Since the first TRP ion channel was discovered in Drosophila melanogaster in 1989, the progress made in this area of signaling research has yielded findings that offer the potential to dramatically impact human health and wellness. Involved in gateway activity for all five of our senses, TRP channels have been shown to respond to a wide range of st
In all organs of the body, proteases have critical roles to play both in normal development and functioning and in disease states. The brain is no exception to this, with proteases having emerging roles in synaptic plasticity, memory, neurodegenerative disorders such as Alzheimer’s, Parkinson’s and prion diseases, ischemia and traumatic brain injury, inflammatory and infectious diseases, and tumor progression. Proteases in the Brain brings together a wide range of topics under this central theme and highlights the large number of proteases involved in these normal and disease processes. Proteases in the Brain reviews the role and regulation of proteases in, Alzheimer’s disease, brain ischemia and traumatic brain injury, human glioma, inflammatory and infectious diseases of the central nervous system, metabolism of the prion protein, modulating synaptic activity, multiple sclerosis, neuronal plasticity and memory consolidation, Parkinson’s disease, processing, conversion and inactivation of neuropeptides. Proteases in the Brain is a timely and useful source of information both for those well-versed in the role of proteases in the brain, and for those who are beginning to realize the important role of this family of enzymes in brain function and dysfunction.
This book will give an overview on viruses undergoing proteolytic activation through host proteases. The chapters will be organized in three themed parts, the first part describing respective viruses and their characteristics in detail. In the second part the molecular and cellular biology of the proteases involved as well as their physiological functions will be further explored. The third part will contain a chapter on protease inhibitors that are promising tools for antiviral therapy. This book will engage scholars in virology and medical microbiology as well as researchers with an interest in enzymology and protein structure and function relationship.
Proteolysis is an irreversible posttranslational modification affecting each and every protein from its biosynthesis to its degradation. Limited proteolysis regulates targeting and activity throughout the lifetime of proteins. Balancing proteolysis is therefore crucial for physiological homeostasis. Control mechanisms include proteolytic maturation of zymogens resulting in active proteases and the shut down of proteolysis by counteracting endogenous protease inhibitors. Beyond the protein level, proteolytic enzymes are involved in key decisions during development that determine life and death – from single cells to adult individuals. In particular, we are becoming aware of the subtle role that proteases play in signaling events within proteolysis networks, in which the enzymes act synergistically and form alliances in a web-like fashion. Proteases come in different flavors. At least five families of mechanistically distinct enzymes and even more inhibitor families are known to date, many family members are still to be studied in detail. We have learned a lot about the diversity of the about 600 proteases in the human genome and begin to understand their physiological roles in the degradome. However, there are still many open questions regarding their actions in pathophysiology. It is in this area where the development of small molecule inhibitors as therapeutic agents is extremely promising. Approaching proteolysis as the most important, irreversible post-translational protein modification essentially requires an integrated effort of complementary research disciplines. In fact, proteolytic enzymes seem as diverse as the scientists working with these intriguing proteins. This book reflects the efforts of many in this exciting field of research where team and network formations are essential to move ahead.
Dieses Fachbuch erläutert die molekularen Grundlagen von Entzündungen, spannt den Bogen zu Infektionskrankheiten und den Zusammenhang zwischen Entzündungen und chronischen Erkrankungen, behandelt abschließend den Heilungsprozess und zeigt Therapiemöglichkeiten.
Brain Tumor Invasion Biological, Clinical, and Therapeutic Considerations Edited by Tom Mikkelsen Rolf Bjerkvig Ole Didrik Laerum Mark L. Rosenblum Recent advances in molecular biology have given us profound new insights into the behavior of primary brain tumors. Not only are such tumors more diffuse in their infiltration of brain tissue and therefore less amenable to surgery than brain tumors originating elsewhere in the body—it now appears that the central nervous system and the normal brain itself constitute a biological environment conducive to the uncontrolled spread of primary tumors. Brain Tumor Invasion is the first comprehensive reference devoted to the invasive behavior of primary brain tumors. It examines the biological mechanisms responsible for the increased ability of gliomas to metastasize in the central nervous system, and discusses the role of chemical carcinogens, growth factors, oncogenes, and tumor suppressors in the progression of such metastases. This book surveys the latest research in the field, reviews present and future prospects of anti-invasive brain tumor therapy, and even translates preclinical trials and other research results into potential new therapies. The material is divided into five main categories: Developmental biology and molecular neuro-oncology Pathological and clinical features of malignant brain tumors Models for the study of brain tumor invasion in vivo and in vitro Mechanisms of invasion New therapeutic strategies Brain Tumor Invasion offers dozens of maps and photographs that illustrate topics under discussion. This in-depth introduction to one of the most difficult problems in the management of brain tumors is indispensable to neuro-oncologists involved in brain tumor research and therapy. It is also useful to researchers in cancer biology, neuroscience, cell biology, and molecular genetics.
-There is an acceleration in prion disease research because of the spread of mad cow disease. -This book covers in vitro, cellular, and animal models adapted for the study of TSEs. -Includes bio-saftey procedures.
Lysosomes are membrane-surrounded organelles which are present in all animal cells. The importance of this organelle is underlined by an increasing number of human diseases, which are associated with an impaired function of the lysosomal compartment. This book summarizes the current state-of-the art knowledge about this unique organelle. It addresses the biogenesis of this compartment, the transport of lysosomal proteins, the role of the lysosomal membrane in lysosomal stability and transport, the function of lysosomal proteases and hydrolases, lysosomal storage disorders, and new concepts on how to treat these diseases. In addition to these classical topics, new insights into lysosomal functions are covered by chapters dealing with specialized lysosomes involved in bone resorption and plasma membrane repair, the lysosomal transciptome, and proteome and the emerging role of lysosomes in special forms of autophagy. This book will provide readers with a comprehensive overview into how this fascinating organelle works and how research in the field is developing.
The editors of Mast Cell Biology, Drs. Gilfillan and Metcalfe, have enlisted an outstanding group of investigators to discuss the emerging concepts in mast cell biology with respect to development of these cells, their homeostasis, their activation, as well as their roles in maintaining health on the one hand and on the other, their participation in disease.
