There are two classes of MHC. MHC I are expressed in all cells except red blood cells (because they lack nuclei). MHC I andMHC II are expressed in professional antigen presenting cells (APC's) that include :macrophages, dendritic cells and B cells.
Professional antigen presenting cells. These include: B cells, dendritic cells and macrophages.
MHC proteins express antigens on a cell surface for T cells to identify whether the antigens presented are self or foreign. There are two classes MHC I and MHC II. They differ in which cells they require to activate depending on the pathogen present.
Class I MHC molecules present antigens to cytotoxic T-cells (which are CD3+CD8+).
Presented by APCs as MHC-exogenous peptide complex
Each individual has a unique MHC profile Clinically important MHC are HLA(human leukocyte antigens) -A, -B -DR -expression of a particular combination of MHC genes Class I - are located on all nucleated cells Class II - are located on macrophages, dendritic cells, B cells.
All cells with a nuclei have MHC class 1.
Yes they do. MHC 1 are expressed by all nucleated calls (except neurones) and platelets. MHC 11 are expressed by B-cells, macrophages and dendtitic cells. Therefore, some cells express both types.
The thymus goes through a positive and negative selection for T cells. T cells will respond to MHC class 1, either ignore if self or activate to destroy if foreign.
T cell receptors bind to MHC class 1 molecules. MHC class 1 molecules bind to peptides (self or foreign) and present it to the cell's membrane. The job of a T cell is to decide what is presented on the MHC class 1 cell whether to leave it alone or to activate to destroy it because it is non-self.
HLA (human leukocyte antigen) is the name for the MHC (major histocompatibility complex) found in humans. MHC class I molecules (HLA-A, HLA-B, HLA-C) are found on pretty much all cells (some important exceptions are red blood cells). MHC Class II molecules (HLA-DQ, HLA-DP, HLA-DR) are found on special antigen presenting cells, which include B-lymphocytes, dentritic cells, and macrophages.
thyroid cells produce class-2 MHC molecules that stimulate autoantibodies that bind to the TSH receptor
The role of cytotoxic T cells is to alert Class I MHC molecules to a foreign antigen. This is achieved by the foreign antigen associating with the MHC molecule and being moved out to the cell surface, where the cytotoxic T cell alerts the MHC molecule of the infection.
When an antigen is bound to a class II MHC protein, it can activate helper T cells. Helper T cells play a critical role in initiating and coordinating immune responses by releasing various signaling molecules and activating other immune cells.