Search results
Results from the WOW.Com Content Network
Long-lived plasma cells (LLPCs) are a distinct subset of plasma cells that play a crucial role in maintaining humoral memory and long-term immunity. [1] They continuously produce and secrete high-affinity antibodies into the bloodstream, conversely to memory B cells , which are quiescent and respond quickly to antigens upon recall.
Instead, plasma cells are identified through flow cytometry by their additional expression of CD138, CD78, and the Interleukin-6 receptor. In humans, CD27 is a good marker for plasma cells; naïve B cells are CD27−, memory B-cells are CD27+ and plasma cells are CD27++. [5] The surface antigen CD138 (syndecan-1) is expressed at high levels. [6]
Differentiation of memory B cells into plasma cells is far faster than differentiation by naïve B cells, which allows memory B cells to produce a more efficient secondary immune response. [4] The efficiency and accumulation of the memory B cell response is the foundation for vaccines and booster shots.
The GC B cells that differentiate into plasma cells are B cells that show high affinity for the antigen. [3] [6] When GC B cells receive help from T follicular helper cells, there is an interaction between CD40 (expressed on the B cell) and CD40L (expressed on the T follicular helper cell), which increases the activation of NF-kB in the B cell.
B cell activation: from immature B cell to plasma cell or memory B cell Basic B cell function: bind to an antigen, receive help from a cognate helper T cell, and differentiate into a plasma cell that secretes large numbers of antibodies. B cell activation occurs in the secondary lymphoid organs (SLOs), such as the spleen and lymph nodes. [1]
In immunology, a naive B cell is a B cell that has not been exposed to an antigen. These are located in the tonsils, spleen, and primary lymphoid follicles in lymph nodes. Once exposed to an antigen, the naive B cell either becomes a memory B cell or a plasma cell that secretes
Differentiation may continue to occur after terminal differentiation if the capacity and functions of the cell undergo further changes. Among dividing cells, there are multiple levels of cell potency, which is the cell's ability to differentiate into other cell types. A greater potency indicates a larger number of cell types that can be derived.
The B cells in the body have two important phenotypes (functional forms)—the antibody secreting, terminally differentiated (that is, they cannot divide further) plasma cells, and the memory and the naive cells—both of which retain their proliferative potential. Another important area where one can talk of "clones" of cells is neoplasms. [3]