The first book to specifically cover the molecular biology of retroviruses - of immense importance since the high profile of HIV. International contributors provide detailed reviews of the latest knowledge. An excellent text for both medical and non-medical researchers, it also serves as an illuminating introduction for scientists active in other areas.
This book presents twenty-four tightly focused reviews on the biology, molecular biology, pathology, and epidemiology of the human retroviruses, particularly HIV and HTLV (Types I and II), as well as animal model systems (simian retroviruses, STLV and SIV, and mouse models). Editor Robert C. Gallo is recognized as a co-discoverer of the AIDS virus.
The precise relationship between viral infection and malignancy remains an epidemiologic association and the subject of active investigation. Nonmalignant hematologic disorders have a similarly complex relationship with cancer-associated viruses and may offer insight into the pathogenesis of oncogenesis. This book explores the relationships between viral infections, immune impairments and the hematologic and malignant diseases, particularly against the backdrop of the HIV epidemic. By extending the scope to all of viral oncology the editors provide an invaluable resource on tumors related to other viruses other than HIV, particularly carcinomas of the cervix and anus with HPV and tumors of the liver with the various hepatitis viruses.
A successful vaccine for the prevention and/or immunotherapy against HIV/AIDS is one of the prominent challenges of the 21st century. To date, all human vaccine trials against this virus/disease have resulted in failure, or at best have shown very low efficacy. The scientific community dealing with HIV/AIDS has unanimously proposed a focus on basic science, with the intention of identifying correlates of protection that can serve as guides in developing and evaluating vaccine preparation. However, Nature seems to have already found several ways of dealing with infections by HIV and related primate lentiviruses, either by resisting infection or, once infected, avoiding immune damage and immunodeficiency. Models of Protection Against HIV/SIV will allow for an in-depth reflection on the perspectives for vaccine and therapy research derived from important recent studies. It will be authored by some of the most well known specialists in the field of HIV resistance/protection: including F. Barré-Sinoussi (2008 Nobel Prize for Medicine winner), B. Walker, S. Rowland-Jones, A. Telenti, M. Lederman and F. Plummer. This book is structured in a unique way, looking at three models of resistance/protection separately and then comparing the models against one another to provide its readership with a detailed examination of the research that is most predominant in the search for a vaccine. This structure presents the information in an easy-to-understand format and gives the book a cross-discipline appeal -- an important reference for those in the scientific community, medical care, public health and academia alike. Provides extensive descriptions and comparisons on the different models of protection agains HIV/AIDS Comprehensive writing and illustrations Contributors are among the most eminent specialists in the field
This second edition is a comprehensive study of the viruses that affect the brain and the central nervous system. Along with a focus on the viruses themselves, it addresses the diseases they cause, current treatments and preventive measures. Also discussed are the unique aspects of how viruses cause disease and why certain hosts are more susceptible (e.g., polymorphisms, age, co-morbidities). Because there are 29 cutting edge chapters, written by experts in the fields, Neurotropic Viral Infections has been divided into two separate volumes. Volume 1, Neurotropic RNA Viruses, includes 14 chapters on RNA viruses that cause human disease of the central nervous system ranging from Bornavirus to polio to West Nile. Volume 2, Neurotropic Retroviruses, DNA Viruses, Immunity and Transmission, includes 15 chapters divided into two parts. Part 1 includes 7 chapters on retroviruses and DNA viruses that cause human disease of the central nervous system ranging from HIV to varicella zoster virus. Part 2 includes chapters on transmission of these viruses by transplantation, bites by bats and insects, clinical management of the infections, and beneficial uses of attenuated viruses. Neurotropic Viral Infections is a unique resource, bridging basic, clinical, and translational approaches.
"Principles of Molecular Virology, Fourth Edition" provides an essential introduction to modern virology in a clear and concise manner. It is a highly enjoyable and readable text with numerous illustrations that enhance the reader's understanding of important principles. It contains new material on virus structure, virus evolution, zoonoses, bushmeat, SARS and bioterrorism. The standard version includes a CD-ROM with Flash animations, virtual interactive tutorials and experiments, self-assessment questions, useful online resources, along with the glossary, classification of subcellular infectious agents and history of virology.
Human T-cell leukemia virus type 1 (HTLV-1) was the first human retrovirus discovered, in 1980, by Gallo and co-workers. About 5-10% of HTLV-1-infected individuals are at risk of developing either a fatal malignancy, adult T-cell leukemia (ATL), or a chronic neuroinflammatory syndrome, HTLV-associated myelopathy/tropical spastic paraparesis (HAM/TSP). Both diseases are incurable at present. Many issues concerning HTLV-1’s life cycle and pathobiology are still unsolved or controversial, and new approaches for prognostic stratification of patients and eradication of HTLV-1 infection are in high demand. In this Research Topic, the focus has been centered on discussing two main themes: the functional analysis and oncogenic potential of HTLV-1 regulatory proteins and the control of HTLV-1-associated diseases. The 22 articles in this eBook cover many different aspects of HTLV-1 infection and pathogenesis, providing new perspectives and groundwork for future studies.
This volume summarizes recent advances in understanding the mechanisms of HIV-1 latency, in characterizing residual viral reservoirs, and in developing targeted interventions to reduce HIV-1 persistence during antiretroviral therapy. Specific chapters address the molecular mechanisms that govern and regulate HIV-1 transcription and latency; assays and technical approaches to quantify viral reservoirs in humans and animal models; the complex interchange between viral reservoirs and the host immune system; computational strategies to model viral reservoir dynamics; and the development of therapeutic approaches that target viral reservoir cells. With contributions from an interdisciplinary group of investigators that cover a broad spectrum of subjects, from molecular virology to proof-of-principle clinical trials, this book is a valuable resource for basic scientists, translational investigators, infectious-disease physicians, individuals living with HIV/AIDS and the general public.
