Metabolic Variations of Proteus in the Memphis Area and Other Geographical Areas

The number of strains of Proteus studied was 413, and these were obtained from all clinical materials with the exception of fecal specimens. Lactose was fermented by 37 strains (P. inconstans, 29%; P. rettgeri, 16%; P. mirabilis, 4.2%; P. morganii, 3.6%; and P. vulgaris, 0%) of which 33 were from the genitourinary system. These 33 strains constituted 12.7% of the 260 strains isolated from this source. Biochemically, P. mirabilis was the least variable, and P. rettgeri was the most variable of the five species of Proteus tested. P. inconstans and P. rettgeri resembled each other more closely than any of the other species of Proteus. Comparison of results obtained in the Memphis area with those found in other locations showed that biochemical characteristics varied most with the substances citrate, salicin, xylose, trehalose, and mannitol. In contrast to earlier reports from Israel and England, none of the strains of P. inconstans in the present study was able to attack urea. All five species of Proteus tested (by the disc method) were highly susceptible to methenamine mandelate. P. mirabilis, P. morganii, and P. vulgaris were also highly susceptible to nitrofurantoin. All strains of P. mirabilis were susceptible to ampicillin. P. inconstans was the most resistant species of Proteus. Of the other 356 urease-positive strains tested, 79% were susceptible to chloramphenicol, whereas only 3.8% of the 56 urease-negative strains (P. inconstans) were susceptible. When tested with streptomycin, 61% of urease-positive strains were susceptible and 1.8% of the urease-negative strains were susceptible. Of 36 lactose-positive strains, 33.8% were susceptible to chloramphenicol, whereas 72.8% of all lactose-negative strains were susceptible. Again, of the lactose-positive strains, 17% were susceptible to streptomycin, whereas 56.3% of all lactose-negative strains were susceptible.     

A Numerical Taxonomic Study of Proteus-Providence Bacteria

One hundred and six strains from the Proteus-Providence group and 27 other strains from the rest of the Enterobacteriaceae were subjected to 178 morphological. physiological and biochemical tests and the results analysed by computer. Most of the Proteus-Providence strains grouped into six main clusters; (1) Proteus mirabilis , (2) Proteus vulgaris , (3) Proteus morganii , (4) Providencia alcalifaciens, Shigella dysenteriae , (5) Proteus rettgeri , (6) Providencia stuartii . On the basis of these groupings a scheme has been drawn up for distinguishing between the different taxa in the Proteus-Providence group.     

乳粉中普通变形杆菌和奇异变形杆菌复合PCR-DHPLC检测技术的建立

应用复合PCR结合变性高效液相色谱(DHPLC)技术,建立乳粉中普通变形杆菌和奇异变形杆菌的高通量检测方法。根据普通变形杆菌的blaA和blaB基因及奇异变形杆菌的ureR基因序列分别设计特异性引物,复合PCR扩增的产物经DHPLC技术进行快速检测,并以37株参考菌株做特异性试验。试验结果表明,该方法具有很好的特异性,经复合PCR-DHPLC可同时检测乳粉中普通变形杆菌和奇异变形杆菌。该方法可以快速、准确、高通量检测普通变形杆菌和奇异变形杆菌,是乳粉中致病菌高通量检测的新技术。     

Species-specific detection of Proteus vulgaris and Proteus mirabilis by the polymerase chain reaction

Sets of primers for the species-specific detection of P. mirabilis and P. vulgaris by the polymerase chain reaction (PCR) were developed. As targets for these primers beta-lactamase and 16S rRNA gene fragments were chosen on the basis of the multiple leveling of the sequences of the DNA of all known P. mirabilis and P. vulgaris isolates. For differential detection oligonucleotides were selected in such a way that primers, specific for P. vulgaris, contained the non-paired nucleotide for P. mirabilis isolate at the 3'-end, and all other nucleotides were complementary to the beta-lactamase gene fragment. Primers, specific for gene 16S rRNA of P. mirabilis, contained the non-paired nucleotide for P. vulgaris isolates at the 3'-end. Standard PCR was carried out for 6 P. mirabilis and P. vulgaris strains. The use of PCR species-specific primers to P. vulgaris DNA made it possible to amplify the DNA fragment of the expected length only for P. vulgaris isolates, while the result of PCR for P. mirabilis was negative. PCR with primers specific to P. mirabilis permitted the detection of amplicon sized 101 nucleotides pairs only for P. mirabilis strains. These primers were optimized so as to use them in the specific differentiation of closely related P. mirabilis and P. vulgaris species by multiplex PCR. Genus-specific primers permitted the detection of bacterial gyrB gene of the genus Proteus were developed also.     

