Staphylococcus

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Staphylococcal
)
Not to be confused with Streptococcus.
"Staph" redirects here. Not to be confused with Staff.

Staphylococcus
Scanning electron micrograph
of S. aureus colonies: Note the grape-like clustering common to Staphylococcus species.
Scientific classification Edit this classification
Domain: Bacteria
Phylum: Bacillota
Class: Bacilli
Order: Bacillales
Family: Staphylococcaceae
Genus: Staphylococcus
Rosenbach 1884
Species

Staphylococcus is a

cocci), and form in grape-like clusters. Staphylococcus species are facultative anaerobic organisms
(capable of growth both aerobically and anaerobically).

The name was coined in 1880 by Scottish surgeon and bacteriologist

New Latin: coccus, lit.'spherical bacterium' (from Ancient Greek: κόκκος, romanized: kókkos, lit.'grain, seed, berry'[3]
).

Staphylococcus was one of the leading infections in hospitals and many strains of this bacterium have become

antibiotic resistant. Despite strong attempts to get rid of them, staph bacteria stay present in hospitals, where they can infect people who are most at risk of infection.[4]

Staphylococcus includes at least 44 species. Of these, nine have two

animals. Staphylococcus species have been found to be nectar-inhabiting microbes.[6] They are also a small component of the soil microbiome.[7]

Taxonomy

The taxonomy is based on 16s

rRNA sequences,[8]
and most of the staphylococcal species fall into 11 clusters:

  1. S. aureus group – S. argenteus, S. aureus, S. schweitzeri, S. simiae
  2. S. auricularis group – S. auricularis
  3. S. carnosus group – S. carnosus, S. condimenti, S. debuckii, S. massiliensis, S. piscifermentans, S. simulans
  4. S. epidermidis group – S. capitis, S. caprae, S. epidermidis, S. saccharolyticus
  5. S. haemolyticus group – S. borealis, S. devriesei, S. haemolyticus, S. hominis
  6. S. hyicus-intermedius group – S. agnetis, S. chromogenes, S. cornubiensis, S. felis, S. delphini, S. hyicus, S. intermedius, S. lutrae, S. microti, S. muscae, S. pseudintermedius, S. rostri, S. schleiferi
  7. S. lugdunensis group – S. lugdunensis
  8. S. saprophyticus group – S. arlettae, S. caeli, S. cohnii, S. equorum, S. gallinarum, S. kloosii, S. leei, S. nepalensis, S. saprophyticus, S. succinus, S. xylosus
  9. S. sciuri group – S. fleurettii, S. lentus, S. sciuri, S. stepanovicii, S. vitulinus
  10. S. simulans group – S. simulans
  11. S. warneri group – S. pasteuri, S. warneri

A twelfth group – that of S. caseolyticus – has now been removed to a new genus, Macrococcus, the species of which are currently the closest known relatives of Staphylococcus.[9]

Two species were described in 2015 – Staphylococcus argenteus and Staphylococcus schweitzeri – both of which were previously considered variants of S. aureus.[10]

A new coagulase negative species – Staphylococcus edaphicus – has been isolated from Antarctica.[11] This species is probably a member of the S. saprophyticus group.

Groups

Based on an analysis of orthologous gene content three groups (A, B and C) have been proposed.[12]

Group A includes S. aureus, S. borealis, S. capitis, S. epidermidis, S. haemolyticus, S. hominis, S. lugdunensis, S. pettenkoferi, S. simiae and S. warneri.

Group B includes S. arlettae, S. cohnii, S. equorum, S. saprophyticus and S. xylosus.

Group C includes S. delphini, S. intermedius and S. pseudintermedius.

Notes

The S. saprophyticus and S. sciuri groups are generally novobiocin-resistant, as is S. hominis subsp. novobiosepticus.

Members of the S. sciuri group are oxidase-positive due to their possession of the enzyme cytochrome c oxidase. This group is the only clade within the staphylococci to possess this gene.

The S. sciuri group appears to be the closest relations to the genus Macrococcus.

