Corynebacterium diphtheriae: Difference between revisions

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**Results will indicate [[gram-positive]], pleomorphic [[bacteria]] that will dye violet-blue and resemble clubs.<ref name="urlPinkbook | Diphtheria | Epidemiology of Vaccine Preventable Diseases | CDC">{{cite web |url=http://www.cdc.gov/vaccines/pubs/pinkbook/dip.html |title=Pinkbook &#124; Diphtheria &#124; Epidemiology of Vaccine Preventable Diseases &#124; CDC |format= |work= |accessdate=}}</ref>
**Results will indicate [[gram-positive]], pleomorphic [[bacteria]] that will dye violet-blue and resemble clubs.<ref name="urlPinkbook | Diphtheria | Epidemiology of Vaccine Preventable Diseases | CDC">{{cite web |url=http://www.cdc.gov/vaccines/pubs/pinkbook/dip.html |title=Pinkbook &#124; Diphtheria &#124; Epidemiology of Vaccine Preventable Diseases &#124; CDC |format= |work= |accessdate=}}</ref>
*Additional tests include Albert's stain and Loeffler's stain.
*Additional tests include Albert's stain and Loeffler's stain.
*''C. diphtheriae'' should be cultured on an erichment medium, namely to allow it to overgrow any other organisms present in the specimen.<ref>{{cite book |last=Nester |first=Eugene W. |year=2004 |title=Microbiology: A Human Perspective |edition=Fourth |location=Boston |publisher=McGraw-Hill |isbn=0-07-247382-7 |display-authors=etal}}</ref>
*''C. diphtheriae'' should be cultured on an erichment medium, primarily to allow it to overgrow any other organisms present in the specimen.<ref>{{cite book |last=Nester |first=Eugene W. |year=2004 |title=Microbiology: A Human Perspective |edition=Fourth |location=Boston |publisher=McGraw-Hill |isbn=0-07-247382-7 |display-authors=etal}}</ref>
**A selective plate [[tellurite agar]] which allows all ''Corynebacteria'' (including ''C. diphtheriae'') to reduce tellurite to metallic tellurium and produce brown colonies
**A selective plate [[tellurite agar]] which allows all ''Corynebacteria'' (including ''C. diphtheriae'') to reduce tellurite to metallic tellurium and produce brown colonies
***''C. diphtheriae'' is the only [[corynebacterium]] that will produce a black halo around the colonies.
***''C. diphtheriae'' is the only [[corynebacterium]] that will produce a black halo around the colonies.

Revision as of 16:25, 9 February 2017

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This page is about microbiologic aspects of the organism(s).  For clinical aspects of the disease, see Diphtheria.

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Luke Rusowicz-Orazem, B.S.

Corynebacterium diphtheriae
Gram stained Corynebacterium diphtheriae culture
Gram stained Corynebacterium diphtheriae culture
Scientific classification
Kingdom: Bacteria
Phylum: Actinobacteria
Order: Actinomycetales
Family: Corynebacteriaceae
Genus: Corynebacterium
Species: C. diphtheriae
Binomial name
Corynebacterium diphtheriae
Kruse, 1886

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Overview

Corynebacterium diphtheriae is a pathogenic bacterium that causes diphtheria. It is a facultatively anaerobic, Gram positive organism characterized by non-encapsulated, non-sporulated, immobile, straight or curved rods. The genome of C. diphtheriae contains 2,488,635 nucleotides, 2,389 genes, and 69 structural RNA genes. Gram-stain will result in a blue-purple coloration due to containing polymetaphosphate granules. Many strains of C. diphtheriae produce diphtheria toxin, a protein exotoxin, with a molecular weight of 62 kilodaltons which ADP-ribosylates host EF-2, resulting in the inhibition of protein synthesis and producing signs of diphtheria. C. diptheriae is exclusively pathogenic in humans. C. diphtheriae can be classified into following four subspecies: mitis, intermedius, gravis, and belfanti. The diagnosis of C. diphtheriae includes a Gram stain procedure; results will indicate gram-positive, pleomorphic bacteria that will dye violet-blue and resemble clubs. C.diphtheriae causes diphtheria disease in non-immunized human hosts via secreted toxins. Toxigenic strains of the bacterium will secrete toxins in nasopharyngeal or skin lesions. It is common for hosts to carry C. diphtheriae in the nasopharyngeal region without displaying symptoms. Lysogenic conversion of nontoxigenic-toxigenic phenotypes of the bacterium can occur following transmission, allowing non-human/affected hosts to transmit diphtheria to humans. C. diphtheriae is sensitive to antibiotic therapy.

