Transcript Chapter 12
Chapter 12 B-Cell Activation and Differentiation Dr. Capers Kindt • Goldsby • Osborne Kuby IMMUNOLOGY Sixth Edition Chapter 11 B-Cell Generation, Activation, and Differentiation Copyright © 2007 by W. H. Freeman and Company B cell activation B cell encounters specific antigen B cell presents to T helper cell Cytokines are released for full B cell activation Proliferation, some of the B cells become plasma cells Some of the B cell clones move to germinal centers of lymph nodes, somatic hypermutation can occur Class switching occurs B cell Activation Thymus-dependent (TD) antigens B cell required direct contact with TH cell B-2 B cells, majority of B cells Thymus-independent antigens (TI) These antigens activate B cells by pattern recognition receptors (bacteria that might be in high amount) Type I (TI-1) – lipopolysaccharide Type 2 (TI-2) – highly repititous molecules (bacterial flagella) B cell Activation Membrane bound antibody have short cytoplasmic tails ○ Too short to generate signal by associating with tyrosine kinases and G proteins Membrane Ig must be associated with B-cell receptor Ig-α/Ig-β ITIM (immunoreceptor tyrosine inhibitory motif) ○ Associated with CD22 ○ Functions to deactivate B cells – negative regulation ○ Important in preventing autoimmunity TH cells play essential role in B cell repsonses TEM of interaction between B cell and T cell Humoral Response – Primary vs Secondary Hapten-carrier conjugates Hapten – low molecular weight molecule that won’t itself induce a humoral response Must be coupled to suitable carrier In vivo sites for induction of humoral responses Blood-bourne antigen is filtered by spleen Antigen from tissue spaces filtered by lymph nodes ○ Antigen either enters alone or with antigen- transporting cells - Langerhans cells - Dendritic cells ○ Encounters antigen-presenting cells - Dendritic cells - Macrophages - Follicular dendritic in follicles and germinal centers T cells are green and B cells are red Germinal centers arise within 7-10 days after initial exposure to thymusdependent antigen in lymph node ○ 3 events in germinal centers Affinity maturation - Result of somatic hypermutation Class switching Formation of plasma and memory B cells Cellular events in germinal centers Dendritic cell presents antigen to developing B cells to see which B cells are producing antibody with high-affinity for that antigen Class Switching Dependent on cytokines to switch from IgM to other isotype Thymus-dependent antigens Interaction of CD40 on B cell and CD40L on T cell X-linked hyper-M syndrome ○ TH cells don’t express CD40L, patients only produce IgM No memory cell populations, no germinal centers Regulation Humoral and cell-mediated branches must be heavily regulated Cytokines play important role Antigenic competition Previous encounter with antigen can render animal tolerant or may result in formation of memory cells Presence of antibody can suppress response to antigen Some vaccines are given to babies after maternal IgG (that was transferred across placenta) has left system Vaccination before this will prevent proper response and development of long-lasting memory cells