الصفحة 1
الصفحة 1
Mechanisms of Lymphocyte Activation and Immune Regulation X ; Innate Immunity
Mechanisms of Lymphocyte Activation and Immune Regulation X: Innate Immunity is the proceedings of the Xth International Conference on Mechanisms of Lymphocyte Activation and Immune Regulation: Innate Immunity, held February 6-8, 2004 in Newport Beach, California. It is the tenth volume of its kind to appear in the series Advances in Experimental Medicine and Biology. Topics include toll receptors, dendritic cells, NK cells, and complement receptors.
Immune Mechanisms in Inflammatory Bowel Disease
Immune Mechanisms in Inflammatory Bowel Disease is a highly, concise update of the most recent advances in the immunobiology, genetics and microbiology related to Inflammatory Bowel Disease. This book broadly treats the topics that lead to understanding of the pathogenesis of this disease in an organized, systematic approach.
From Innate Immunity to Immunological Memory
The ability to remember an antigenic encounter for several decades, even for a life time, is one of the fundamental properties of the immune system. This phenomenon known as "immunological memory", is the foundation upon which the concept if vaccination rests. Therefore, understanding the mechanisms by which immunological memory is regulated is of paramount importance. Recent advances in immunology, particularly in the field of innate immunity, suggest that the innate immune system plays fundamental roles in influencing immunological memory. Indeed, emerging evidence suggests that events that occur early, within hours if not minutes of pathogen or vaccine entry profoundly shape the quantity, quality and duration of immunological memory. The present volume assembles a collection of essays from leading experts that span the entire spectrum research from understanding the molecular mechanisms of innate immune recognition, to dendritic cell function, to the generation and maintenance of antigen-specific B and T-cell responses.
Dendritic Cells in Clinics
Great advances have taken place in basic research and the clinical usefulness of dendritic cells (DCs). It has now been clearly established, for instance, that these cells play a crucial role in immune responses against infectious diseases and cancers. Antigen-presenting DCs are widely distributed in the body and regulate both immunity and immune tolerance. Experimental studies have provided important insights into DCs and how they can be used for treating animal models of various diseases that occur in humans. The role of these cells in pathogenesis and the treatment of human diseases is elaborately set forth in this valuable book. Researchers in the field are optimistic that DCs, already in use for treating patients with cancers, soon can be used therapeutically for patients with chronic infections, autoimmune diseases, and allergic manifestations. This volume provides a working definition of DCs and also explains the phenotypes and functions of DCs so that these can be readily understood not only by clinicians but by immunologists, researchers, and students as well.
Crossroads between Innate and Adaptive Immunity
This compilation presents minireviews derived from work presented at the Aegean Conference, which occurred October 9-14, 2005 at the Hilton Conference. Center on the island of Rhodes, Greece. The conference included sessions dedicated to host recognition of and response to pathogens, innate immune networks, antigen presentation, and adaptive immune responses, each headlined by a leading scientist at the forefront of that field. The intimate networking and interaction of dendritic cells, T cells, B cells, NK cells, NK-T cells, and complement during the host response to pathogens and tumors are only now starting to be elucidated.
CD4+CD25+ Regulatory T Cells : Origin, Function and Therapeutic Potential
CD4+CD25+ regulatory T cells (Treg) and interleukin-10 producing T regulatory 1 (Tr1) cells have been studied in most detail and are the subject of most articles in this issue. Treg, also called "natural" regulatory T cells, will be traced from their intra-thymic origin to the site of their action in peripheral lymphoid organs and tissues.
Atlas effectors of anti-tumor immunity
The “Atlas Effectors of Anti-Tumor Immunity” is a unique scientific publication, which includes major issues of up-to-date information about immunophenotype, morphology and function of main effectors of anti-tumor immunity presented in a reasonable format. The Atlas comprises a large number of illustrations presented by schemes and original micrographs demonstrating morphological features and ultrastructure of immunocompetent cells at various stages of differentiation. The volume includes data referring to the history of anti-tumor immunity effectors research, state of the art and perspectives for development of anti-cancer adoptive immunotherapy methods.A special section of the Atlas describes cellular tumor microenvironment and micro-anatomy of carcinomas. Several parts include data about killer cells (natural killer T-cells, lymphokine-activated killers) and T-regulatory lymphocytes. A special chapter gives a wide-range description of antigen-presenting dendritic cells, methods of dendritic cell generation and development of DC-based vaccines for anti-tumor immunotherapy.
Angiogenesis in Inflammation : Mechanisms and Clinical Correlates
This volume relates the lessons learned from tumour biology applied to inflammation. This issue of Angiogenesis in Inflammation: Mechanisms and Clinical Correlates develops current knowledge on the mechanisms at the molecular and cellular levels as they relate to inflammation, including acute and chronic inflammation, neurogenic initiation, and the role of the multiple cellular components that comprise inflammation: granulocytes, macrophages, fibroblasts, dendritic cells and lymphocytes. This is related to inflammatory disease: not only the familiar angiogenesis dependent diseases of rheumatoid arthritis and psoriasis, but also loci such as the lung, gastric ulcers, the eye with uveitis, wound healing and periodontal disease and their therapy, how this knowledge may be used in the discovery of novel therapeutics. The volume brings together experts in each of these fields to link the molecular and cellular processes in angiogenesis to those of inflammation and disease, culminating in a discourse on areas for future therapies.
Analyzing T cell responses : How to analyze cellular immune responses against tumor associated antigens
Active specific immunotherapy is a promising but investigational modality in the management of cancer patients. Currently, several different cancer vaccine formulations such as peptides, proteins, antigen-pulsed dendritic cells, whole tumor cells, etc. in combination with various adjuvants and carriers are being evaluated in clinical trials (1-3). To determine the optimal cancer
