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Memory, immune system

The immune system in vertebrates provides a defense mechanism against foreign parasites such as viruses and bacteria. Three main properties are essential to its successful operation specific recognition of foreign molecules, the ability to destroy the foreign parasite, and a memory mechanism that allows a more rapid response to a second infection by the same microorganism. [Pg.299]

The ideal of any vaccine is to provide life-long protection to the individual against disease. Immunological memory (Chapter 14) depends upon the survival of cloned populations of small B and T lymphocytes (memory cells). These small lymphocytes have a lifespan in the body of ca. 15-20 years. Thus, if the immune system is not boosted, either by natural exposure to the organism or by re-immunization, then immunity gained in childhood will be attenuated or lost completely by the age of 30. Those vaccines which provide only poor protection against disease have proportionately reduced time-spans of effectiveness. Yellow fever vaccination, which is highly effective, must therefore be repeated at 10-year intervals, whilst typhoid vaccines are only effective for 1-3 years. Whether or not immunization in childhood is boosted at adolescence or in adult life depends on the relative risks associated with the infection as a function of age. [Pg.327]

Studies have consistently identified the immune system as a target for JP-8. Due to variability in routes of exposure and chemical composition, it is likely that there are a number of pathways contributing to the development of immunotoxicity, including the generation of free radicals, release of platelet-activating factor, interference with immunological memory, or the alteration of neuropeptides and cytokines. With further... [Pg.233]

Kurtz, J., Specific memory within innate immune systems, Trends Immunol. 26, 186, 2005. [Pg.380]

The specific, or adaptive, immune system is characterized by memory, specificity, and the ability to distinguish self from nonself. The important cells of the adaptive immune system are the lymphocytes and antigen-presenting cells that are... [Pg.534]

On the one hand, are the soluble factors such as lysozyme and complement, together with the phagocytic cells that contribute to the innate system, and on the other hand are the lymphocyte-based mechanisms that produce antibody and the T lymphocytes, which represent the main elements of the adaptive immune system. Not only do these lymphocytes provide improved resistance by repeated contact with a given infectious agent, but the memory with which they become endowed shows very considerable specificity to that infection. [Pg.176]

Although closely related, monocytes/macrophages (MO) possess features that are distinct from DCs. Due to their limited expression of T-cell costimulatory molecules, MO are not able to prime T cells de novo, but rather stimulate effector/memory T cells by the secretion of cytokines, which support T-cell proliferation. As DCs, MO differentiate from myeloid precursors and form a heterogeneous population of antigen-presenting cells (APCs) that link the innate and adaptive immune systems. However, their ability to interact with T cells via MHC class II TCR interaction(s) as well as engagement of T-cell costimulatory receptors on their surface, makes close contact between MO and Tregs likely to occur in vivo. [Pg.32]

In addition, a distinction is made between cellular and humoral immune responses. The T lymphocytes (T cells) are responsible for cellular immunity. They are named after the thymus, in which the decisive steps in their differentiation take place. Depending on their function, another distinction is made between cytotoxic T cells (green) and helper T cells (blue). Humoral immunity is based on the activity of the B lymphocytes (B cells, light brown), which mature in the bone marrow. After activation by T cells, B cells are able to release soluble forms of their specific antigen receptors, known as antibodies (see p. 300), into the blood plasma. The immune system s memory is represented by memory cells. These are particularly long-lived cells that can arise from any of the lymphocyte types described. [Pg.294]

Immune systems in animals and plants are quite different. There are two types of immune systems in animals (1) innate, so-called non-specific or passive immunity (2) adaptive, so-called specifically acquired , active, or cell-mediated immunity. Innate immunity is based on barriers to infectious agents and adaptive immunity is based on multiplicative and specific antibody release after contact with an antigen (infectious agent). The so-called memory cells in animals respond to secondary contact with an antigen. [Pg.172]

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See also in sourсe #XX -- [ Pg.6 , Pg.8 , Pg.37 ]



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