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Biochemical Properties of a Newly Described Escherichia Species, Escherichia albertii

Sharon L. Abbott,¹ Jennifer O'Connor,² Tom Robin,^3, Barbara L. Zimmer,² and J. Michael Janda^1*

Microbial Diseases Laboratory, Department of Health Services, Richmond, California 94804,¹ Dade Behring MicroScan, West Sacramento, California 95691,² Lenox Hill Hospital, New York, New York 10029³

Received 30 May 2003/ Returned for modification 3 July 2003/ Accepted 22 July 2003

	ABSTRACT

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Five strains of a newly described Escherichia species, Escherichia albertii, were extensively characterized by conventional biochemical methods and by commercial identification panels. E. albertii is an indole-negative species that ferments D-mannitol but not D-xylose. Because these strains are not included in the databases of commercial systems at present, they were most often identified as Hafnia, Salmonella, Escherichia coli, or, on one system (MicroScan dried overnight panels), Yersinia ruckeri.

	TEXT

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Until recently, the genus Escherichia was composed of five species, including the type species E. coli and four less frequently encountered members: E. blattae, E. hermannii, E. vulneris, and E. fergusonii (4). Recently, Huys and others (5) described a sixth species, E. albertii, associated with diarrheal disease in Bangladeshi children. E. albertii was originally isolated and identified by John Albert and collaborators at the International Centre for Diarrhoeal Disease Research, Bangladesh, as Hafnia alvei (1). However, subsequent phenotypic and genetic studies conducted by several international groups clearly indicated that these strains do not belong in the genus Hafnia (6, 8, 9). Further molecular studies including 16S ribosomal DNA sequencing and DNA-DNA pairing studies have demonstrated that these strains belong in the genus Escherichia, and a new species, E. albertii, has been proposed (5).

Currently, only five strains of E. albertii are known to exist, and it is unclear how common this species is in clinical samples and whether all fecal strains are associated with cases of bacterial gastroenteritis. In the original description of this species (5), the biochemical properties of E. albertii were determined primarily by using the API 50 CH system (bioMérieux, Marcy l'Etoile, France), a commercial product not readily available in the United States. Because of this fact and to further characterize these strains as an aid to identification of this species, we have identified these strains in both a conventional and miniaturized commercial test format.

The five strains of E. albertii used in this study have been previously described. These strains are Albert 9194 (LMG 20972), Albert 10457 (LMG 20973), Albert 10790 (LMG 20794), Albert 12502 (LMG 20975), and Albert 19982 (LMG 20976^T). All conventional tests were performed by using previously described procedures (7); tests conducted on MicroScan conventional overnight and rapid panels (Dade Behring MicroScan, MicroScan Inc., West Sacramento, Calif.), API 20E strips (bioMérieux, Inc., Durham, N.C.), and Vitek GNI Plus, software version R07.01 (bioMérieux, Inc.), were carried out according to the manufacturer's instructions.

Biochemical test results for all five E. albertii strains analyzed by conventional format are listed in Table 1. These results agree with data reported by Huys et al. (5) in that E. albertii strains are nonmotile and indole negative, lysine and ornithine-decarboxylase positive, and arginine dihydrolase and Voges-Proskauer negative and produce acid from the fermentation of D-glucose (with gas), L-arabinose, and D-mannitol; sucrose and lactose are not fermented. All five E. albertii strains were additionally ß-galactosidase positive. E. albertii strains also fermented D-arabinose, D-fructose, D-galactose, D-mannose, and ribose but were unable to utilize a wide variety of uncommon sugars, including D-fucose, D-lyxose, palatinose, sedoheptulose anhydride, L-sorbose, D-tagatose, D-turanose, and xylitol. Acid from glycerol was produced by all five strains only after prolonged incubation (3 to 7 days). E. albertii strains were phenotypically tight, and very few variable reactions were noted. Only fermentation of lactulose, maltose, and trehalose and esculin hydrolysis produced variable test results. Interestingly, all three strains that fermented maltose also fermented trehalose, suggesting that potential biotypes (biovars) may exist within E. albertii. No E. albertii strain produced lipase, protease, or pectinase or degraded mucate. Four of five strains produced weak to moderate L-prolineaminopeptidase activity when tested with a commercial assay (Aminopeptidase Wee-Tab; Key Scientific Products, Round Rock, Tex.).

Because E. albertii has only recently been established, no commercial system currently includes this species in its database. Results of testing five E. albertii strains on four different systems (20 identifications) suggest that most (16 of 20, or 80%) would generate a final identification with an unacceptable probability (45 to 89%) or no identification at all. Such results should trigger a more in-depth analysis with additional tests and/or identification panels. The fact that in four of five instances E. albertii was identified as Y. ruckeri, a fish pathogen (2), on dried overnight MicroScan panels should provide an additional clue to the possible presence of E. albertii. However, some isolates (n = 4) would generate acceptable (92%) to excellent (97 to 99%) identifications as either H. alvei or E. coli, and in these cases the strains would be clearly misidentified. The single best hint at present to the possible presence of E. albertii (excluding overnight MicroScan panels) seems to be an unacceptable first-choice identification of H. alvei (n = 8; 50%) for an isolate that is both L-rhamnose and D-xylose negative.

The importance of E. albertii is currently unknown. Until clinical laboratories are able to identify more strains of this newly described species, the frequency, disease spectrum, and clinical significance will remain in question. A review of our extensive E. coli collection containing over 400 strains isolated over a 20-year span revealed no strains with biochemicals compatible with E. albertii.

	FOOTNOTES

 
* Corresponding author. Mailing address: California Department of Health Services, Microbial Diseases Laboratory Branch, 850 Marina Bay Parkway, Room E164, Richmond, CA 94804. Phone: (510) 412-3700. Fax: (510) 412-3706. E-mail address: jjanda{at}dhs.ca.gov.

Present address: Sunrise Hospital and Medical Center and Sunrise Children's Hospital, Las Vegas, NV 89109.

	REFERENCES

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