CD20

Function

The protein has no known natural ligand and its function is to enable optimal B-cell immune response, specifically against T-independent antigens. It is suspected that it acts as a calcium channel in the cell membrane.It has been shown that CD20 plays a role in the microenvironmental interactions of B cells.

Expression

CD20 is expressed on all stages of B cell development except the first and last; it is present from late pro-B cells through memory cells, but not on either early pro-B cells or plasma blasts and plasma cells. It is found on B-cell lymphomas, hairy cell leukemia, B-cell chronic lymphocytic leukemia, and melanoma cancer stem cells. The expression of CD20 is regulated by the chemokine signalling through the CXCR4/SDF1 axis, and this can be impaired by drugs interfering with microenvironmental interactions.

Immunohistochemistry can be used to determine the presence of CD20 on cells in histological tissue sections. Because CD20 remains present on the cells of most B-cell neoplasms, and is absent on otherwise similar appearing T-cell neoplasms, it can be very useful in diagnosing conditions such as B-cell lymphomas and leukaemias. However, the presence or absence of CD20 in such tumours is not relevant to prognosis, with the progression of the disease being much the same in either case. CD20 positive cells are also sometimes found in cases of Hodgkins disease, myeloma, and thymoma.

Antibody FMC7 appears to recognise a conformational variant of CD20 also known as the FMC7 antigen.

Clinical significance

CD20 is the target of the monoclonal antibodies (mAb) rituximab, obinutuzumab, Ibritumomab tiuxetan, and tositumomab, which are all active agents in the treatment of all B cell lymphomas and leukemias. It has been shown that inhibition of BCR signalling by ibrutinib affects the expression of CD20 and the efficacy of anti-CD20 antibodies.

The anti-CD20 mAB Ofatumumab (Genmab) was approved by FDA in Oct 2009 for Chronic lymphocytic leukemia.

The anti-CD20 mAB obinutuzumab (Gazyva) was approved by FDA in November 2013 for Chronic lymphocytic leukemia.

Additional anti-CD20 antibody therapeutics under development (phase II or III clinical trials in 2008) include :

B cells, CD20, and diabetes mellitus

A link between the immune system's B cells and diabetes mellitus has been determined. In cases of obesity, the presence of fatty tissues surrounding the body's major organ systems results in cell necrosis and insulin desensitivity along the boundary between them. Eventually, the contents of fat cells that would otherwise have been digested by insulin are shed into the bloodstream. An inflammation response that mobilizes both T and B cells results in the creation of antibodies against these cells, causing them to become less responsive to insulin by an as-yet unknown mechanism and promoting hypertension, hypertriglyceridemia, and arteriosclerosis, hallmarks of the metabolic syndrome. Obese mice administered anti-B cell CD-20 antibodies, however, did not become less responsive to insulin and as a result did not develop diabetes mellitus or the metabolic syndrome, the posited mechanism being that anti-CD20 antibodies rendered the T cell antibodies dysfunctional and therefore powerless to cause insulin desensitivity by a B cell antibody-modulated autoimmune response. The protection afforded by anti-CD-20 lasted approximately forty days—the time it takes the body to replenish its supply of B cells—after which repetition was necessary to restore it. Hence, it has been argued that obesity be reclassified as an autoimmune disease rather than a purely metabolic one and focus treatment for it on immune system modulation.