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Immunology of HIV Infection
Leading experts provide the only comprehensive book examining all aspects of immune response and immune-based treatments for HIV infection. Contributions, divided into three sections, discuss basic mechanisms, immunopathogenesis of HIV infection, and immune-based therapies. Researchers thoroughly review vaccine-including prospects of T cell vaccine-and gene therapy for HIV infection. Additional topics include organization of HIV genes, the role of co-receptors in signaling of lymphocytes, and biological response modifiers. This reference is designed for basic and clinical researchers, internists, pediatricians, infectious disease specialists, neuropathologists, oncologists, and rheumatologists.
Current Catalog
First multi-year cumulation covers six years: 1965-70.
Human Retroviral Infections
The discovery of the human T cell leukemia virus type I in the late 1970s heralded a new era in retrovirology. For the first time, it was demonstrated that a retrovirus could play a role in the development of a human disease, in this case adult T cell leukemia (ATL). Several years later, the acquired immunodeficiency syndrome (AIDS) epidemic began, and it was dem- strated that a retrovirus, originally designated the human T cell lymp- tropic virus type 3, was the causal agent of this syndrome. This virus, later named the human immunodeficiency virus type 1 (HIV-1), has since been extensively studied in terms of its pathogenesis as well as its ability to elicit immune responses. In that time,...
Molecular Mechanisms of Neuronal Responsiveness
Section I of this volume focused on basic mechanisms of intracellular communication and includes chapters on the regulation of stimulus-secretion coupling, and on the role of ion-channels, mobilization of calcium ions, metabolism of fatty acids and polyphosphoinositides, cyclic nucleotides and protein phosphorylation systems--in receptor-mediated stimulation. A diversity of experimental approaches in represented: electrophysiological studies, biochemical investigations conducted on several levels of organization (cell-free assays, intact cultured cells, in situ and in-vivo studies) and the use of model systems and novel procedures of molecular biology for shedding new light on molecular mechanisms underlying neuronal responsivness.
Intestinal Absorption and Secretion
Here is a thorough, up-to-date survey of the physiological processes through which salt, water, and nutrients are absorbed or secreted by the intestinal tract, and of how these myriad processes are regulated. In twenty-five chapters, written by a team of leading experts, the volume addresses four main topics: the methodologies and basic principles of structure and function; intestinal ion transport; nutrient absorption; and macromolecular transport. Throughout, the contributors emphasize recent developments in the field--for example, neuroendocrine-immune cell interactions in the intestinal mucosa, the regulation of intestinal sodium transport, the cloning of the intestinal glucose carrier, the intestinal cytoskeleton, and the regulation of intestinal epithelial transport function by protein kinases and calmodulin. This is not only the fourth and final volume in the series; it is also the broadest, most contemporary approach to this important topic. As such, this book will be warmly welcomed--and often consulted--by student, scholars, professionals, and anyone researching intestinal absorptive mechanisms and their regulation.
