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With recent studies using genetic, epigenetic, and other molecular and neurochemical approaches, a new era has begun in understanding pathophysiology of suicide. Emerging evidence suggests that neurobiological factors are not only critical in providing potential risk factors but also provide a promising approach to develop more effective treatment and prevention strategies. The Neurobiological Basis of Suicide discusses the most recent findings in suicide neurobiology. Psychological, psychosocial, and cultural factors are important in determining the risk factors for suicide; however, they offer weak prediction and can be of little clinical use. Interestingly, cognitive characteristics are different among depressed suicidal and depressed nonsuicidal subjects, and could be involved in the development of suicidal behavior. The characterization of the neurobiological basis of suicide is in delineating the risk factors associated with suicide. The Neurobiological Basis of Suicide focuses on how and why these neurobiological factors are crucial in the pathogenic mechanisms of suicidal behavior and how these findings can be transformed into potential therapeutic applications.
A comprehensive, state-of-the-art review of our current understanding of the molecular and structural biology of 5-HT receptors and their potential use for drug discovery. The authors describe the anatomical, cellular, and subcellular distribution of 5-HT receptors and demonstrate a powerful approach to elucidating their physiological role using knockout mice in which the 5-HT receptors were deleted. They also review our understanding of the physiological role(s) of 5-HT receptors based mainly on studies performed in genetically engineered mice. Highlights include discussions of the behavioral phenotypes of 5-HT receptor knockout animals, the molecular biology and pharmacology of 5-HT receptors, and insights into the complexity of 5-HT receptor signal transduction.
A timely symposium entitled Body-Fluid Homeostasis: Transduction and Integration was held at Araraquara, São Paulo, Brazil in 2011. This meeting was convened as an official satellite of a joint gathering of the International Society for Autonomic Neuroscience (ISAN) and the American Autonomic Society (AAS) held in Buzios, Rio de Janeiro. Broad international participation at this event generated stimulating discussion among the invited speakers, leading to the publication of Neurobiology of Body Fluid Homeostasis: Transduction and Integration. Drawn from the proceedings and filled with rich examples of integrative neurobiology and regulatory physiology, this volume: Provides updated research using human and animal models for the control of bodily fluids, thirst, and salt appetite Explores neural and endocrine control of body fluid balance, arterial pressure, thermoregulation, and ingestive behavior Discusses recent developments in molecular genetics, cell biology, and behavioral plasticity Reviews key aspects of brain serotonin and steroid and peptide control of fluid consumption and arterial pressure The book highlights research conducted by leading scientists on signal transduction and sensory afferent mechanisms, molecular genetics, perinatal and adult long-term influences on regulation, central neural integrative circuitry, and autonomic/neuroendocrine effector systems. The findings discussed by the learned contributors are relevant for a basic understanding of disorders such as heat injury, hypertension, and excess salt intake. A unique reference on the neurobiology of body fluid homeostasis, this volume is certain to fuel additional research and stimulate further debate on the topic.
This book focuses on the neuropsychopharmacology of serotonin and its role in sleep and wakefulness, presenting neurochemical, electrophysiological, and neuropharmacological approaches to understand the mechanisms of serotonin and related substances. Covering core and contemporary topics in the area, this volume is valuable for all researchers interested in interdisciplinary studies concerning drugs affecting the central nervous system.
Reflecting a vast amount of new information concerning the functional characteristics of the various 5-HT receptor subtypes and the Na+-dependent serotonin transporter (SERT), this volume provides state of the art methodologies currently applied in serotonin research from leading experts in the field. Serotonin Receptor Technologies describes approaches that vary from molecular biological and biochemical techniques (e.g., regarding receptor dimerization), fluorescence microscopy and imaging applications, flow cytometry, the use of organotypic slice and cell cultures to the generation of genetically modified animal models and the development of sophisticated behavioral tests, thus covering a wide spectrum of techniques to study serotonergic signaling in detail. Written for the popular Neuromethods series, chapters include the kind of detail and practical advice that ensures successful results in the lab. Authoritative and convenient, Serotonin Receptor Technologies serves to foster both basic and translational research aiming to further deepen our understanding of the various facets of aminergic systems, as well as to aid research on similar problems with related GPCRs and neurotransmitter transporters.
Serotonin (5-hydroxytryptamine, often cited as 5-HT) is one of the major excitatory neurotransmitters, and the serotonergic system is one of the best studied and understood transmitter systems. It is crucially involved in the organization of virtually all behaviours and in the regulation of emotion and mood, and pathological alterations in the serotonergic system underlie behaviour and psychiatric conditions (among a host of very successful drugs targeting the serotoninergic system are Prozac and Zoloft). This is the first truly integrated handbook providing a broad overview over the many face
Cells maintain uneven distribution of Na, K and Ca ions across the cell membrane and membranes of intracellular organellae. Cells exert their functions by allowing for some ion to cross the membrane through ion channels which either produces an electrical effect across the membrane or switches on a series of chemical or physicochemical reactions. This is a comprehensive book about these vitally important ion channels with detailed description of the molecular structure and function and especially of activators and inhibitors. All chapters are written by renowned specialists in their field.
What's new in antidepressant research? Despite the availability of antidepressants for over 40 years, a substantial proportion of depressed patients do not respond adequately to treatment. Failure to respond effectively to treatment contributes to physical ill-health and psychiatric morbidity, often resulting in premature death of the depressed patient. The purpose of this volume is to consider the possible reasons for the limitations of the currently available antidepressants, to examine the advances in our understanding of the psychopathology of depression and how such knowledge may assist in the discovery of new methods of treatment. Leading international experts in this field discuss the possible underlying reasons for depression and limitations of current antidepressants. Opportunities for novel therapeutic approaches to dysfunctional circadian rhythms and mood disorders as well as current status and future perspectives for optimizing antidepressant management of depression are reviewed. This publication illustrates the breadth of the latest research and is valuable reading for psychiatrists, neuroscientists and pharmacologists.