S. pulvereri has been shown to be a junior synonym of S. vitulinus.[13]

Within these clades, the S. haemolyticus and S. simulans groups appear to be related, as do the S. aureus and S. epidermidis groups.[14]

S. lugdunensis appears to be related to the S. haemolyticus group.

S. petrasii may be related to S. haemolyticus, but this needs to be confirmed.

The taxonomic position of S. lyticans,S. petrasii, and S. pseudolugdunensis has yet to be clarified. The published descriptions of these species do not appear to have been validly published.

Biochemical identification

Assignment of a strain to the genus Staphylococcus requires it to be a

Gram-positive coccus[15] that forms clusters, has an appropriate cell wall structure (including peptidoglycan
type and teichoic acid presence) and G + C content of DNA in a range of 30–40 mol%.

Staphylococcus species can be differentiated from other aerobic and facultative anaerobic, Gram-positive cocci by several simple tests.

bile salts
.

All species of Staphylococcus aureus were once thought to be coagulase-positive, but this has since been disproven.[16][17][18]

Growth can also occur in a 6.5% NaCl solution.[15] On Baird-Parker medium, Staphylococcus species grow fermentatively, except for S. saprophyticus, which grows oxidatively. Staphylococcus species are resistant to bacitracin (0.04 U disc: resistance = < 10 mm zone of inhibition) and susceptible to furazolidone (100 μg disc: resistance = < 15 mm zone of inhibition). Further biochemical testing is needed to identify to the species level.

Coagulase production

One of the most important phenotypical features used in the classification of staphylococci is their ability to produce

blood clot
formation.

Seven species are currently recognised as being coagulase-positive: S. aureus, S. delphini, S. hyicus, S. intermedius, S. lutrae, S. pseudintermedius, and S. schleiferi subsp. coagulans. These species belong to two separate groups – the S. aureus (S. aureus alone) group and the S. hyicus-intermedius group (the remaining five).

An eighth species has also been described – Staphylococcus leei – from patients with gastritis.[19]

S. aureus is coagulase-positive, meaning it produces coagulase. However, while the majority of S. aureus strains are coagulase-positive, some may be atypical in that they do not produce coagulase. S. aureus is catalase-positive (meaning that it can produce the enzyme catalase) and able to convert hydrogen peroxide (H2O2) to water and oxygen, which makes the catalase test useful to distinguish staphylococci from enterococci and streptococci.

S. pseudintermedius inhabits and sometimes infects the skin of domestic dogs and cats. This organism, too, can carry the genetic material that imparts multiple bacterial resistance. It is rarely implicated in infections in humans, as a zoonosis.

central venous catheters
.
genitourinary tract
infections in sexually active young women. In recent years, several other Staphylococcus species have been implicated in human infections, notably S. lugdunensis, S. schleiferi, and S. caprae.

Common abbreviations for coagulase-negative staphylococci are CoNS, CNS, or CNST.[20] The American Society for Microbiology abbreviates coagulase-negative staphylococci as "CoNS".

Genomics and molecular biology

The first S. aureus genomes to be sequenced were those of N315 and Mu50, in 2001. Many more complete S. aureus genomes have been submitted to the public databases, making it one of the most extensively sequenced bacteria. The use of genomic data is now widespread and provides a valuable resource for researchers working with S. aureus. Whole genome technologies, such as sequencing projects and microarrays, have shown an enormous variety of S. aureus strains. Each contains different combinations of surface proteins and different toxins. Relating this information to pathogenic behaviour is one of the major areas of staphylococcal research. The development of molecular typing methods has enabled the tracking of different strains of S. aureus. This may lead to better control of outbreak strains. A greater understanding of how the staphylococci evolve, especially due to the acquisition of mobile genetic elements encoding resistance and virulence genes is helping to identify new outbreak strains and may even prevent their emergence.[21]

The widespread incidence of antibiotic resistance across various strains of S. aureus, or across different species of Staphylococcus has been attributed to horizontal gene transfer of genes encoding antibiotic/metal resistance and virulence. A recent study demonstrated the extent of horizontal gene transfer among Staphylococcus to be much greater than previously expected, and encompasses genes with functions beyond antibiotic resistance and virulence, and beyond genes residing within the mobile genetic elements.[22]

Various strains of Staphylococcus are available from biological research centres, such as the National Collection of Type Cultures.

