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CD3 (immunology)

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(Redirected from Cluster of differentiation 3) Protein complex and T cell co-receptor
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The T-cell receptor complex with TCR-α and TCR-β chains (top), ζ-chain (CD247) accessory molecules (bottom) and CD3 (represented by CD3γ, CD3δ and two CD3ε).
CD3d molecule, delta
Identifiers
SymbolCD3D
Alt. symbolsT3D
NCBI gene915
HGNC1673
OMIM186790
PDB1XIW
RefSeqNM_000732
UniProtP04234
Other data
LocusChr. 11 q23
Search for
StructuresSwiss-model
DomainsInterPro
CD3e molecule, epsilon
Identifiers
SymbolCD3E
NCBI gene916
HGNC1674
OMIM186830
RefSeqNM_000733
UniProtP07766
Other data
LocusChr. 11 q23
Search for
StructuresSwiss-model
DomainsInterPro
CD3g molecule, gamma
Identifiers
SymbolCD3G
NCBI gene917
HGNC1675
OMIM186740
RefSeqNM_000073
UniProtP09693
Other data
LocusChr. 11 q23
Search for
StructuresSwiss-model
DomainsInterPro

CD3 (cluster of differentiation 3) is a protein complex and T cell co-receptor that is involved in activating both the cytotoxic T cell (CD8+ naive T cells) and T helper cells (CD4+ naive T cells). It is composed of four distinct chains. In mammals, the complex contains a CD3γ chain, a CD3δ chain, and two CD3ε chains. These chains associate with the T-cell receptor (TCR) and the CD3-zeta (ζ-chain) to generate an activation signal in T lymphocytes. The TCR, CD3-zeta, and the other CD3 molecules together constitute the TCR complex.

Structure

The CD3γ, CD3δ, and CD3ε chains are highly related cell-surface proteins of the immunoglobulin superfamily containing a single extracellular immunoglobulin domain.

A structure of the extracellular and transmembrane regions of the CD3γε/CD3δε/CD3ζζ/TCRαβ complex was solved with CryoEM, showing for the first time how the CD3 transmembrane regions enclose the TCR transmembrane regions in an open barrel.

Containing aspartate residues, the transmembrane region of the CD3 chains is negatively charged, a characteristic that allows these chains to associate with the positively charged TCR chains.

The intracellular tails of the CD3γ, CD3ε, and CD3δ molecules each contain a single conserved motif known as an immunoreceptor tyrosine-based activation motif, or ITAM for short, which is essential for the signaling capacity of the TCR. The intracellular tail of CD3ζ contains 3 ITAM motifs.

Regulation

Phosphorylation of the ITAM on CD3 renders the CD3 chain capable of binding an enzyme called ZAP70 (zeta associated protein), a kinase that is important in the signaling cascade of the T cell.

As a drug target

Immunosuppressant

Because CD3 is required for T-cell activation, drugs (often monoclonal antibodies) that target it are being investigated as immunosuppressant therapies (e.g., otelixizumab, teplizumab) for type 1 diabetes and other autoimmune diseases.

Cancer immunotherapy

New anticancer drug treatments are being developed based upon the CD3 T cell co-receptor, with molecules being designed for altering the co-stimulatory signal to help get the T-cell to recognize the cancer cell and become fully activated. Cancers that possess the B7-H3 immunoregulatory checkpoint receptor on the tumor cell have been one such target in clinical trials. This B7-H3 protein is expressed on cancer cell for several types of cancer. Often, the drug will contain two domains, one binding the T-cell's CD3 and the other targeting and binding cancer cells.

Immunohistochemistry

CD3 is initially expressed in the cytoplasm of pro-thymocytes, the stem cells from which T-cells arise in the thymus. The pro-thymocytes differentiate into common thymocytes, and then into medullary thymocytes, and it is at this latter stage that CD3 antigen begins to migrate to the cell membrane. The antigen is found bound to the membranes of all mature T-cells, and in virtually no other cell type, although it does appear to be present in small amounts in Purkinje cells.

This high specificity, combined with the presence of CD3 at all stages of T-cell development, makes it a useful immunohistochemical marker for T cells in tissue sections. The antigen remains present in almost all T-cell lymphomas and leukaemias, and can therefore be used to distinguish them from superficially similar B-cell and myeloid neoplasms.

References

  1. Yang H, Parkhouse RM, Wileman T (June 2005). "Monoclonal antibodies that identify the CD3 molecules expressed specifically at the surface of porcine gammadelta-T cells". Immunology. 115 (2): 189–196. doi:10.1111/j.1365-2567.2005.02137.x. PMC 1782146. PMID 15885124.
  2. Zheng L, Lin J, Zhang B, Zhu Y, Li N, Xie S, et al. (September 2019). "Structural basis of assembly of the human T cell receptor-CD3 complex". Nature. 573 (7775): 546–552. Bibcode:2019Natur.573..546D. doi:10.1038/s41586-019-1537-0. PMID 31461748. S2CID 201665009.
  3. Kuby J, Kindt TJ, Goldsby RA, Osborne BA (2007). Kuby Immunology. San Francisco: W.H. Freeman. ISBN 978-1-4292-0211-4.
  4. Gaglia J, Kissler S (October 2019). "Anti-CD3 Antibody for the Prevention of Type 1 Diabetes: A Story of Perseverance". Biochemistry. 58 (40): 4107–4111. doi:10.1021/acs.biochem.9b00707. PMC 6918689. PMID 31523950.
  5. Leong AS, Cooper K, Leong FJ (2003). Manual of Diagnostic Cytology (2nd ed.). Greenwich Medical Media, Ltd. pp. 63–64. ISBN 1-84110-100-1.

Further reading

  • Shiv P, Abul KA, Andrew W (2011). Cellular and Molecular Immunology: with STUDENT CONSULT Online Access. Philadelphia: Saunders. ISBN 978-1-4377-1528-6.

External links

Transmembrane receptors: immunoglobulin superfamily immune receptors
Antibody receptor:
Fc receptor
Epsilon (ε)
Gamma (γ)
Alpha (α)/mu (μ)
Secretory
Antigen receptor
B cells
Antigen receptor
Co-receptor
stimulate:
inhibit:
Accessory molecules
T cells
Ligands
Antigen receptor
Co-receptors
Accessory molecules
Cytokine receptor
Killer-cell IG-like receptors
Leukocyte IG-like receptors
Proteins: clusters of differentiation (see also list of human clusters of differentiation)
1–50
51–100
101–150
151–200
201–250
251–300
301–350
Cluster of differentiation by lineage
Lymphoid
B cell
T/NK
T cell
NK cell
All
All
Myeloid
CFU-GM/
Myelomonocyte
MEP
CFU-Meg
CFU-E
All (pan-myeloid)
Stem cell
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