Morphology and Structure

Classification

C. diphtheriae can be classified into the following four subspecies:[1][2]

  • C. diphtheriae mitis
  • C. diphtheriae intermedius
  • C. diphtheriae gravis
  • C. diphtheriea belfanti[6]

Diagnosis

  • The diagnosis ofC. diphtheriae includes a Gram stain procedure.
  • Additional tests include Albert's stain and Loeffler's stain.
  • C. diphtheriae should be cultured on an erichment medium, primarily to allow it to overgrow any other organisms present in the specimen.[7]
    • A selective plate tellurite agar which allows all Corynebacteria (including C. diphtheriae) to reduce tellurite to metallic tellurium and produce brown colonies
      • C. diphtheriae is the only corynebacterium that will produce a black halo around the colonies.

Pathophysiology

  • C.diphtheriae causes diphtheria disease in non-immunized human hosts via secreted toxins.[1][2]
    • Toxigenic strains of the bacterium will secrete toxins in nasopharyngeal or skin lesions; it is common for hosts to carry C. diphtheriae in the nasopharyngeal region without displaying symptoms.
    • A low concentration of iron is required in the medium for toxin production; at high iron concentrations, iron molecules bind to a repressor which shuts down toxin production[8]
  • C.diphtheriae is transmitted through respiratory droplets, secretions, or direct contact.
  • Lysogenic conversion of nontoxigenic-toxigenic phenotypes of the bacterium can occur following transmission, allowing non-human/affected hosts to transmit diphtheria to humans.

Sensitivity

C. diphtheriae is sensitive to the following antibiotics:[9]

External links

  • CoryneRegNet - Database of Corynebacterial Transcription Factors and Regulatory Networks

References

  1. 1.0 1.1 1.2 Baron S, Murphy JR (1996). "Medical Microbiology". 4. PMID 21413281.
  2. 2.0 2.1 2.2 Chang DN, Laughren GS, Chalvardjian NE (1978). "Three variants of Corynebacterium diphtheriae subsp. mitis (Belfanti) isolated from a throat specimen". J. Clin. Microbiol. 8 (6): 767–8. PMC 275340. PMID 106070.
  3. Cerdeno-Tarraga, A. M. (2003). "The complete genome sequence and analysis of Corynebacterium diphtheriae NCTC13129". Nucleic Acids Research. 31 (22): 6516–6523. doi:10.1093/nar/gkg874. ISSN 1362-4962.
  4. Nester, Eugene W.; et al. (2004). Microbiology: A Human Perspective (Fourth ed.). Boston: McGraw-Hill. ISBN 0-07-247382-7.
  5. von Behring E, Kitasato S (1991). "[The mechanism of diphtheria immunity and tetanus immunity in animals. 1890]". Mol. Immunol. (in German). 28 (12): 1317, 1319–20. PMID 1749380.
  6. 6.0 6.1 "Pinkbook | Diphtheria | Epidemiology of Vaccine Preventable Diseases | CDC".
  7. Nester, Eugene W.; et al. (2004). Microbiology: A Human Perspective (Fourth ed.). Boston: McGraw-Hill. ISBN 0-07-247382-7.
  8. Nester, Eugene W.; et al. (2004). Microbiology: A Human Perspective (Fourth ed.). Boston: McGraw-Hill. ISBN 0-07-247382-7.
  9. Zamiri I, McEntegart MG (1972). "The sensitivity of diphtheria bacilli to eight antibiotics". J. Clin. Pathol. 25 (8): 716–7. PMC 477485. PMID 4627747.


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