Anaphylatoxin

Anaphylotoxin-like domain

Structure of porcine C5adesArg.[1]
Identifiers
Symbol ANATO
Pfam PF01821
InterPro IPR000020
SMART ANATO
PROSITE PDOC00906
SCOP 1c5a
SUPERFAMILY 1c5a

Anaphylatoxins, or complement peptides, are fragments (C3a, C4a and C5a) that are produced as part of the activation of the complement system.[2] Complement components C3, C4 and C5 are large glycoproteins that have important functions in the immune response and host defense.[3] They have a wide variety of biological activities and are proteolytically activated by cleavage at a specific site, forming a- and b-fragments.[4] A-fragments form distinct structural domains of approximately 76 amino acids, coded for by a single exon within the complement protein gene. The C3a, C4a and C5a components are referred to as anaphylatoxins:[4][5] they cause smooth muscle contraction, histamine release from mast cells, and enhanced vascular permeability.[5] They also mediate chemotaxis, inflammation, and generation of cytotoxic oxygen radicals.[5] The proteins are highly hydrophilic, with a mainly alpha-helical structure held together by 3 disulfide bridges.[5]

Function

Anaphylatoxins are able to trigger degranulation (release of substances) of endothelial cells, mast cells or phagocytes, which produce a local inflammatory response. If the degranulation is widespread, it can cause a shock-like syndrome similar to that of an allergic reaction.

Anaphylatoxins indirectly mediate:

Examples

Important anaphylatoxins:

Terminology

Although some drugs (morphine, codeine, synthetic ACTH) and some neurotransmitters (norepinephrine, substance P) are important mediators of degranulation of mast cells or basophils, they are generally not called anaphylatoxins. This term is reserved only for fragments of the complement system.

Human proteins containing this domain

C3, C4A, C4B, C4B-1, C5, FBLN1, FBLN2

See also

References

  1. Williamson, Michael P.; Madison, Vincent S. (1990). "Three-dimensional structure of porcine C5ades Arg from proton nuclear magnetic resonance data". Biochemistry 29 (12): 2895–905. doi:10.1021/bi00464a002. PMID 2337573.
  2. Hugli, T. E. (1986). "Biochemistry and biology of anaphylatoxins". Complement 3 (3): 111–27. PMID 3542363.
  3. Fritzinger, D. C.; Petrella, E. C.; Connelly, M. B.; Bredehorst, R; Vogel, C. W. (1992). "Primary structure of cobra complement component C3". Journal of immunology 149 (11): 3554–62. PMID 1431125.
  4. 1 2 Ogata, R. T.; Rosa, P. A.; Zepf, N. E. (1989). "Sequence of the gene for murine complement component C4". The Journal of Biological Chemistry 264 (28): 16565–72. PMID 2777798.
  5. 1 2 3 4 Gennaro, Renato; Simonic, Tatjana; Negri, Armando; Mottola, Cristina; Secchi, Camillo; Ronchi, Severino; Romeo, Domenico (1986). "C5a fragment of bovine complement. Purification, bioassays, amino-acid sequence and other structural studies". European Journal of Biochemistry 155 (1): 77–86. doi:10.1111/j.1432-1033.1986.tb09460.x. PMID 3081348.

Further reading

External links

This article incorporates text from the public domain Pfam and InterPro IPR000020

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