Some biological features of Proteus bacilli. 2. Haemolytic activities of Proteus mirabilis and Proteus vulgaris strains

The haemolytic activities of Proteus mirabilis and P. vulgaris strains were studied under different conditions. No filterable alpha haemolysin could be detected in P. mirabilis uropathogens provided from patients with urinary tract infections. Together with the results presented in the accompanying paper, in which three clinical isolates with temporary ability to produce a soluble haemolysin were described, the occurrence of alpha haemolytic P. mirabilis isolates did not exceed 3%. Cell bound beta haemolysin is present in nearly 35% of P. mirabilis urinary strains. Another kind of haemolytic activity was observed when P. mirabilis and P. vulgaris strains were grown in liquid media supplemented with erythrocytes. During the logarithmic growth phase nearly 100% of P. mirabilis and P. vulgaris strains of various origin haemolyzed 100-50% of erythrocytes. Except for Serratia, the other representatives of Enterobacteriaceae did not demonstrate such activity in the same conditions. The preliminary characteristics of this phenomenon is given.     

Bacteriophage Typing of Proteus mirabilis, Proteus vulgaris, and Proteus morganii

A bacteriphage typing scheme for differentiating Proteus isolated from clinical specimens was developed. Twenty-one distinct patterns of lysis were seen when 15 bacteriophages isolated on 8 Proteus mirabilis, 1 P. vulgaris, and 1 P. morganii were used to type 162 of 189 (85.7%) P. mirabilis and P. vulgaris isolates. Seven phages isolated on 3 P. morganii were used to type 13 of 19 (68.4%) P. morganii isolates. Overall, 84.1% of the 208 isolates were lysed by at least 1 phage at routine test dilution (RTD) or 1,000 x RTD. Fifty isolates, retyped several weeks after the initial testing, showed no changes in lytic patterns. The phages retained their titers after storage at 4 C for several months. A computer analysis of the data showed that there was no relationship between the source of the isolate and bacteriophage type. This bacteriophage typing system may provide epidemiological information on strains involved in human infections.     

Prevalence of multidrug-resistant Proteus spp. strains in clinical specimens and their susceptibility to antibiotics

Proteus sp. are opportunistic microorganisms which cause urinary tract and wounds infections, bacteriaemia and sepsis. The aim of this study was analysis of prevalence of multidrug-resistant Proteus sp. strains in clinical specimens and evaluation of their susceptibility to selected antibiotics. The study was carried out of 1499 Proteus sp. strains were isolated in 2000-2003 from patients of departments and dispensaries of the University Hospital CM in Bydgoszcz UMK in Torun. The strains were identified on the basis of appearance of bacterial colonies on bloody and McConkey's agars, movement ability, indole and urease production and in questionable cases biochemical profile in ID GN or ID E (bio-Mérieux) tests was also included. Antibiotic susceptibility was tested by disk diffusion method. Isolated strains were regarded as multidrug-resistant when they were resistant to three kinds of antibiotics at least. Received Proteus sp. the most frequently belonged to P. mirabilis species (92.3%). Most of these bacteria were isolated from urine from patients of Rehabilitation Clinic. All of multidrug-resistant strains were resistant to penicillins and cephalosporins, 98.9% to co-trimoxazole, 77.7% to quinolones, 63.8% to tetracyclines, 38.5% to aminoglycosides, 19.3% to monobactams and 3.4% to carbapenems. Almost 25% multidrug-resistant Proteus sp. produced ESBL.     

Structure of the glycerol phosphate-containing O-polysaccharides and serological studies of the lipopolysaccharides of Proteus mirabilis CCUG 10704 (OE) and Proteus vulgaris TG 103 classified into a new Proteus serogroup, O54

O-Polysaccharides were obtained from the lipopolysaccharides of Proteus mirabilis CCUG 10704 (OE) and Proteus vulgaris TG 103 and studied by chemical analyses and one- and two-dimensional (1)H and (13)C nuclear magnetic resonance spectroscopy, including rotating-frame nuclear Overhauser effect spectroscopy, H-detected (1)H,(13)C heteronuclear single-quantum spectroscopy and (1)H,(31)P heteronuclear multiple-quantum spectroscopy experiments. The Proteus mirabilis OE polysaccharide was found to have a trisaccharide repeating unit with a lateral glycerol phosphate group. The Proteus vulgaris TG 103 produces a similar O-polysaccharide, which differs in incomplete substitution with glycerol phosphate (c. 50% of the stoichiometric amount) and the presence of an O-acetyl group at position 6 of the 2-acetamido-2-deoxygalactose (GalNAc) residue. These structures are unique among the known bacterial polysaccharide structures. Based on the structural and serological data of the lipopolysaccharides, it is proposed to classify both strains studied into a new Proteus serogroup, O54, as two subgroups, O54a,54b and O54a,54c. The serological relatedness of the Proteus O54 and some other Proteus lipopolysaccharides is discussed.     

