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'''''Enterococcus''''' is a large [[genus]] of [[lactic acid bacteria]] of the [[Phylum (biology)|phylum]] [[Bacillota]]. Enterococci are [[Gram-positive]] [[cocci]] that often occur in pairs ([[diplococcus|diplococci]]) or short chains, and are difficult to distinguish from [[Streptococcus|streptococci]] on physical characteristics alone.<ref name=Gilmore_2002>{{cite book | title=The Enterococci: Pathogenesis, Molecular Biology, and Antibiotic Resistance | publisher = ASM Press | location=Washington, D.C. | year=2002 | editor=Gilmore MS | isbn=978-1-55581-234-8|display-editors=etal}}</ref> Two species are common [[commensal]] organisms in the intestines of humans: ''[[Enterococcus faecalis|E. faecalis]]'' (90–95%) and ''[[Enterococcus faecium|E. faecium]]'' (5–10%). Rare clusters of infections occur with other species, including ''E. casseliflavus'', ''[[Enterococcus gallinarum|E. gallinarum]]'', and [[Enterococcus raffinosus|''E. raffinosus'']].<ref name="Gilmore_2002" />
'''''Enterococcus''''' is a large [[genus]] of [[lactic acid bacteria]] of the [[Phylum (biology)|phylum]] [[Bacillota]]. Enterococci are [[Gram-positive]] [[cocci]] that often occur in pairs ([[diplococcus|diplococci]]) or short chains, and are difficult to distinguish from [[Streptococcus|streptococci]] on physical characteristics alone.<ref name=Gilmore_2002>{{cite book | title=The Enterococci: Pathogenesis, Molecular Biology, and Antibiotic Resistance | publisher = ASM Press | location=Washington, D.C. | year=2002 | editor=Gilmore MS | isbn=978-1-55581-234-8|display-editors=etal}}</ref> Two species are common [[commensal]] organisms in the intestines of humans: ''[[Enterococcus faecalis|E. faecalis]]'' (90–95%) and ''[[Enterococcus faecium|E. faecium]]'' (5–10%). Rare clusters of infections occur with other species, including ''[[Enterococcus durans|E. durans]]'',<ref name=":0">{{Cite journal |last1=Karlsson |first1=Philip A. |last2=Zhang |first2=Taoran |last3=Järhult |first3=Josef D. |last4=Joffré |first4=Enrique |last5=Wang |first5=Helen |date=2025-06-12 |editor-last=Ponraj |editor-first=Vittal Prakash |title=Heterogeneity and metabolic diversity among Enterococcus species during long-term colonization |url=https://journals.asm.org/doi/10.1128/spectrum.03160-24 |journal=Microbiology Spectrum |language=en |doi=10.1128/spectrum.03160-24 |issn=2165-0497}}</ref> ''E. casseliflavus'', ''[[Enterococcus gallinarum|E. gallinarum]]'', and [[Enterococcus raffinosus|''E. raffinosus'']].<ref name="Gilmore_2002" />


