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Diphtheria toxin

From Wikipedia, the free encyclopedia
tox diphtheria toxin precursor
Cartoon representation of the diphtheria toxin protein
Identifiers
OrganismCorynebacterium diphtheriae
Symboltox
Entrez2650491
RefSeq (Prot)NP_938615
UniProtP00587
Other data
EC number2.4.2.36
Chromosomegenome: 0.19 - 0.19 Mb
Search for
StructuresSwiss-model
DomainsInterPro
Diphtheria toxin, C domain
Identifiers
SymbolDiphtheria_C
PfamPF02763
Pfam clanCL0084
InterProIPR022406
SCOP21ddt / SCOPe / SUPFAM
TCDB1.C.7
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary
Diphtheria toxin, T domain
Identifiers
SymbolDiphtheria_T
PfamPF02764
InterProIPR022405
SCOP21ddt / SCOPe / SUPFAM
TCDB1.C.7
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary
Diphtheria toxin, R domain
Identifiers
SymbolDiphtheria_R
PfamPF01324
InterProIPR022404
SCOP21ddt / SCOPe / SUPFAM
TCDB1.C.7
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary

Diphtheria toxin is an exotoxin secreted mainly by Corynebacterium diphtheriae but also by Corynebacterium ulcerans and Corynebacterium pseudotuberculosis, the pathogenic bacterium that causes diphtheria. The toxin gene is encoded by a prophage[annotation 1] called corynephage β.[1][2] The toxin causes the disease in humans by gaining entry into the cell cytoplasm and inhibiting protein synthesis.[3]

Structure

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Diphtheria toxin is a single polypeptide chain of 535 amino acids consisting of two subunits linked by disulfide bridges, known as an A-B toxin. Binding to the cell surface of the B subunit (the less stable of the two subunits) allows the A subunit (the more stable part of the protein) to penetrate the host cell.[4]

The crystal structure of the diphtheria toxin homodimer has been determined to 2.5 Ångstrom resolution. The structure reveals a Y-shaped molecule consisting of three domains. Fragment A contains the catalytic C domain, and fragment B consists of the T and R domains:[5]

Mechanism

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Diphthamide

The diphtheria toxin has the same mechanism of action as the enzyme NAD(+)—diphthamide ADP-ribosyltransferase (EC 2.4.2.36). It catalyzes the ADP ribosylation of the unusual amino acid diphthamide in eEF-2 by transferring the ADP-ribosyl group from NAD+. The ADP ribosylation of diphthamide inactivates the eEF-2 protein, thus, inhibiting the translation of mRNA. The catalysed reaction is as follows:

NAD+ + peptide diphthamide nicotinamide + peptide N-(ADP-D-ribosyl)diphthamide.

The exotoxin A of Pseudomonas aeruginosa uses a similar mechanism of action.

The steps involved in generating toxicity are as follows:[citation needed]

  1. Processing
    1. The leader region is cleaved during secretion.
    2. Proteolytic nicking separates A and B subunits, which remain joined by disulfide bonds until they reach the cytosol.
  2. The toxin binds to heparin-binding epidermal growth factor precursor (HB-EGF).[9]: 116 
  3. The complex undergoes endocytosis by the host cell.
  4. Acidification inside the endosome induces translocation of the A subunit into the cytosol.
    1. Disulfide bonds are broken.
    2. The B subunit remains in the endosome as a pore.
  5. The A subunit ADP-ribosylates host eEF-2, which is required for protein synthesis; when it is inactivated, the host cannot make protein and thus dies.

Lethal dose and effects

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Diphtheria toxin is extraordinarily potent.[4] The lethal dose for humans is about 0.1 μg of toxin per kg of body weight. Death occurs through necrosis of the heart and liver.[10] Diphtheria toxin has also been associated with the development of myocarditis. Myocarditis secondary to diphtheria toxin is considered one of the biggest risks to unimmunized children.

History

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Diphtheria toxin was discovered in 1888 by Émile Roux and Alexandre Yersin. In 1890, Emil Adolf von Behring developed an anti-toxin based on the blood of horses immunized with attenuated bacteria.[11] In 1951, Freeman found that the toxin gene was not encoded on the bacterial chromosome, but by a lysogenic phage (corynephage β)[2] infecting all toxigenic strains.[12][13][14]

Clinical use

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The drug denileukin diftitox uses diphtheria toxin as an antineoplastic agent.

Resimmune is an immunotoxin that is in clinical trials in cutaneous T cell lymphoma patients. It uses diphtheria toxin (truncated by the cell binding domain) coupled to an antibody to CD3ε (UCHT1).[15]

Research

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Similar to other A-B toxins, diphtheria toxin is adept at transporting exogenous proteins across mammalian cell membranes, which are usually impermeable to large proteins. This unique ability can be repurposed to deliver therapeutic proteins, instead of the catalytic domain of the toxin.[16][17]

This toxin has also been used in neuroscientific and cancer research to ablate specific populations of cells which express the diphtheria toxin receptor (heparin-binding EGF-like growth factor). Administration of the toxin into the organism which does not naturally express this receptor (e.g. mice) will result in the selective ablation of the cell population which do express it.[18][19]

Annotations

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  1. ^ A prophage is a virus that has inserted itself into the genome of the host bacterium.

