Pentraxins

(Redirected from Pentraxin)

Pentraxins (PTX), also known as pentaxins, are an evolutionary conserved family of proteins characterised by containing a pentraxin protein domain. Proteins of the pentraxin family are involved in acute immunological responses.[1] They are a class of pattern recognition receptors (PRRs). They are a superfamily of multifunctional conserved proteins, some of which are components of the humoral arm of innate immunity and behave as functional ancestors of antibodies (Abs). They are known as classical acute phase proteins (APP), known for over a century.[2]

Pentaxin family
CRP drawn from PDB: 1B09
Identifiers
SymbolPentaxin
PfamPF00354
InterProIPR001759
PROSITEPDOC00261
SCOP21sac / SCOPe / SUPFAM
CDDcd00152
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary
PDB1limD:32-237 2a3wF:26-219 2a3xH:26-219

1lgnC:26-219 2a3yD:26-219 1gykA:26-219 1sacC:26-219 1hasB:29-222 1crvE:25-220

1lj7D:25-220 1b09C:25-220 1gnhA:25-220

Structure

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Pentraxins are characterised by calcium dependent ligand binding and a distinctive flattened β-jellyroll structure similar to that of the legume lectins.[3] The name "pentraxin" is derived from the Greek word for five (πέντε, pente) and axle (axis) relating to the radial symmetry of five monomers forming a ring approximately 95Å across and 35Å deep observed in the first members of this family to be identified. The "short" pentraxins include Serum Amyloid P component (SAP) and C reactive protein (CRP). The "long" pentraxins include PTX3 (a cytokine modulated molecule) and several neuronal pentraxins.

Family members

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Three of the principal members of the pentraxin family are serum proteins: namely, CRP,[4] SAP,[5] and hamster female protein (FP).[6] PTX3 (or TSG-14) protein is a cytokine-induced protein that is homologous to CRPs and SAPs.

C-reactive protein

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C-reactive protein is expressed during the acute phase response to tissue injury or inflammation in mammals. The protein resembles antibody and performs several functions associated with host defence: it promotes agglutination, bacterial capsular swelling and phagocytosis, and activates the classical complement pathway through its calcium-dependent binding to phosphocholine.[4] CRPs have also been sequenced in an invertebrate, Limulus polyphemus (Atlantic horseshoe crab), where they are a normal constituent of the hemolymph.

Pentraxin 3

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Pentraxin 3 (PTX3) is an acute phase protein whose levels rise during severe infections in humans. In case of central nervous system infections PTX3 helps distinguishes between bacterial and aseptic meningoencephalitis. It is significantly higher in bacterial meningoencephalitis.[7]

Serum amyloid P component

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Serum amyloid P component is a vertebrate protein that is identical to tissue forms of amyloid P component. It is found in all types of amyloid deposits, in glomerular basement membrane and in elastic fibres in blood vessels. SAP binds to various lipoprotein ligands in a calcium-dependent manner, and it has been suggested that, in mammals, this may have important implications in atherosclerosis and amyloidosis.[5]

Hamster female protein

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Hamster female protein is a SAP homologue found in Mesocricetus auratus (the Golden hamster). The concentration of this plasma protein is altered by sex steroids and stimuli that elicit an acute phase response.[6]

Nervous system

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Pentraxin proteins expressed in the nervous system are neural pentraxin I (NPTXI) and II (NPTXII).[8] NPTXI and NPTXII are homologous and can exist within one species. It is suggested that both proteins mediate the uptake of synaptic macromolecules and play a role in synaptic plasticity. Apexin, a sperm acrosomal protein, is a homologue of NPTXII found in Cavia porcellus (Guinea pig).[9]

Human

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Human genes encoding proteins that contain this domain include:

References

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  1. ^ Gewurz H, Zhang XH, Lint TF (February 1995). "Structure and function of the pentraxins". Current Opinion in Immunology. 7 (1): 54–64. doi:10.1016/0952-7915(95)80029-8. PMID 7772283.
  2. ^ Martinez de la Torre Y, Fabbri M, Jaillon S, Bastone A, Nebuloni M, Vecchi A, et al. (May 2010). "Evolution of the pentraxin family: the new entry PTX4". Journal of Immunology. 184 (9): 5055–64. doi:10.4049/jimmunol.0901672. PMID 20357257.
  3. ^ Emsley J, White HE, O'Hara BP, Oliva G, Srinivasan N, Tickle IJ, et al. (January 1994). "Structure of pentameric human serum amyloid P component". Nature. 367 (6461): 338–45. Bibcode:1994Natur.367..338E. doi:10.1038/367338a0. PMID 8114934. S2CID 4284282.
  4. ^ a b Romero IR, Morris C, Rodriguez M, Du Clos TW, Mold C (May 1998). "Inflammatory potential of C-reactive protein complexes compared to immune complexes". Clinical Immunology and Immunopathology. 87 (2): 155–62. doi:10.1006/clin.1997.4516. PMID 9614930.
  5. ^ a b Li XA, Yutani C, Shimokado K (March 1998). "Serum amyloid P component associates with high density lipoprotein as well as very low density lipoprotein but not with low density lipoprotein". Biochemical and Biophysical Research Communications. 244 (1): 249–52. doi:10.1006/bbrc.1998.8248. PMID 9514915.
  6. ^ a b Coe JE, Ross MJ (August 1997). "Electrophoretic polymorphism of a hamster pentraxin, female protein (amyloid P component)". Scandinavian Journal of Immunology. 46 (2): 180–6. doi:10.1046/j.1365-3083.1997.d01-109.x. PMID 9583999. S2CID 6361670.
  7. ^ Zatta M, Di Bella S, Bottazzi B, Rossi F, D'Agaro P, Segat L, et al. (December 2019). "Determination of pentraxin 3 levels in cerebrospinal fluid during central nervous system infections". European Journal of Clinical Microbiology & Infectious Diseases. 39 (4): 665–670. doi:10.1007/s10096-019-03767-w. hdl:11368/2972747. PMID 31813079. S2CID 208812200.
  8. ^ Omeis IA, Hsu YC, Perin MS (September 1996). "Mouse and human neuronal pentraxin 1 (NPTX1): conservation, genomic structure, and chromosomal localization". Genomics. 36 (3): 543–5. doi:10.1006/geno.1996.0503. PMID 8884281.
  9. ^ Reid MS, Blobel CP (December 1994). "Apexin, an acrosomal pentaxin". The Journal of Biological Chemistry. 269 (51): 32615–20. doi:10.1016/S0021-9258(18)31678-8. PMID 7798266.
This article incorporates text from the public domain Pfam and InterPro: IPR001759