Host range

µm
apart

Members of the genus Staphylococcus frequently colonize the skin and upper respiratory tracts of mammals and birds and also in marine sponge.[15] Marine sponge associated Staphylococcus species are highly salt tolerant.[15] Some species specificity has been observed in host range, such that the Staphylococcus species observed on some animals appear more rarely on more distantly related host species.[23] Some of the observed host specificity includes:

Populations at risk for Staphylococcus aureus infection

It is said that anyone can develop a staph infection, although certain groups of people are at greater risk, including people with chronic conditions such as diabetes, cancer, vascular disease, eczema, lung disease, and people who inject drugs. In healthcare facilities, the risk of more serious staph infection is higher because many patients have weakened immune systems or have undergone procedures. In healthcare, the risk of more serious staph infection is higher for patients in intensive care units (ICUs), patients who have undergone certain types of surgeries and patients with medical devices inserted in their bodies.[25]

Staphylococcus aureus has emerged as a leading agent of sepsis. It facilitates factors such as tissue adhesion, immune evasion, and host cell injury. In the bloodstream, these factors cause inflammation, impair immune cell function, alter coagulation, and compromise vascular integrity. When left untreated, S. aureus triggers pathophysiologic disturbances that are further amplified by the host inflammatory response, culminating in the severe clinical manifestations of sepsis and septic shock.[26]

Clinical

Main article: Staphylococcal infection

Staphylococcus can cause a wide variety of diseases in humans and animals through either toxin production or penetration. Staphylococcal toxins are a common cause of food poisoning, for they can be produced by bacteria growing in improperly stored food items. The most common sialadenitis is caused by staphylococci, as bacterial infections.[27] Staphylococci break down leucine into isovaleric acid, the main odor of foot odor.[28]

See also

References

  1. ^ "staphylococcus | Origin and meaning of staphylococcus by Online Etymology Dictionary". www.etymonline.com. Retrieved 2018-07-25.
  2. Perseus Digital Library
    , Tufts University.
  3. ^ ko)kkos in Liddell and Scott
  4. ^ "Staph infections". mayoclinic.org. Retrieved 2022-11-27.
  5. PMID 14562246
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  11. PMID 29079617
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  12. ^ Coates-Brown R, Moran JC, Pongchaikul P, Darby AC and MJ Horsburgh MJ (2018) "Comparative genomics of Staphylococcus reveals determinants of speciation and diversification of antimicrobial defense". Front Microbiol
  13. PMID 15545460
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  14. PMID 18174295
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  15. ^
    ISSN 0044-8486
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  16. ISBN 978-0-8385-8529-0.[page needed
    ]
  17. ^ PreTest, Surgery, 12th ed., p. 88
  18. PMID 31195568
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  19. PMID 14766306
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  20. PMID 25278577
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  21. ISBN 978-1-904455-29-5.[page needed
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  22. PMID 21622749
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  23. PMID 7002032
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  24. ^ "Symptoms and Treatments of Staph Infection (Cellulitis)". Just-Health.net. December 14, 2013.
  25. ^ "Staphylococcus aureus in Healthcare Settings | HAI". CDC. 2020-12-10. Retrieved 2022-04-23.
  26. PMID 24550724
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  27. ^ "Sialoadenitis: inflammation of the salivary glands". The Medical Consumer's Advocate. 2001-01-04. Retrieved 2011-01-04.
  28. ^ Stevens D, Cornmell R, Taylor D, Grimshaw SG, Riazanskaia S, Arnold DS, Fernstad SJ, Smith AM, Heaney LM, Reynolds JC, Thomas CL, Harker M. Spatial variations in the microbial community structure and diversity of the human foot is associated with the production of odorous volatiles. FEMS Microbiol Ecol. 2015 Jan;91(1):1-11. doi: 10.1093/femsec/fiu018. Epub 2014 Dec 8. PMID: 25764539.

External links

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