B Cells

  • 5–10% circulating lymphocytes; arise from progenitor stem cell in bone marrow
  • Express Ag-specific receptors on surface of cell; can present Ag to T cells but main function is development into plasma cells and produce Ab
  • Primary immune response: naïve B cells encounter Ag → differentiate into memory cells or plasma cells; IgM produced initially but with help of T cells, B cells produce IgG, IgA, and IgE
  • Secondary immune response: memory B and T helper cells re-exposed to Ag → memory B cells rapidly develop into plasma cells and release ↑↑ amount of Ab (faster, more efficient)
  • Receptors/markers: MHC II molecules, complement receptors (recognize opsonized antigens), Fc receptors (immunoglobulin constant region), CD19, CD20, and CD79a
  • Isotype switching occurs in presence of specific cytokines
   
 
Table 1-11 Complement Fragments
 ComplementFunction
C3a
Neutrophil chemoattractant
C3b
 
Potent agent of opsonization
C3a, C4a
Weak anaphylatoxins (promote inflammatory response by binding to complement receptor on mast cells and triggering release of histamine)
C1 inhibitor
 
Blocks spontaneous activation of C1 by plasma proteases
C5a
Most potent anaphylatoxin (neutrophil/mast cell degranulation, increased vascular permeability, chemoattraction)
C5b
 
Point of assembly for MAC formation
    
 
   


   
 
Table 1-12 Complement Deficiencies
 ComplementFunction
↓ C1 inhibitor
 
Hereditary angioedema (HAE); low levels in acquired angioedema as well
↓ C1–C4 (includes C1q, C1r, C1s)
Increased risk of infections (especially encapsulated organisms like pneumococcus), SLE
↓ C3
 
Increased risk of infections, SLE, partial lipodystrophy, and glomerulonephritis
↓ C5–C9
Increased susceptibility to neisserial infections