THE ADAPTIVE IMMUNE SYSTEM
C. THE LYMPHOID SYSTEM
The overall purpose of this Learning Object is:
1) to introduce the body's lymphoid system; and
2) to learn the roles of the lymphoid system in adaptive immune responses.
LEARNING OBJECTIVES FOR THIS SECTION
Adaptive (acquired) immunity refers to antigen-specific defense mechanisms that take several days to become protective and are designed to remove a specific antigen (def). This is the immunity one develops throughout life. There are two major branches of the adaptive immune responses: humoral immunity and cell-mediated immunity.
1. humoral immunity (def): humoral immunity involves the production of antibody molecules in response to an antigen (def) and is mediated by B-lymphocytes.
2. cell-mediated immunity (def): Cell-mediated immunity involves the production of cytotoxic T-lymphocytes, activated macrophages, activated NK cells, and cytokines in response to an antigen (def) and is mediated by T-lymphocytes.
We will now take a look at the lymphoid system.
The Lymphoid System
The body uses the lymphoid system to enable lymphocytes to encounter antigens and it is here that adaptive immune responses are initiated. The lymphoid system consists of primary lymphoid organs, secondary lymphoid organs, and lymphatic vessels.
a. Primary lymphoid organs
The bone marrow and the thymus constitute the primary lymphoid organs. Both B-lymphocytes and T-lymphocytes are produced from stem cells in the bone marrow. B-lymphocytes (def) mature in the bone marrow while T-lymphocytes (def) migrate to the thymus and mature there. After maturation, both naive B-lymphocytes and naive T-lymphocytes circulate between the blood and the secondary lymphoid organs.
b. Lymphatic vessels
Lymphatic vessels are responsible for flow of lymph within the lymphoid system and are a part of the body's fluid recirculation system. The liquid portion of the blood, called plasma (def), constantly leaks out of capillaries to deliver oxygen and nutrients to cells of the surrounding tissue. Once in the tissue, the plasma is now called tissue fluid (def). While most of this tissue fluid re-enters capillaries and is returned directly to the bloodstream, some fluid enters lymph vessels as lymph (def). The lymph flows through regional lymph nodes and eventually enters the circulatory system at the heart to maintain the fluid volume of the circulation.
c. Secondary lymphoid organs
Adaptive immune responses require antigen-presenting cells (def), such as macrophages and dendritic cells, and ever changing populations of B-lymphocytes and T- lymphocytes. These cells gather to detect and present antigens in secondary lymphoid organs.
The secondary lymphoid organs include highly organized lymphoid organs such as lymph nodes and the spleen, as well as less organized accumulations of lymphoid organs scattered strategically throughout the body.
Lymph nodes (see Fig. 1) contain many reticular fibers that support fixed macrophages and dendritic cells as well as everchanging populations of circulating B-lymphocytes and T-lymphocytes. When microorganisms and other antigens enter tissues, they are transported by tissue fluid into the lymph vessels. Lymph vessels, in turn, carry these antigens, now in the lymph, to regional lymph nodes. In addition, immature dendritic cells located under the surface epithelium of the skin and the surface epithelium of the mucous membranes of the respiratory tract, genitourinary tract, and the gastrointestinal tract capture antigens through pinocytosis and phagocytosis. The dendritic cells detach from their initial site, enter lymph vessels, and are carried to regional lymph nodes. Here the microbes and other antigens in the lymph encounter changing populations of B-lymphocytes, are filtered out and phagocytosed by the fixed macrophages and dendritic cells, and are presented to changing populations of T-lymphocytes (see Fig. 2). Approximately 25 billion different lymphocytes migrate through each lymph node every day.
Like the lymph nodes, the spleen contains many reticular fibers that support fixed macrophages and dendritic cells as well as everchanging populations of circulating B-lymphocytes and T-lymphocytes. When microorganisms and other antigens enter the blood, they are transported by the blood vessels to the spleen. Most of the spleen is referred to as red pulp. This area is involved in the disposal of old red blood cells. Scattered throughout the spleen are isolated areas called the white pulp (see Fig. 3). Here antigens in the blood encounter macrophages, dendritic cells, and ever-changing populations of B-lymphocytes and f T-lymphocytes.
Mucosal surfaces within the body, the most common sites of microbial invasion, are protected by the mucosal immune system consisting of the mucosa-associated lymphoid tissue (def) or MALT, an extensive diffuse system of small concentrations of lymphoid tissue found in various sites of the body such as the gastrointestinal tract, thyroid, breast, lung, salivary glands, eye, and skin. MALT is populated by loose clusters of T-lymphocytes, B-lymphocytes, plasma cells (def), activated TH cells (def), and macrophages (def). MALT can be subdivided into:
- GALT (gut-associated lymphoid tissue, such as the Peyer's patches (see Fig. 4) in the lining of the small intestines, as well as the adenoids, tonsils, and appendix)
- BALT (bronchial-associated lymphoid tissue in the bronchi)
- SALT (skin-associated lymphoid tissue beneath the epidermis)
- NALT (nose-associated lymphoid tissue)
- LALT (larynx-associated lymphoid tissue)
- CALT (conjunctiva-associated lymphoid tissue in the eye)
As cen be seen, no matter how microbes and other antigens enter the body, they will eventually encounter the lymphoid system to initiate adaptive immune responses.
To view a diagram of the lymphatics system, see the Innerbody.com Webpage.
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Updated: June, 2012
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