== Physiology and classification ==
== Physiology and classification ==
Enterococci are [[facultative anaerobic organism]]s, i.e., they are capable of [[cellular respiration]] in both oxygen-rich and oxygen-poor environments.<ref name=Fischetti_2000>{{cite book | veditors = Fischetti VA, Novick RP, Ferretti JJ, Portnoy DA, Rood JI | title = Gram-Positive Pathogens | publisher = ASM Press | year = 2000 | isbn = 1-55581-166-3}}</ref> Though they are not capable of forming [[spore]]s, enterococci are tolerant of a wide range of environmental conditions: extreme temperature (10–45&nbsp;°C), [[pH]] (4.6–9.9), and high [[sodium chloride]] concentrations.<ref name=Fisher>{{cite journal | vauthors = Fisher K, Phillips C | title = The ecology, epidemiology and virulence of Enterococcus | journal = Microbiology | volume = 155 | issue = Pt 6 | pages = 1749–1757 | date = June 2009 | pmid = 19383684 | doi = 10.1099/mic.0.026385-0 | doi-access = free }}</ref>
Enterococci are [[facultative anaerobic organism]]s, i.e., they are capable of [[cellular respiration]] in both oxygen-rich and oxygen-poor environments.<ref name=Fischetti_2000>{{cite book | veditors = Fischetti VA, Novick RP, Ferretti JJ, Portnoy DA, Rood JI | title = Gram-Positive Pathogens | publisher = ASM Press | year = 2000 | isbn = 1-55581-166-3}}</ref> Though they are not capable of forming [[spore]]s, enterococci are tolerant of a wide range of environmental conditions: extreme temperature (10–45&nbsp;°C), [[pH]] (4.6–9.9), and high [[sodium chloride]] concentrations.<ref name=Fisher>{{cite journal | vauthors = Fisher K, Phillips C | title = The ecology, epidemiology and virulence of Enterococcus | journal = Microbiology | volume = 155 | issue = Pt 6 | pages = 1749–1757 | date = June 2009 | pmid = 19383684 | doi = 10.1099/mic.0.026385-0 | doi-access = free }}</ref>
''E. faecium'' and ''E. faecalis'' can be differentiated based on their carbohydrate metabolism: ''E. faecium'' consistently metabolizes lactose but not melezitose or inositol, whereas ''E. faecalis'' reliably metabolizes sorbitol and sucrose but lacks the ability to utilize L-arabinose, melibiose, or raffinose. Less is known of other species; ''E. durans'' share most of the important carbohydrate metabolism with ''E. faecium''.<ref name=":0" />


Enterococci exhibit variable [[Hemolysis (microbiology)|hemolysis]] on [[blood agar]]. Differences occur between species, and between strains of species. More [[Virulence|virulent]] organisms are more likely to exhibit alpha (partial) or beta (complete) hemolysis than less virulent specimens of ''Enterococcus'', which frequently exhibit gamma (absent) hemolysis.<ref>{{cite journal | vauthors = Semedo T, Almeida Santos M, Martins P, Silva Lopes MF, Figueiredo Marques JJ, Tenreiro R, Barreto Crespo MT | title = Comparative study using type strains and clinical and food isolates to examine hemolytic activity and occurrence of the cyl operon in enterococci | journal = Journal of Clinical Microbiology | volume = 41 | issue = 6 | pages = 2569–2576 | date = June 2003 | pmid = 12791882 | pmc = 156526 | doi = 10.1128/jcm.41.6.2569-2576.2003 }}</ref>
Enterococci exhibit variable [[Hemolysis (microbiology)|hemolysis]] on [[blood agar]]. Differences occur between species, and between strains of species. More [[Virulence|virulent]] organisms are more likely to exhibit alpha (partial) or beta (complete) hemolysis than less virulent specimens of ''Enterococcus'', which frequently exhibit gamma (absent) hemolysis.<ref>{{cite journal | vauthors = Semedo T, Almeida Santos M, Martins P, Silva Lopes MF, Figueiredo Marques JJ, Tenreiro R, Barreto Crespo MT | title = Comparative study using type strains and clinical and food isolates to examine hemolytic activity and occurrence of the cyl operon in enterococci | journal = Journal of Clinical Microbiology | volume = 41 | issue = 6 | pages = 2569–2576 | date = June 2003 | pmid = 12791882 | pmc = 156526 | doi = 10.1128/jcm.41.6.2569-2576.2003 }}</ref>
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== Pathology ==
== Pathology ==