References

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  1. ^ TABLE 1. Bacterial virulence properties altered by bacteriophages from Wagner PL, Waldor MK (August 2002). "Bacteriophage control of bacterial virulence". Infection and Immunity. 70 (8): 3985–93. doi:10.1128/IAI.70.8.3985-3993.2002. PMC 128183. PMID 12117903.
  2. ^ a b Johnson LP, Tomai MA, Schlievert PM (May 1986). "Bacteriophage Involvement in Group A Streptococcal Pyrogenic Exotoxin A Production". Journal of Bacteriology. 166 (2): 623–7. doi:10.1128/jb.166.2.623-627.1986. PMC 214650. PMID 3009415.
  3. ^ a b c d Bell CE, Eisenberg D (January 1996). "Crystal structure of diphtheria toxin bound to nicotinamide adenine dinucleotide". Biochemistry. 35 (4): 1137–49. doi:10.1021/bi9520848. PMID 8573568.
  4. ^ a b Murphy JR (1996). "Corynebacterium Diphtheriae: Diphtheria Toxin Production". In Baron S, et al. (eds.). Medical microbiology (4th ed.). Galveston, Texas: Univ. of Texas Medical Branch. ISBN 978-0-9631172-1-2. PMID 21413281.
  5. ^ Choe S, Bennett MJ, Fujii G, Curmi PM, Kantardjieff KA, Collier RJ, Eisenberg D (May 1992). "The crystal structure of diphtheria toxin". Nature. 357 (6375): 216–22. Bibcode:1992Natur.357..216C. doi:10.1038/357216a0. PMID 1589020. S2CID 4264277.
  6. ^ a b Bell CE, Eisenberg D (January 1997). "Crystal structure of nucleotide-free diphtheria toxin". Biochemistry. 36 (3): 481–8. CiteSeerX 10.1.1.432.7047. doi:10.1021/bi962214s. PMID 9012663.
  7. ^ a b c Bennett MJ, Eisenberg D (September 1994). "Refined structure of monomeric diphtheria toxin at 2.3 A resolution". Protein Science. 3 (9): 1464–75. doi:10.1002/pro.5560030912. PMC 2142954. PMID 7833808.
  8. ^ Bennett MJ, Choe S, Eisenberg D (September 1994). "Refined structure of dimeric diphtheria toxin at 2.0 A resolution". Protein Science. 3 (9): 1444–63. doi:10.1002/pro.5560030911. PMC 2142933. PMID 7833807.
  9. ^ Gillet, Daniel; Barbier, Julien (2015). "Chapter 4: Diphtheria toxin". In Alouf, Joseph; Ladant, Daniel; Popoff, Michel R. (eds.). The Comprehensive Sourcebook of Bacterial Protein Toxins (Fourth ed.). Elsevier. pp. 111–132. ISBN 978-0-12-800188-2.
  10. ^ Pappenheimer AM (1977). "Diphtheria toxin". Annual Review of Biochemistry. 46 (1): 69–94. doi:10.1146/annurev.bi.46.070177.000441. PMID 20040.
  11. ^ Enke U (2015). "125 Jahre Diphtherieheilserum: Das Behring'sche Gold" [125 years of diphtheria healing serum: Behring’s gold]. Deutsches Ärzteblatt (in German). 112 (49): A-2088.
  12. ^ Freeman VJ (June 1951). "Studies on the virulence of bacteriophage-infected strains of Corynebacterium diphtheriae". Journal of Bacteriology. 61 (6): 675–88. doi:10.1128/JB.61.6.675-688.1951. PMC 386063. PMID 14850426.
  13. ^ Freeman VJ, Morse IU (March 1952). "Further observations on the change to virulence of bacteriophage-infected a virulent strains of Corynebacterium diphtheria". Journal of Bacteriology. 63 (3): 407–14. doi:10.1128/JB.63.3.407-414.1952. PMC 169283. PMID 14927573.
  14. ^ Todar K (2009). "Diphtheria". Todar's Online Textbook of Bacteriology. University of Wisconsin.
  15. ^ Woo JH, Lee YJ, Neville DM, Frankel AE (2010). "Pharmacology of anti-CD3 diphtheria immunotoxin in CD3 positive T-cell lymphoma trials". Immunotherapy of Cancer. Methods in Molecular Biology. Vol. 651. pp. 157–75. doi:10.1007/978-1-60761-786-0_10. ISBN 978-1-60761-785-3. PMID 20686966.
  16. ^ Auger A, Park M, Nitschke F, Minassian LM, Beilhartz GL, Minassian BA, Melnyk RA (August 2015). "Efficient Delivery of Structurally Diverse Protein Cargo into Mammalian Cells by a Bacterial Toxin". Molecular Pharmaceutics. 12 (8): 2962–71. doi:10.1021/acs.molpharmaceut.5b00233. PMID 26103531.
  17. ^ Beilhartz GL, Sugiman-Marangos SN, Melnyk RA (October 2017). "Repurposing bacterial toxins for intracellular delivery of therapeutic proteins". Biochemical Pharmacology. 142: 13–20. doi:10.1016/j.bcp.2017.04.009. PMID 28408344. S2CID 6212879.
  18. ^ Han JH, Kushner SA, Yiu AP, Hsiang HL, Buch T, Waisman A, et al. (March 2009). "Selective erasure of a fear memory". Science. 323 (5920): 1492–6. Bibcode:2009Sci...323.1492H. doi:10.1126/science.1164139. PMID 19286560. S2CID 1257448.
  19. ^ Tammela T, Sage J (2020). "Investigating Tumor Heterogeneity in Mouse Models". Annual Review of Cancer Biology. 4 (1): 99–119. doi:10.1146/annurev-cancerbio-030419-033413. PMC 8218894. PMID 34164589.
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This article incorporates text from the public domain Pfam and InterPro: IPR022406
This article incorporates text from the public domain Pfam and InterPro: IPR022405
This article incorporates text from the public domain Pfam and InterPro: IPR022404








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