Introductory Immunology

<p>Preface <br>Acknowledgments </p> <p>1. A functional overview of the immune system and components<br>Chapter focus<br>Immune homeostasis <br>Self versus nonself <br>Innate and adaptive immunity <br>Anatomy of the immune system <br>Cells of the immune system <br>First-line defenders: the myeloid cells <br>Adaptive avengers: the lymphoid cells <br>Lymphocytes <br>Cluster of differentiation <br>Summary </p> <p>2. The inflammatory response <br>Chapter focus <br>Inflammation <br>Initiation of the inflammatory response <br>The role of antibodies in inflammation <br>Biological functions of complement <br>Activation and directed migration of leukocytes <br>Pathogen recognition and cytokine signaling <br>Feedback and adaptation from a distance <br>Pathological consequences of the inflammatory Response <br>Summary </p> <p>3. The B lymphocyte: antibodies and how they function <br>Chapter focus <br>B lymphocytes produce antibodies <br>Structural characteristics of immunoglobulins <br>Immunoglobulin nomenclature <br>Biologic properties of antibody isotypes <br>IgD <br>IgM <br>IgG <br>IgA <br>IgE <br>Kinetics of antibody response <br>Membrane-bound immunoglobulin <br>Development of B cells <br>Antibody gene recombination <br>Development and selection of mature B cells <br>Activation and differentiation of B cells <br>Summary </p> <p>4. T lymphocytes: ringleaders of adaptive immune function <br>Chapter focus <br>T lymphocytes: specific and long-lasting immunity <br>The T cell receptor <br>T-cell development <br>Antigen recognition by T cells: requirement of major histocompatibility molecules <br>The HLA locus <br>MHC class I <br>MHC class II <br>T lymphocyte functions <br>CD4 1 T-helper cells <br>Events involved in T lymphocyte activation <br>Role of T cells in B-cell activation <br>Cytotoxic T-cell effectors <br>CD8 1 T cells <br>Other lymphocyte phenotypes <br>γδ T cells <br>Innate lymphocytes <br>Natural killer T (NKT) cells <br>Superantigens <br>Summary </p> <p>5. How we defend against infectious agents <br>Chapter focus <br>Immune homeostasis and pathogenic organisms <br>Major immune defense mechanisms against pathogens <br>Physical barriers to infection <br>Anatomic barrier <br>Physiological barrier <br>Phagocytic and endocytic barriers <br>Inflammatory barriers <br>Bacterial infections <br>Microbial motifs detected through pattern-recognition receptors <br>Mycobacterial infections <br>Viral infections <br>Human immunodeficiency virus <br>Parasitic infections (helminths) <br>Fungal infections<br>Evasion of immune response <br>Summary </p> <p>6. Basic disorders of immune function <br>Chapter focus <br>Immunodeficiency disorders <br>Genetic basis for primary immunodeficiency <br>Innate deficiencies <br>Chronic granulomatous disease/myeloperoxidase deficiency <br>Leukocyte adhesion deficiency <br>Chediak<HIGASHI <br>Complement disorders<br>Innate pattern-recognition receptor disorders<br>Adaptive immune disorders<br>X-linked agammaglobulinemia<br>Selective immunoglobulin A deficiency<br>Common variable immunodeficiency<br>Hyper immunoglobulin M disorders<br>DiGeorge syndrome<br>Wiskott<ALDRICH syndrome<br>Severe combined immunodeficiency<br>Treatment of immunodeficiency diseases<br>Immunodeficiency as a predisposition to disease<br>Human immunodeficiency virus and acquired immunodeficiency syndrome<br>Summary</p> <p>7. Autoimmunity: regulation of response to self<br>Chapter focus<br>Homeostasis, immune regulation, and autoimmunity<br>Tolerance to self<br>Etiology of autoimmune disease<br>Role of autoantibodies and self-reactive T lymphocytes in autoimmune disorders<br>Laboratory tests for autoimmunity<br>Targeted therapeutics<br>Summary</p> <p>8. Immune hypersensitivities<br>Chapter focus<br>Hypersensitive disorders<br>Type I hypersensitivity: immunoglobulin E<MEDIATED hypersensitivity<br>Type II hypersensitivity: antibody-mediated cytotoxic hypersensitivity<br>Type III hypersensitivity: immune complex-mediated hypersensitivity<br>Type IV hypersensitivity: delayed-type (cell-mediated) hypersensitivity<br>Alternative hypersensitivity classifications<br>Summary</p> <p>9. Vaccines and immunotherapy<br>Chapter focus<br>Principles of vaccination<br>Basic concepts of protective immunization<br>Types of immunizations<br>Age and timing of immunizations<br>Vaccine types and components<br>Immunologic adjuvants<br>Passive immunization<br>Therapeutic uses of immunoglobulins<br>Other ways to modify immunity<br>Summary</p> <p>10. Cancer immunology <br>Chapter focus<br>Understanding immune defenses against cancers<br>Tumor antigens<br>Effector mechanisms in tumor immunity<br>Natural killer cells and innate response to tumor cells<br>Adaptive response to tumor cells<br>Escape mechanisms of tumor elimination<br>Tumors of the immune system<br>Immunodiagnosis and immunotherapy<br>Summary</p> <p>11. Transplantation immunology<br>Chapter focus<br>Transplantation defined<br>Tissue histocompatibility<br>Natural isohemagglutinins<br>Human leukocyte antigens<br>Allograft rejection<br>Hyperacute rejection<br>Accelerated rejection<br>Acute rejection<br>Chronic rejection<br>Graft-versus-host disease<br>Pretransplantation histocompatibility evaluation<br>Immunosuppressive drugs to prevent allograft rejection<br>Immunosuppressive therapy<br>Summary</p> <p>12. Assessment of immune parameters and immunodiagnostics<br>Chapter focus<br>Antibody<ANTIGEN reactions<br>Affinity<br>Secondary manifestations of antibody<ANTIGEN binding<br>Solid-phase precipitation assays<br>Radial immunodiffusion<br>The Ouchterlony assay<br>Immunoelectrophoresis<br>Latex agglutination<br>Lateral flow<br>Western blot<br>Immunoassays<br>Enzyme-linked immunoadsorbent assay<br>Detection of cellular antigens<br>Immunohistochemistry<br>Fluorescence-activated cell sorting analysis<br>Multiplex bead arrays<br>Assays to determine immune function<br>Complement fixation test<br>Phagocyte function assays<br>Lymphocyte function assays<br>Other tools to measure immunological status<br>Monoclonal antibodies<br>Microarrays<br>Summary<br>Glossary<br>Index</p>