Dominika Drzewiecka scite author profile

Proteus spp. bacteria were first described in 1885 by Gustav Hauser, who had revealed their feature of intensive swarming growth. Currently, the genus is divided into Proteus mirabilis, Proteus vulgaris, Proteus penneri, Proteus hauseri, and three unnamed genomospecies 4, 5, and 6 and consists of 80 O-antigenic serogroups. The bacteria are known to be human opportunistic pathogens, isolated from urine, wounds, and other clinical sources. It is postulated that intestines are a reservoir of these proteolytic organisms. Many wild and domestic animals may be hosts of Proteus spp. bacteria, which are commonly known to play a role of parasites or commensals. However, interesting examples of their symbiotic relationships with higher organisms have also been described. Proteus spp. bacteria present in soil or water habitats are often regarded as indicators of fecal pollution, posing a threat of poisoning when the contaminated water or seafood is consumed. The health risk may also be connected with drug-resistant strains sourcing from intestines. Positive aspects of the bacteria presence in water and soil are connected with exceptional features displayed by autochthonic Proteus spp. strains detected in these environments. These rods acquire various metabolic abilities allowing their adaptation to different environmental conditions, such as high concentrations of heavy metals or toxic substances, which may be exploited as sources of energy and nutrition by the bacteria. The Proteus spp. abilities to tolerate or utilize polluting compounds as well as promote plant growth provide a possibility of employing these microorganisms in bioremediation and environmental protection.

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Proteus sp. – an opportunistic bacterial pathogen – classification, swarming growth, clinical significance and virulence factors

Różalski

Torzewska

Moryl

et al. 2012

biologica

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The genus Proteus belongs to the Enterobacteriaceae family, where it is placed in the tribe Proteeae, together with the genera Morganella and Providencia. Currently, the genus Proteus consists of five species: P. mirabilis, P. vulgaris, P. penneri, P. hauseri and P. myxofaciens, as well as three unnamed Proteus genomospecies. The most defining characteristic of Proteus bacteria is a swarming phenomenon, a multicellular differentiation process of short rods to elongated swarmer cells. It allows population of bacteria to migrate on solid surface. Proteus bacteria inhabit the environment and are also present in the intestines of humans and animals. These microorganisms under favorable conditions cause a number of infections including urinary tract infections (UTIs), wound infections, meningitis in neonates or infants and rheumatoid arthritis. Therefore, Proteus is known as a bacterial opportunistic pathogen. It causes complicated UTIs with a higher frequency, compared to other uropathogens. Proteus infections are accompanied by a formation of urinary stones, containing struvite and carbonate apatite. The virulence of Proteus rods has been related to several factors including fimbriae, flagella, enzymes (urease - hydrolyzing urea to CO2 and NH3, proteases degrading antibodies, tissue matrix proteins and proteins of the complement system), iron acqusition systems and toxins: hemolysins, Proteus toxin agglutinin (Pta), as well as an endotoxin - lipopolysaccharide (LPS). Proteus rods form biofilm, particularly on the surface of urinary catheters, which can lead to serious consequences for patients. In this review we present factors involved in the regulation of swarming phenomenon, discuss the role of particular pathogenic features of Proteus spp., and characterize biofilm formation by these bacteria.

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Structure and serological properties of the O-antigen of two clinicalProteus mirabilisstrains classified into a newProteusO77 serogroup

Drzewiecka

Arbatsky

Shashkov

et al. 2008

FEMS Immunol Med Microbiol

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Two Proteus mirabilis strains, 3 B-m and 3 B-k, were isolated from urine and faeces of a hospitalized patient from Lodz, Poland. It was suggested that one strain originated from the other, and the presence of the bacilli in the patient's urinary tract was most probably a consequence of autoinfection. The O-polysaccharide was obtained by mild acid degradation of the lipopolysaccharide of P. mirabilis 3 B-m and studied by sugar analysis and nuclear magnetic resonance spectroscopy, including two-dimensional rotating frame Overhause effect spectroscopy (ROESY) and 1 H, 13 C heteronuclear single quantum coherence (HSQC) experiments. The following structure of the linear trisaccharide-repeating unit of the O-polysaccharide was established:(1 ! where 6dTal2Ac stands for 2-O-acetyl-6-deoxy-L-talose. It resembles the structure of the O-polysaccharide of Proteus penneri O66, which includes additional lateral residues of 2,3-diacetamido-2,3,6-trideoxy-L-mannose. The lipopolysaccharides from two P. mirabilis strains studied were serologically identical to each other but not to that from any of the existing 76 Proteus O-serogroups. Therefore, the strains were classified into a new O77 serogroup specially created in the genus Proteus. Serological studies using Western blot and enzyme-linked immunosorbent assay with intact and adsorbed O-antisera showed that the P. mirabilis O77 antigen is related to Proteus vulgaris O2 and P. penneri O68 antigens, and a putative disaccharide epitope responsible for the cross-reactivity was revealed.

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Structure of the O‐polysaccharide from Proteus myxofaciens

Sidorczyk

Kondakova

Zych

et al. 2003

European Journal of Biochemistry

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The O‐polysaccharide (O‐antigen) was obtained from the lipopolysaccharide of Proteus myxofaciens, a Proteus strain producing copious amounts of slime, which was isolated from the gypsy moth larvae. The structure of the polysaccharide was studied by chemical analysis and 1H and 13C NMR spectroscopy, including 2D COSY, TOCSY, ROESY and H‐detected 1H,13C HMQC experiments. It was found that the polysaccharide contains an amide of glucuronic acid (GlcA) with an unusual α‐linked amino acid, Nε‐[(R)‐1‐carboxyethyl]‐l‐lysine (2S,8R‐alaninolysine, 2S,8R‐AlaLys), and has a linear tetrasaccharide repeating unit of the following structure: This structure is unique among known bacterial polysaccharide structures. On the basis of these and serological data, it is proposed that P. myxofaciens be classified into a new Proteus serogroup, O60, of which this strain is the single representative. Structural and serological relatedness of P. myxofaciens to other AlaLys‐containing O‐antigens of Proteus and Providencia is discussed.

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