Important clinical infections caused by ''Enterococcus'' include [[urinary tract infection]]s (see  ''[[Enterococcus faecalis]]''), [[bacteremia]], [[bacterial endocarditis]], [[diverticulitis]], [[meningitis]], and [[spontaneous bacterial peritonitis]].<ref name="Fisher" /><ref name="Sherris">{{cite book | veditors = Ryan KJ, Ray CG | title = Sherris Medical Microbiology | edition = 4th | pages = 294–5 |publisher = McGraw Hill | year = 2004 | isbn = 0-8385-8529-9 }}</ref><ref>{{cite journal | vauthors = Fiore M, Maraolo AE, Gentile I, Borgia G, Leone S, Sansone P, Passavanti MB, Aurilio C, Pace MC | title = Current concepts and future strategies in the antimicrobial therapy of emerging Gram-positive spontaneous bacterial peritonitis | journal = World Journal of Hepatology | volume = 9 | issue = 30 | pages = 1166–1175 | date = October 2017 | pmid = 29109849 | pmc = 5666303 | doi = 10.4254/wjh.v9.i30.1166 | doi-access = free }}</ref> Sensitive strains of these bacteria can be treated with [[ampicillin]], [[penicillin]] and [[vancomycin]].<ref name="Baron">{{cite book | vauthors = Pelletier Jr LL | chapter = Microbiology of the Circulatory System|title= Baron's Medical Microbiology | veditors = Albrecht T, Baron S | edition = 4th | publisher = Univ of Texas Medical Branch | year = 1996 | pmid = 21413321| url = https://www.ncbi.nlm.nih.gov/books/bv.fcgi?rid=mmed.section.5077 | isbn = 0-9631172-1-1 }}</ref> In catheterized patients receiving [[Intensive care unit|intensive care]], ''Enterococcus'' spp., have been reported the dominant cause of urinary tract infections, particularly in patients treated with [[cephalosporin]] antibiotics.<ref>{{Cite journal |last=Karlsson |first=Philip A. |last2=Bolin |first2=Christian |last3=Spång |first3=Labolina |last4=Frithiof |first4=Robert |last5=Hultström |first5=Michael |last6=Lipcsey |first6=Miklos |last7=Wang |first7=Helen |last8=Järhult |first8=Josef D. |date=2024-11-07 |title=Bacteriuria and antibiotic use during the third wave of COVID-19 intensive care in Sweden |url=https://www.tandfonline.com/doi/full/10.1080/23744235.2024.2423884 |journal=Infectious Diseases |language=en |pages=1–10 |doi=10.1080/23744235.2024.2423884 |issn=2374-4235|doi-access=free }}</ref> Urinary tract infections can be treated specifically with [[nitrofurantoin]], even in cases of vancomycin resistance.<ref name="pmid11120989">{{cite journal | vauthors = Zhanel GG, Hoban DJ, Karlowsky JA | title = Nitrofurantoin is active against vancomycin-resistant enterococci | journal = Antimicrobial Agents and Chemotherapy | volume = 45 | issue = 1 | pages = 324–326 | date = January 2001 | pmid = 11120989 | pmc = 90284 | doi = 10.1128/AAC.45.1.324-326.2001 }}</ref>
Important clinical infections caused by ''Enterococcus'' include [[urinary tract infection]]s (see  ''[[Enterococcus faecalis]]''), [[bacteremia]], [[bacterial endocarditis]], [[diverticulitis]], [[meningitis]], and [[spontaneous bacterial peritonitis]].<ref name="Fisher" /><ref name="Sherris">{{cite book | veditors = Ryan KJ, Ray CG | title = Sherris Medical Microbiology | edition = 4th | pages = 294–5 |publisher = McGraw Hill | year = 2004 | isbn = 0-8385-8529-9 }}</ref><ref>{{cite journal | vauthors = Fiore M, Maraolo AE, Gentile I, Borgia G, Leone S, Sansone P, Passavanti MB, Aurilio C, Pace MC | title = Current concepts and future strategies in the antimicrobial therapy of emerging Gram-positive spontaneous bacterial peritonitis | journal = World Journal of Hepatology | volume = 9 | issue = 30 | pages = 1166–1175 | date = October 2017 | pmid = 29109849 | pmc = 5666303 | doi = 10.4254/wjh.v9.i30.1166 | doi-access = free }}</ref> Sensitive strains of these bacteria can be treated with [[ampicillin]], [[penicillin]] and [[vancomycin]].