This book covers basic research topics such as the structure-function relationships of neuropilins and mechanisms of neuropilin-mediated signal transduction, details the most important roles of the neuropilins in developmental biology, and addresses their roles in various conditions such as cancer and various eye diseases. The two neuropilin genes encode scaffold receptors that can bind several different ligands, and also associate with many other receptors and modify their activity. Further, it has been confirmed that they play important roles in the shaping of major organs and tissues such as the nervous system and the vascular system, and that they can modulate immune responses. The book offers a helpful guide for biomedical researchers and all scientists active in the neurosciences, vascular and molecular biology, as well as developmental biology and immunology.
Despite many years of translational research in breast cancer, very few new biomarkers have been implemented for clinical use beyond estrogen receptor, progesterone receptor, and HER2. The main reason is that many promising biomarkers are clinically validated but lack analytical and clinical utility. One explanation is that proper validation of the predictive ability of the biomarker in independent datasets, and with a pre-planned statistical analysis, is not always performed. Thus, there is a need to identify new biomarkers or new ways to subclassify breast cancer patients that are reproducible and easy to implement in the clinical setting but, more importantly, that improve patient’s outcomes.
Receptor Endocytosis and Signalling in Health and Disease, Volume 194 in the Progress in Molecular Biology and Translational Science, highlights new advances in the field. Chapters in this release include An overview on receptor endocytosis and signaling, Signaling molecules: Importance in health and disease conditions, Emerging tools for studying of receptor endocytosis and signaling, Endocytosis of EGFR: Signalling in cancer, Endocytosis of AT1 and AT2 receptors: Signalling in the kidney, Regulation of transferrin receptor trafficking by optineurin and its disease-associated mutants, Endocytosis of Insulin receptor: Signalling in the regulation of glucose homeostasis, Endocytosis of VEGFR: Role in the regulation of angiogenesis, and more. Other sections in this new release include Lymphocyte and monocyte/macrophage receptors mediating immune recognition of tumors, Lymphocyte and monocyte/macrophage receptors triggering immune suppression of tumor immunity, Prion receptors and prion internalization and intra- and inter-cellular transport, Multifunctional role of the ubiquitin proteasome pathway in phagocytosis, Adrenoceptors and SCD1 in adipocytes/adipose tissues: the expression and variation in health and obesity, Frizzled receptors and SFRP5 in lipid metabolism: current findings and potential applications. - Provides the authority and expertise of leading contributors from an international board of authors - Presents the latest release in the Progress in Molecular Biology and Translational Science series - Includes the latest information on Receptor Endocytosis and Signaling in Health and Disease
Lung diseases are leading causes of death and disability globally, with about 65 million people suffering from COPD, and 334 million from asthma. Each year, tens of millions of people develop and can die from lung infections such as pneumonia and TB. Systemic inflammation may induce and exacerbate local inflammatory diseases in the lungs, and local inflammation can in turn cause systemic inflammation. There is increasing evidence of the coexistence of systemic and local inflammation in patients suffering from asthma, COPD, and other lung diseases, and the co-morbidity of two or more local inflammatory diseases often occurs. For example, rheumatoid arthritis frequently occurs together with, and promotes the development of, pulmonary hypertension. This co-morbidity significantly impacts quality of life, and can result in death for some patients. Current treatment options for lung disease are neither always effective, nor condition-specific; there is a desperate need for novel therapeutics in the field. Additionally, the molecular and physiological significance of most major lung diseases is not well understood, which further impedes development of new treatments, especially in the case of coexistent lung diseases with other inflammatory diseases. Great progress has been made in recent years in many areas of the field, particularly in understanding the molecular geneses, regulatory mechanisms, signalling pathways, and cellular processes within lung disease, as well as basic and clinical technology, drug discovery, diagnoses, treatment options, and predictive prognoses. This is the first text to aggregate these developments. In two comprehensive volumes, experts from all over the world present state-of-the-art advances in the study of lung inflammation in health and disease. Contributing authors cover well-known as well as emerging topics in basic, translational, and clinical research, with the aim of providing researchers, clinicians, professionals, and students with new perspectives and concepts. The editors hope these books will also help to direct future research in lung disease and other inflammatory diseases, and result in the development of novel therapeutics.
The ESC Textbook of Vascular Biology is a rich and clearly laid-out guide by leading European scientists providing comprehensive information on vascular physiology, disease, and research.
Located at the interface between blood and the brain, the blood-brain barrier is a dynamic permeability barrier formed by a continuous layer of specialized endothelial cells endowed with important permeability, transport, and regulatory functions that both protect the internal milieu of the brain and allow essential nutrients to be transported into
Protein Kinases in Development and Disease discusses and reviews important, but often neglected, kinases. A good representation of current model organisms from plants and C. elegans to mice are used as the basis to illustrate how we can use our understanding of normal development to learn about disease. - Reviews kinases, the fundamental regulators of most biological processes that have key roles in the development of all organisms - Includes a broad scope of topics that are addressed - Allows researchers and newcomers to this research area to gain a thorough picture of the current knowledge