cells. They have a cortex containing germinal centers and B cells. T
  VetBooks.ir  cells predominate at the center in association with lymphatic

               sinuses. These cells differ, however, from those found in
                                                                         +
                                                                +
                                                                                                   +
               conventional lymph nodes (more γ/δ , WC1  T cells, fewer CD8  T
               cells) (Chapter 14). Intravenously injected carbon particles are
               trapped in the sinusoids of hemolymph nodes, suggesting that they
               may combine features of both the spleen and lymph nodes.



               Spleen


               Just as lymph nodes filter antigens from lymph, so the spleen filters
               blood-borne pathogens and antigens. Indeed, the spleen can be
               considered a specialized lymph node for blood-borne antigens. The
               filtering process removes antigenic particles such as blood-borne

               microorganisms, cellular debris, and aged blood cells. This filtering
               function, together with highly organized lymphoid tissue, makes
               the spleen an important component of the immune system. In

               addition to its immune functions, the spleen also stores red cells
               and platelets, recycles iron, and undertakes red cell production in
               the fetus. As a result, the spleen consists of two forms of tissue. One
               is used predominantly for blood filtering and for red cell storage,
               called the red pulp. It contains large numbers of antigen-presenting

               cells, lymphocytes, and plasma cells. Macrophages in the red pulp
               specialize in removing aged red blood cells and so regulate iron
               recycling. The other tissue is rich in both B and T cells where

               immune responses occur and is called the white pulp. The white
               pulp is separated from the red pulp by a region called the marginal
               zone. This zone contains numerous macrophages and dendritic
               cells as well as a large population of B cells. The spleen is not
               supplied with lymphatic fluid, although it does possess efferent

               lymphatics.


               Structure of White Pulp

               Arteries entering the spleen pass through muscular trabeculae
               before entering the white pulp and branching into arterioles.

               Immediately on leaving the trabeculae, each arteriole is surrounded
               by a layer of lymphoid tissue called the periarteriolar lymphoid
               sheath (Fig. 12.19). The arteriole eventually leaves this sheath and





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