<ref name="Baron">{{cite book | vauthors = Pelletier Jr LL | chapter = Microbiology of the Circulatory System|title= Baron's Medical Microbiology | veditors = Albrecht T, Baron S | edition = 4th | publisher = Univ of Texas Medical Branch | year = 1996 | pmid = 21413321| url = https://www.ncbi.nlm.nih.gov/books/bv.fcgi?rid=mmed.section.5077 | isbn = 0-9631172-1-1 }}</ref> In catheterized patients receiving [[Intensive care unit|intensive care]], ''Enterococcus'' spp., have been reported the dominant cause of urinary tract infections, particularly in patients treated with [[cephalosporin]] antibiotics.<ref>{{Cite journal |last1=Karlsson |first1=Philip A. |last2=Pärssinen |first2=Julia |last3=Danielsson |first3=Erik A. |last4=Fatsis-Kavalopoulos |first4=Nikos |last5=Frithiof |first5=Robert |last6=Hultström |first6=Michael |last7=Lipcsey |first7=Miklos |last8=Järhult |first8=Josef D. |last9=Wang |first9=Helen |date=2023-02-07 |title=Antibiotic use during coronavirus disease 2019 intensive care unit shape multidrug resistance bacteriuria: A Swedish longitudinal prospective study |journal=Frontiers in Medicine |language=English |volume=10 |doi=10.3389/fmed.2023.1087446 |doi-access=free |issn=2296-858X |pmc=9941185 |pmid=36824610}}</ref><ref>{{Cite journal |last1=Karlsson |first1=Philip A. |last2=Bolin |first2=Christian |last3=Spång |first3=Labolina |last4=Frithiof |first4=Robert |last5=Hultström |first5=Michael |last6=Lipcsey |first6=Miklos |last7=Wang |first7=Helen |last8=Järhult |first8=Josef D. |date=2025-03-04 |title=Bacteriuria and antibiotic use during the third wave of COVID-19 intensive care in Sweden |url=https://www.tandfonline.com/doi/full/10.1080/23744235.2024.2423884 |journal=Infectious Diseases |language=en |volume=57 |issue=3 |pages=284–293 |doi=10.1080/23744235.2024.2423884 |pmid=39509144 |issn=2374-4235}}</ref> Recent work has shown that multiple genetically distinct ''Enterococcus'' sequence types, including antibiotic resistant and high risk clones, can coexist in the same urine sample from a single ICU patient, with the more virulent lineage often present only as a minority subpopulation - undetectable by standard diagnostics.<ref name=":0" /> Urinary tract infections can be treated specifically with [[nitrofurantoin]], even in cases of vancomycin resistance.<ref name="pmid11120989">{{cite journal | vauthors = Zhanel GG, Hoban DJ, Karlowsky JA | title = Nitrofurantoin is active against vancomycin-resistant enterococci | journal = Antimicrobial Agents and Chemotherapy | volume = 45 | issue = 1 | pages = 324–326 | date = January 2001 | pmid = 11120989 | pmc = 90284 | doi = 10.1128/AAC.45.1.324-326.2001 }}</ref>
[[File:Diagnostic algorithm of possible bacterial infection.png|thumb|left|Example of a workup algorithm of possible bacterial infection in cases with no specifically requested targets (non-bacteria, mycobacteria etc.), with most common situations and agents seen in a New England community hospital setting. ''Enterococcus'' is included near bottom-center.]]
[[File:Diagnostic algorithm of possible bacterial infection.png|thumb|left|Example of a workup algorithm of possible bacterial infection in cases with no specifically requested targets (non-bacteria, mycobacteria etc.), with most common situations and agents seen in a New England community hospital setting. ''Enterococcus'' is included near bottom-center.]]


