Complement receptor 2

Complement receptor type 2 (CR2), also known as complement C3d receptor, Epstein-Barr virus receptor, and CD21 (cluster of differentiation 21), is a is_associated_with::protein that in humans is encoded by the CR2 is_associated_with::gene.

CR2 is involved in the is_associated_with::complement system. It binds to iC3b (inactive derivative of C3b), C3dg, or is_associated_with::C3d. is_associated_with::B cells have CR2 receptors on their surfaces, allowing the complement system to play a role in B-cell activation and maturation

Interactions
CR2 on mature B cells form a complex with two other membrane proteins, is_associated_with::CD19 and is_associated_with::CD81(=TAPA-1). The CR2-CD19-CD81 complex is often called the B cell coreceptor complex, because CR2 binds to antigens through attached C3d (or iC3b or C3dg) when the membrane IgM binds to the antigen. This results in the B cell having greatly enhanced response to the antigen.

Complement receptor 2 has been shown to interact with CD19.

is_associated_with::Epstein-Barr virus (EBV) binds to B cells at CR2 during infection of these cells. Yefenof et al. (1976) found complete overlapping of EBV receptors and C3 receptors on human B cells.

Isoforms
The canonical Cr2/CD21 gene of subprimate mammals produces two types of complement receptor (CR1, ca. 200 kDa; CR2, ca. 145 kDa) via alternative mRNA splicing. The murine Cr2 gene contains 25 exons; a common first exon is spliced to exon 2 and to exon 9 in transcripts encoding CR1 and CR2, respectively. A transcript with an is_associated_with::open reading frame of 4,224 nucleotides encodes the long isoform, CR1; this is predicted to be a protein of 1,408 amino acids that includes 21 short consensus repeats (SCR) of ca. 60 amino acids each, plus transmembrane and cytoplasmic regions. Isoform CR2 (1,032 amino acids) is encoded by a shorter transcript (3,096 coding nucleotides) that lacks exons 2-8 encoding SCR1-6. CR1 and CR2 on murine B cells form complexes with a co-accessory activation complex containing CD19, CD81, and the fragilis/Ifitm (murine equivalents of LEU13) proteins.

The CR2 gene of primates produces only the smaller isoform, CR2; primate is_associated_with::complement receptor 1, which recapitulates many of the structural domains and presumed functions of Cr2-derived CR1 in subprimates, is encoded by a distinct CR1 gene (apparently derived from the gene Crry of subprimates).

Isoforms CR1 and CR2 derived from the non-primate Cr2 locus possess the same C-terminal sequence, such that association with and activation through CD19 should be equivalent. CR1 can bind to C4b and C3b complexes, whereas CR2 (murine and human) binds to C3dg-bound complexes. CR1, a surface protein produced primarily by is_associated_with::follicular dendritic cells, appears to be critical for generation of appropriately activated B cells of the germinal centre and for mature antibody responses to bacterial infection.

Immunohistochemistry
Although CR2 is present on all mature B-cells and follicular dendritic cells (FDCs), this becomes readily apparent only when is_associated_with::immunohistochemistry is performed on frozen sections. In more conventional paraffin-embedded tissue samples, only the FDCs retain the staining pattern. As a result, CR2, more commonly called CD21 in the context of immunohistochemistry, can be used to demonstrate the FDC meshwork in lymphoid tissue.

This feature can be useful in examining tissue where the normal is_associated_with::germinal centres have been effaced by disease processes, such as is_associated_with::HIV infection. The pattern of the FDC meshwork may also be altered in some neoplastic conditions, such as B-cell is_associated_with::MALT lymphomas, is_associated_with::mantle cell lymphoma, and some is_associated_with::T cell lymphomas. is_associated_with::Castleman's disease is typified by the presence of abnormal FDCs, and both this, and malignant FDC tumours may therefore be demonstrated using CR2/CD21 antibodies.