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This book provides an up-to-date review of the fundamentals of lipid metabolism and its role in cardiovascular diseases. Focusing on lipid transfer proteins in the circulation and cells, the role of important lipid transporters, the effect of recently discovered lipid binding proteins, and the link between lipid metabolism disorders and cardiovascular diseases, it covers phospholipid transfer protein, cholesteryl ester transfer protein, lipopolysaccharide binding protein, microsomal triglyceride transfer protein, ABC binding cassette members, and more. The book offers graduate students and researchers a coherent overview of lipid transfer and transport, as well as the limitations of current research in the field, and promotes further studies on cardiovascular diseases, as well as pharmaceutical research on drug discovery based on lipid transfer, transport, and binding.
The Sixth Annual International Spring Symposium on Health Sciences, held in Washington, D. C. , in May 1986, brought together over 650 scientists from 19 countries to review and update research on cardiovascular disease. In this volume, which contains 59 chapters, an internationally recognized group of authors con tribute up-to-date accounts of molecular and cellular processes occurring in the vessel wall in atherogenesis and describe approaches to the prevention and treatment of atherosclerosis. The volume is divided into six major sections. Two sections deal with current aspects of lipoprotein metabolism. In Part I, we are alerted to the impact on li poprotein metabolism of structural heterogeneity within the four broad lipoprotein classes. Attention then turns to the components that orchestrate lipoprotein metab olism. Apolipoprotein identities, processing, and functions are described, as are the roles of lipid transfer proteins in plasma lipoprotein remodeling. Hepatic lipase synthesis and secretion are described. In Part II, Nobel Laureates Michael S. Brown and Joseph L. Goldstein describe mutations in the LDL receptor that reveal the functions of its various domains and point out how understanding the LDL receptor has provided a rational basis for its regulation. A discussion of the role of receptors in regulating cholesterol uptake by tissues follows, with emphasis on receptor-ligand interactions. Additional pathways for cholesterol delivery to cells are explored, as are pathways for cholesterol egress.
A complete guide to the role of high-density lipoproteins (HDL) in new and emerging therapies With high-density lipoproteins (HDL) playing an increasing role in cardiovascular disease prevention, there is a growing need for an in-depth look at HDL and its clinical value. This book summarizes the current state of knowledge in the field, providing for the first time a comprehensive, systematic, stylistically coherent, and up-to-date review of the composition, structure, heterogeneity, metabolism, epidemiology, genetics, and function of HDL. Divided into three main parts, High-Density Lipoproteins first examines normal HDL particles, then describes defective HDL, and finally addresses the therapeutic normalization of subnormal levels and defective biological activities of this lipoprotein class. The book highlights the functional properties of HDL, which are relevant to the pathophysiology of atherosclerosis and thrombosis, and discusses the compositional and metabolic heterogeneity of HDL particles. Readers will come away with a clear understanding of the role of HDL in biological processes, the potential value of functional HDL as a therapeutic target, and how current and emerging therapies are poised to influence the treatment of heart disease in the future.
This bibliography is organized into sections on background; relationship of high density lipoprotein, triglyceride, and coronary heart disease; genetics and genetic syndromes; secondary causes of high triglyceride and low high density lipoprotein; measurement of high density lipoprotein and triglyceride; evidence from clinical trials; approach to high triglyceride and low high density lipoprotein; and monographs.
Presents the State-of-the-Art in Fat Taste TransductionA bite of cheese, a few potato chips, a delectable piece of bacon - a small taste of high-fat foods often draws you back for more. But why are fatty foods so appealing? Why do we crave them? Fat Detection: Taste, Texture, and Post Ingestive Effects covers the many factors responsible for the se
That a relation exists between lipids/lipoproteins and coronary artery disease is no longer an arguable point. However, the complexities associated with this relationship, and the number of factors that can impact and alter circumstances and clinical status, are many and diverse. Consequently, this relationship continues to receive a great deal of
Profound mortality rates, due to cardiovascular disease, are a worldwide problem. Cardiovascular disease results from complications of a silent and chronic arterial disease: atherosclerosis. The challenge for the practitioner is adapting diagnostic and therapeutic responses to prevent this common and complex disease. Dyslipidemia, are disorders of the metabolism of soluble transporters of lipids in extracellular spaces of the human body (including blood), called lipoproteins. They are major cardiovascular risk factors, causally related with atherosclerosis and are themselves multifactorial diseases, resulting from interactions between genetic and environmental factors. The study of genetic factors has recently taken a new path with the study of DNA as an experimental object. More than fifty genes of lipoprotein metabolism have been identified in both their physiological actions and their contribution to the pathogenesis of human dyslipidemia. The diversity of observations has refined our current knowledge of the control of lipid metabolism and energy homeostasis in living organisms beyond the limits of the cardiovascular system (e.g., brain, immune system, and development). These studies have given way to a shake-up of former phenotypic classifications, distinguishing new entities, defining targeted therapeutic strategies, providing a basis for different patterns of disease distribution in human populations.
The Sixth Annual International Spring Symposium on Health Sciences, held in Washington, D. C. , in May 1986, brought together over 650 scientists from 19 countries to review and update research on cardiovascular disease. In this volume, which contains 59 chapters, an internationally recognized group of authors con tribute up-to-date accounts of molecular and cellular processes occurring in the vessel wall in atherogenesis and describe approaches to the prevention and treatment of atherosclerosis. The volume is divided into six major sections. Two sections deal with current aspects of lipoprotein metabolism. In Part I, we are alerted to the impact on li poprotein metabolism of structural heterogeneity within the four broad lipoprotein classes. Attention then turns to the components that orchestrate lipoprotein metab olism. Apolipoprotein identities, processing, and functions are described, as are the roles of lipid transfer proteins in plasma lipoprotein remodeling. Hepatic lipase synthesis and secretion are described. In Part II, Nobel Laureates Michael S. Brown and Joseph L. Goldstein describe mutations in the LDL receptor that reveal the functions of its various domains and point out how understanding the LDL receptor has provided a rational basis for its regulation. A discussion of the role of receptors in regulating cholesterol uptake by tissues follows, with emphasis on receptor-ligand interactions. Additional pathways for cholesterol delivery to cells are explored, as are pathways for cholesterol egress.