VetBooks.ir  Lymphocyte Surface Molecules





               All cells express thousands of different protein molecules on their
               surface. Hundreds of these surface molecules have been

               characterized, especially on human and mouse lymphocytes (Box
               13.1). As each molecule is characterized it is usually given a
               functional or chemical name. It is also usually given a cluster of
               differentiation (CD) designation as well (Figs. 13.7 and 13.8).
               Currently, the CD system assigns sequential numbers to each

               molecule: CD1, CD2, CD3, and so on, up to CD371. Since arbitrary
               numbers are difficult to remember, the basic principle used in this
               text is that if the molecule's common name is well accepted or

               describes its function, that name will be used. Examples include the
               IgA receptor, FcαR (CD89), the interleukin-6 receptor (CD126), and
               L-selectin (CD62L). CD nomenclature is also used for molecules for
               which the designation is well accepted, such as CD8 and CD4. A list
               of the most relevant CD molecules and their functions can be found

               in Appendix 1.



                 Box 13.1


               A Note on Cell Phenotypes

               All the cells of the body arise from a single precursor cell, the
               fertilized ovum. As the embryo develops and grows, cells
               differentiate both structurally and biochemically. They do this by
               activating required genes while turning off unneeded ones. One

               obvious result is that cells acquire a characteristic morphology.
               Histologic examination shows these structural differences and has
               provided much useful guidance regarding a cell's function.
               Structural differences are limited, however, in what they can tell

               us. For example, T and B cells look identical but differ significantly
               in their biochemistry and their function. As a result, biochemical
               differences must be determined to identify functional cell types.
               One of the best ways to do this is to examine the proteins

               expressed on the cell surface. Cells express hundreds of different
               proteins on their surface, and their identification provides a
               powerful tool to characterize cells. The CD system of identifying




                                                         373