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Sterol Regulation of Ion Channels, Volume 80, the latest in the Current Topics in Membranes series provides outstanding content to the scientific community on relevant topics that relate to the broad field of membranes. Topics of note in this new release include Membrane structure and general mechanisms of sterol regulation of ion channels, the Regulation of ion channels by sterols as boundary lipids, the Differential effects of sterols on ion channels: specific vs. non-specific interactions, the Structural determinants of cholesterol-ion channels interactions, and the Regulation of Ca2+-sensitive K+ channels by cholesterol and bile acids via distinct channel subunits and sites, amongst other specialized chapters. The serial is targeted towards scientists and researchers in biochemistry and molecular and cellular biology, providing the necessary membrane research to assist them in discovering the current state of a particular field. The authors and editors associated with the Current Topics in Membranes series are recognized as world-renowned scientists in their respective fields, making CTM one of the premier serials on membranes - Contains original material, both textual and illustrative, that make it a very relevant reference - Presented in a very comprehensive manner - Ideal for both researchers in the field and general readers
Examines new research on the role of cholesterol in regulating ion channels and receptors and its effect on health Drawing together and analyzing all the latest research findings, this book explores the role of cholesterol in the regulation of ion channels and receptors, including its pathological effects. It is the first book to comprehensively describe the complex mechanisms by which cholesterol regulates two major classes of membrane proteins. Moreover, it sheds new light on how cholesterol affects essential cellular functions such as the contraction of the heart, propagation of nerve impulses, and regulation of blood pressure and kidney function. Written and edited by leading pioneers in the field, Cholesterol Regulation of Ion Channels and Receptors is divided into three parts: Part I, Cholesterol Regulation of Membrane Properties, introduces the heterogeneity of cholesterol distribution in biological membranes and the physical and biological implications of the formation of cholesterol-rich membrane domains. Part II, Cholesterol Regulation of Ion Channels, examines the mechanisms underlying cholesterol sensitivities of ion channels, including the regulation of ion channels by cholesterol as a boundary lipid. Part III, Cholesterol Regulation of Receptors, explores the latest discoveries concerning how cholesterol regulates distinct types of receptors, including G-protein coupled receptors, LDL and scavenger receptors, and innate immune system receptors. Increased levels of cholesterol represent a major health risk. Understanding cholesterol regulation of ion channels and receptors is essential for facilitating the development of new therapeutic strategies to alleviate the impact of pathological cholesterol conditions. With this book as their guide, readers have access to the most current knowledge in the field.
Knowledge of cholesterol and its interaction with protein molecules is of fundamental importance in both animal and human biology. This book contains 22 chapters, dealing in depth with structural and functional aspects of the currently known and extremely diverse unrelated families of cholesterol-binding and cholesterol transport proteins. By drawing together this range of topics the Editor has attempted to correlate this broad field of study for the first time. Technical aspects are given considerable emphasis, particularly in relation cholesterol reporter molecules and to the isolation and study of membrane cholesterol- and sphingomyelin-rich "raft" domains. Cell biological, biochemical and clinical topics are included in this book, which serve to emphasize the acknowledged and important benefits to be gained from the study of cholesterol and cholesterol-binding proteins within the biomedical sciences and the involvement of cholesterol in several clinical disorders. It is hoped that by presenting this topic in this integrated manner that an appreciation of the fact that there is much more that needs to be taken into account, studied and understood than the widely discussed "bad and good cholesterol" associated, respectively, with the low- and high-density lipoproteins, LDL and HDL.
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
This book describes the methods of analysis and determination of oxidants and oxidative stress in biological systems. Reviews and protocols on select methods of analysis of ROS, RNS, oxygen, redox status, and oxidative stress in biological systems are described in detail. It is an essential resource for both novices and experts in the field of oxidant and oxidative stress biology.
TRP Channels as Therapeutic Targets: From Basic Science to Clinical Use is authored by experts across academia and industry, providing readers with a complete picture of the therapeutic potential and challenges associated with using TRP channels as drug targets. This book offers a unique clinical approach by covering compounds that target TRP channels in pre-clinical and clinical phases, also offering a discussion of TRP channels as biomarkers. An entire section is devoted to the novel and innovative uses of these channels across a variety of diseases, offering strategies that can be used to overcome the adverse effects of first generation TRPV1 antagonists. Intended for all researchers and clinicians working toward the development of successful drugs targeting TRP channels, this book is an essential resource chocked full of the latest clinical data and findings. - Contains comprehensive coverage of TRP channels as therapeutic targets, from emerging clinical indications to completed clinical trials - Discusses TRP channels as validated targets, ranging from obesity and diabetes through cancer and respiratory disorders, kidney diseases, hypertension, neurodegenerative disorders, and more - Provides critical analysis of the complications and side effects that have surfaced during clinical trials, offering evidence-based suggestions for overcoming them
With Cholesterol, Drs. Anna Bukiya and Alex Dopico have compiled a comprehensive resource on biological and clinical aspects of cholesterol, spanning biophysics and biochemistry, as well as the latest pharmacological discoveries employed to tackle disorders associated with abnormal cholesterol levels. Early chapters on basic biology offer guidance in cholesterol lab chemistry, cholesterol metabolism and synthesis, molecular evolution of cholesterol and sterols, cholesterol peptides, and cholesterol modulation. Chapters on cellular and organismal development discuss cholesterol transport in blood, lipoproteins, and cholesterol metabolism; cholesterol detection in the blood; cellular cholesterol levels; hypercholesterolemia; and the role of cholesterol in early human development. Pathophysical specialists consider familial hypobetalipoproteinemia, critical illness and cholesterol levels, coronary artery disease, CESD, cholesterol and viral pathology, cholesterol and neurodegenerative disorders, and cholesterol and substance use disorders. A final section examines pharmacology of drug delivery systems targeting cholesterol related disorders, cholesterol receptors, cholesterol reduction, statins, citrate lyase, cyclodextrins, and clinical management. Cholesterol: From Biophysics and Biochemistry to Pathology and Pharmacology empowers researchers, students, and clinicians across various disciplines to advance new cholesterol-based studies, improve clinical management, and drive drug discovery. - Ties basic biology to clinical application and drug discovery - Provides methods and protocols for lab-based cholesterol research and clinical testing - Examines the latest pharmacological discoveries employed to tackle cholesterol related disorders - Includes chapter contributions from a wide range of specialists, uniting various disciplines
Steroids are among the most widely prescribed drugs for humans, and steroid signaling pathways are present in vertebrates, plants, insects and fungi, presenting new avenues for biotechnological intervention. Genetics of Steroid Biosynthesis and Function focuses on the genetic and cellular aspects of mammalian steroid hormones with particular attent
In this book, renowned scientists describe the role of steroid chirality and modification of lipid membrane physical properties in the modulation of G protein-coupled receptors and ion channels. The application of commonly-used technical approaches such as mass spectrometry and nucleic magnetic resonance transfer spectroscopy for studies on cholesterol distribution and alteration of lipid bilayer characteristics is also discussed. This book offers comprehensive insights into the current understanding of cholesterol-driven modulation of protein function via mechanisms that extend beyond lipid-protein direct interactions. In the first part, the chapters introduce the reader to the use of the chemical derivatives of cholesterol as a valuable laboratory tool in the studies of cholesterol-driven modulation of protein function. In the second part, examples of cholesterol-induced changes in membrane physical characteristics are presented and discussed in light of their multifaceted contribution to the effect of cholesterol on protein function. The book will be of interest to undergraduate and graduate students as well as basic science and medical researchers with a keen interest in the biophysical properties of cholesterol and physiological consequences of cholesterol presence in biological systems.