Enterotoxin type B explained

Enterotoxin type B
Organism:Staphylococcus aureus
Taxid:1280
Symbol:entB
Uniprot:P01552
Symbol:Staphylococcal/Streptococcal toxin, N-terminal domain
Staphylococcal/Streptococcal toxin, N-terminal domain
Pfam:PF01123
Interpro:IPR006173
Prosite:PDOC00250
Scop:1se3

In the field of molecular biology, enterotoxin type B, also known as Staphylococcal enterotoxin B (SEB), is an enterotoxin produced by the gram-positive bacteria Staphylococcus aureus. It is a common cause of food poisoning, with severe diarrhea, nausea and intestinal cramping often starting within a few hours of ingestion.[1] Being quite stable,[2] the toxin may remain active even after the contaminating bacteria are killed. It can withstand boiling at 100 °C for a few minutes. Gastroenteritis occurs because SEB is a superantigen, causing the immune system to release a large amount of cytokines that lead to significant inflammation.

Additionally, this protein is one of the causative agents of toxic shock syndrome.

Function

The function of this protein is to facilitate the infection of the host organism. It is a virulence factor designed to induce pathogenesis.[3] One of the major virulence exotoxins is the toxic shock syndrome toxin (TSST), which is secreted by the organism upon successful invasion. It causes a major inflammatory response in the host via superantigenic properties, and is the causative agent of toxic shock syndrome. It functions as a superantigen through activation of a significant fraction of T-cells (up to 20%) by cross-linking MHC class II molecules with T-cell receptors. TSST is a multisystem illness with several symptoms such as high fever, hypotension, dizziness, rash and peeling skin.

Structure

All of these toxins share a similar two-domain fold (N and C-terminal domains) with a long alpha-helix in the middle of the molecule, a characteristic beta-barrel known as the "oligosaccharide/oligonucleotide fold" at the N-terminal domain and a beta-grasp motif at the C-terminal domain. Each superantigen possesses slightly different binding mode(s) when it interacts with MHC class II molecules or the T-cell receptor.[4]

N-terminal domain

The N-terminal domain is also referred to as OB-fold, or in other words the oligonuclucleotide binding fold. This region contains a low-affinity major histocompatibility complex class II (MHC II) site which causes an inflammatory response.[5]

The N-terminal domain contains regions involved in Major Histocompatibility Complex class II association. It is a five stranded beta barrel that forms an OB fold.[6] [7] [8]

C-terminal domain

The beta-grasp domain has some structural similarities to the beta-grasp motif present in immunoglobulin-binding domains, ubiquitin, 2Fe-2 S ferredoxin and translation initiation factor 3 as identified by the SCOP database.

Notes and References

  1. Web site: eMedicine - CBRNE - Staphylococcal Enterotoxin B. eMedicine. 2011-02-06.
  2. Nema V, Agrawal R, Kamboj DV, Goel AK, Singh L . Isolation and characterization of heat resistant enterotoxigenic Staphylococcus aureus from a food poisoning outbreak in Indian subcontinent . Int. J. Food Microbiol. . 117 . 1 . 29–35 . June 2007 . 17477998 . 10.1016/j.ijfoodmicro.2007.01.015 .
  3. Blomster-Hautamaa DA, Kreiswirth BN, Kornblum JS, Novick RP, Schlievert PM . The nucleotide and partial amino acid sequence of toxic shock syndrome toxin-1 . J. Biol. Chem. . 261 . 33 . 15783–6 . November 1986 . 10.1016/S0021-9258(18)66787-0 . 3782090 . free .
  4. Acharya KR, Papageorgiou AC, Tranter HS . Crystal structure of microbial superantigen staphylococcal enterotoxin B at 1.5 A resolution: implications for superantigen recognition by MHC class II molecules and T-cell receptors . J. Mol. Biol. . 277 . 1 . 61–79 . 1998 . 9514739 . 10.1006/jmbi.1997.1577.
  5. Brosnahan AJ, Schlievert PM . Gram-positive bacterial superantigen outside-in signaling causes toxic shock syndrome . FEBS J. . 278 . 23 . 4649–67 . December 2011 . 21535475 . 10.1111/j.1742-4658.2011.08151.x . 3165073.
  6. Prasad GS, Earhart CA, Murray DL, Novick RP, Schlievert PM, Ohlendorf DH . Structure of toxic shock syndrome toxin 1 . Biochemistry . 32 . 50 . 13761–6 . December 1993 . 8268150 . 10.1021/bi00213a001.
  7. Acharya KR, Passalacqua EF, Jones EY, Harlos K, Stuart DI, Brehm RD, Tranter HS . Structural basis of superantigen action inferred from crystal structure of toxic-shock syndrome toxin-1 . Nature . 367 . 6458 . 94–7 . January 1994 . 8107781 . 10.1038/367094a0 . 1994Natur.367...94A . 4235964 .
  8. Prasad GS, Radhakrishnan R, Mitchell DT, Earhart CA, Dinges MM, Cook WJ, Schlievert PM, Ohlendorf DH . Refined structures of three crystal forms of toxic shock syndrome toxin-1 and of a tetramutant with reduced activity . Protein Sci. . 6 . 6 . 1220–7 . June 1997 . 9194182 . 2143723 . 10.1002/pro.5560060610 .