AssessmentsB-cell activation and differentiation
B-cell activation and differentiation
Content Reviewers:Rishi Desai, MD, MPH
The immune response is highly specific for each invader, and that’s because the cells of the adaptive immune response have unique receptors that can differentiate friendly bacteria from potentially deadly pathogens from their unique parts - called antigens.
The remainder of the heavy chain makes up the constant region or constant fragment region, also called Fc.
The two heavy chains are linked to one another by disulfide bonds and each heavy chain is also linked to a light chain by a disulfide bond.
Each B cell receptor, has two identical heavy and light chains, resulting in two identical antigen binding sites.
However, the heavy chain actually changes as the B cell develops.
These five are encoded by heavy chain genes which are referred to by the greek letters mu, delta, gamma, alpha, and epsilon.
When the B cell finishes developing it undergoes a process called alternative splicing.
Alternative splicing is a process by which the cell expresses the heavy chain exons for both mu and delta allowing for both IgM and IgD to be simultaneously expressed on the surface.
At this point the B cell is mature but still naive.
Having IgD on the B cell surface is a like a young adult with a driver’s license - they’re able to go out and explore the world - in the B cell’s case that means all of the body’s lymphatic system - but the cells haven’t been exposed to much and don’t know how they’ll react to foreign antigens.
Lymph nodes are scattered throughout your body, and each one is a highly organized structure where millions of B cells, T cells, antigens, and antigen presenting cells pass through everyday - like a busy airport.
There are two ways to do this depending on if the cells are entering from the lymphatics or the blood.
If the cell is already in the lymph, then it can enter the lymph node through the afferent lymphatic vessel.
If the cell is in the blood, then it can use the high endothelial venules or HEVs.
HEVs are special endothelial cells found at postcapillary sites of lymphoid organs.
These endothelial cells are more plump than the average flat endothelial cell and they also express adhesion molecules like L-selectin.
When lymphocytes pass through the HEVs they can bind to and wiggle through the endothelial cells and slip right into the lymph node.
If a B cell gets activated it starts replicating within a follicle, and it forms a germinal center.
And a follicle with a germinal center is called a secondary lymphoid follicle.
Various antigens enter the lymph node through the afferent lymphatic vessel, and they percolate through the paracortex and through to the follicle.
It looks a bit like a game of plinko where the antigens get to interact with lots of B cells in the follicle.
B cells, unlike T cells, can recognize a wide variety of antigens including peptides, carbohydrates, and lipids in their native form, meaning that they don’t require antigen presenting cells to process or present the antigen.
When two B cell receptors get crosslinked, their intracellular chains, the side chains Ig alpha and Ig Beta, and CD19 all cluster together.