliferation change throughout the human lifespan -the mechanisms responsible for β-cell plasticity, based on animal models and clinical studies revealing environmental, epigenetic, endocrine and paracrine regulators -the therapeutic potential of resident stem cells within the pancreas / bone marrow and β-cell progenitors This monograph is essential reading for researchers interested in updated knowledge about the molecular and cellular biology of β-cells in the quest to find a reliable therapy for diabetes.
This comprehensive volume discusses in vitro laboratory development of insulin-producing cells. It encompasses multiple aspects of islet biology—from embryonic development and stem cell differentiation to clinical studies in islet transplantation, regulation of islet beta-cell regeneration, pancreatic progenitors, mathematical modelling of islet development, epigenetic regulation, and much more. The chapter authors represent leading laboratories from around the world who contribute their international perspectives and global expertise. Collectively, they provide the reader with a concise yet detailed knowledge of processes and current developments in islet regenerative biology. Pancreatic Islet Biology, part of the Stem Cell Biology and Regenerative Medicine series, is essential reading for researchers and clinicians in stem cells or endocrinology, especially those focusing on diabetes.