Latest revision as of 03:26, 19 June 2025

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Enterococcus is a large genus of lactic acid bacteria of the phylum Bacillota. Enterococci are Gram-positive cocci that often occur in pairs (diplococci) or short chains, and are difficult to distinguish from streptococci on physical characteristics alone.[1] Two species are common commensal organisms in the intestines of humans: E. faecalis (90–95%) and E. faecium (5–10%). Rare clusters of infections occur with other species, including E. durans,[2] E. casseliflavus, E. gallinarum, and E. raffinosus.[1]

Physiology and classification

Enterococci are facultative anaerobic organisms, i.e., they are capable of cellular respiration in both oxygen-rich and oxygen-poor environments.[3] Though they are not capable of forming spores, enterococci are tolerant of a wide range of environmental conditions: extreme temperature (10–45 °C), pH (4.6–9.9), and high sodium chloride concentrations.[4]

E. faecium and E. faecalis can be differentiated based on their carbohydrate metabolism: E. faecium consistently metabolizes lactose but not melezitose or inositol, whereas E. faecalis reliably metabolizes sorbitol and sucrose but lacks the ability to utilize L-arabinose, melibiose, or raffinose. Less is known of other species; E. durans share most of the important carbohydrate metabolism with E. faecium.[2]

Enterococci exhibit variable hemolysis on blood agar. Differences occur between species, and between strains of species. More virulent organisms are more likely to exhibit alpha (partial) or beta (complete) hemolysis than less virulent specimens of Enterococcus, which frequently exhibit gamma (absent) hemolysis.[5]

History

Members of the genus Enterococcus (from Greek έντερο, éntero 'intestine' and κοκκος, coccos 'granule') were classified as group D Streptococcus until 1984, when genomic DNA analysis indicated a separate genus classification would be appropriate.[6]

Evolution

This genus appears to have evolved Template:Ma to Template:Ma.[7]

Pathology

Important clinical infections caused by Enterococcus include urinary tract infections (see Enterococcus faecalis), bacteremia, bacterial endocarditis, diverticulitis, meningitis, and spontaneous bacterial peritonitis.[4][8][9] Sensitive strains of these bacteria can be treated with ampicillin, penicillin and vancomycin.[10] In catheterized patients receiving intensive care, Enterococcus spp., have been reported the dominant cause of urinary tract infections, particularly in patients treated with cephalosporin antibiotics.[11][12] Recent work has shown that multiple genetically distinct Enterococcus sequence types, including antibiotic resistant and high risk clones, can coexist in the same urine sample from a single ICU patient, with the more virulent lineage often present only as a minority subpopulation - undetectable by standard diagnostics.[2] Urinary tract infections can be treated specifically with nitrofurantoin, even in cases of vancomycin resistance.[13]

File:Diagnostic algorithm of possible bacterial infection.png
Example of a workup algorithm of possible bacterial infection in cases with no specifically requested targets (non-bacteria, mycobacteria etc.), with most common situations and agents seen in a New England community hospital setting. Enterococcus is included near bottom-center.

Meningitis

Script error: No such module "Labelled list hatnote". Enterococcal meningitis is a rare complication of neurosurgery. It often requires treatment with intravenous or intrathecal vancomycin, yet it is debatable as to whether its use has any impact on outcome: the removal of any neurological devices is a crucial part of the management of these infections.[14] New epidemiological evidence has shown that enterococci are major infectious agent in chronic bacterial prostatitis.[15] Enterococci are able to form biofilm in the prostate gland, making their eradication difficult.Script error: No such module "Unsubst". Cases of enterococcal meningitis, in the absence of trauma or surgery, should raise suspicion of an underlying intestinal pathology (e.g., strongyloidiasis).[16]

Antibacterial resistance

From a medical standpoint, an important feature of this genus is the high level of intrinsic antibiotic resistance. Some enterococci are intrinsically resistant to β-lactam-based antibiotics (penicillins, cephalosporins, carbapenems), as well as many aminoglycosides.[8] In the last two decades, particularly virulent strains of Enterococcus that are resistant to vancomycin (vancomycin-resistant Enterococcus, or VRE) have emerged in nosocomial infections of hospitalized patients, especially in the US.[4] Other developed countries, such as the UK, have been spared this epidemic, and, in 2005, Singapore managed to halt an epidemic of VRE.[17] Although quinupristin/dalfopristin (Synercid) was previously indicated for treatment of VRE in the USA, the FDA approval for this indication has since been retracted.[18] The rationale for the retraction of Synercid's indication for VRE was based upon poor efficacy in E. faecalis, which is implicated in the vast majority of VRE cases.[19][20] Tigecycline has also been shown to have antienterococcal activity, as has rifampicin.[21]

Bacillus haynesii CD223 and Advenella mimigardefordensis SM421 can inhibit the growth of Enterococcus spp. [22]

Water quality

In bodies of water, the acceptable level of contamination is very low; for example in the state of Hawaii, and most of the United States, the limit for water off its beaches is a five-week geometric mean of 35 colony-forming units per 100 ml of water, above which the state may post warnings to stay out of the ocean.[23] In 2004, measurement of enterococci took the place of fecal coliforms as the new American federal standard for water quality at public saltwater beaches and alongside Escherichia coli at freshwater beaches.[24] It is believed to provide a higher correlation than fecal coliform with many of the human pathogens often found in city sewage.[25]

References

Template:Reflist

External links

Template:Medical resources

Template:Taxonbar Template:Authority control

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