Antibiotic sensitivity of the main opportunistic pathogenic aerobic bacteria

Antibiotic sensitivity of 1421 strains of Staphylococcus aureus, Staphylococcus epidermidis, Escherichia coli, Proteus mirabilis, Proteus vulgaris, Pseudomonas aeruginosa and Klebsiella spp. was studied. Gentamicin, levomycetin (chloramphenicol) and ristomycin proved to be the antibiotics of choice in treatment of purulent inflammatory diseases caused by S. epidermidis and S. aureus. For antibiotic therapy of infections caused by gram-negative organisms gentamicin and polymixin might be recommended.     

Structure and serological properties of the O-antigen of two clinical Proteus mirabilis strains classified into a new Proteus O77 serogroup

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 1H,13C heteronuclear single quantum coherence (HSQC) experiments. The following structure of the linear trisaccharide-repeating unit of the O-polysaccharide was established:-->2)-beta-D-Glcp-(1-->3)-alpha-L-6dTalp2Ac-(1-->3)-beta-D-GlcpNAc-(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.     

Characterization of Ornithine Decarboxylase-Positive, Nonmotile Strains of the Klebsiella-Enterobacter Group

Thirty-seven strains of ornithine decarboxylase-positive, nonmotile Klebsiella-Enterobacter organisms isolated from 36 patients were studied by biochemical and serological testing. Five strains gave biochemical reactions which conformed closely to those of Escherichia coli; three strains gave positive Quellung reactions to specific Klebsiella antisera. (Two of these were thought to be Enterobacter in spite of this typing reaction.) The remaining 29 strains were classified as Enterobacter. These results demonstrate the necessity of doing both an ornithine decarboxylase test and a motility test to differentiate Klebsiella from Enterobacter. Had only a motility test been done, they all would have been called Klebsiella.     

Colistin-induced surface changes in the cells of Proteus spp.

The effects of colistin on some strains of Proteus mirabilis, P. morganii and P. vulgaris are described. Two strains of P. mirabilis , NCTC 60 and NCTC 4199, took up greater amounts of colistin from solution than did the other strains. Pretreatment of strains 60 and 4199 resulted in osmotic instability and in increased susceptibility to Tris and deoxycholate. Colistin-induced lysis in Tris could be overcome by means of 0–16 mol/l sodium chloride or 0–33 mol/l sucrose. Pre-treated, but not control, cells of these two strains exposed to Tris (0–05 mol/l, pH 9) developed surface protuberances (blebs).     

Some biological features of proteus bacilli. 3. Comparison of haemolytic activity of Proteus and Serratia strains

The haemolytic activity of Proteus mirabilis and P. vulgaris bacilli exhibited in young broth cultures was compared with the ability of Serratia marcescens strains to haemolyze human and sheep erythrocytes in the same conditions.     

Response to antibiotics of Proteus strains isolated from different types of clinical material

The data on the study of the antibiotic response to 42 Proteus strains isolated from different sources in the hospitals of Kharkov are presented. The isolates belonged to P. mirabilis and P. vulgaris. Many strains were resistant to gentamicin, ampicillin and carbenicillin irrespective of the isolation source. 58.0 and 90.3 per cent of the strains isolated from patients with intestinal infections, 66.6 and 100 per cent of the strains isolated from patients with otitis, 33.3 and 66.6 per cent of the strains isolated from patients with bronchopulmonary affections and 100 and 100 per cent of the strains isolated from patients with urological diseases were resistant to gentamicin and carbenicillin, respectively. As for ampicillin, the respective figures were 74.2, 66.6, 66.6 and 100 per cent. All the strains of P. vulgaris isolated from patients with otitis, urological diseases and bronchopulmonary affections were resistant to ampicillin. The MIC of carbenicillin for all the strains except 4 indole-positive strains of P. vulgaris isolated from the faeces and bronchial excreta was much higher than the borderline values.     

Proteus virulence: involvement of the pore forming alpha-hemolysin (a short review)

The genus Proteus belongs to the tribe of Proteae in the family of Enterobacteriaceae, and consists of five species: P. mirabilis, P. vulgaris, P. morganii, P. penneri and P. myxofaciens. They are distinguished from the rest of Enterobacteriaceae by their ability to deaminate phenylalanine and tryptophane. They hydrolyze urea and gelatin and fail to ferment lactose, mannose, dulcitol and malonate; and do not form lysine and arginine decarboxylase or beta-galactosidase [1]. Colonies produce distinct "burned chocolate" odor and frequently show the characteristics of swarming motility on solid media. P. mirabilis, P. vulgaris and P. morganii are widely recognized human pathogens. They have been isolated from urinary tract infections, wounds, ear, and nosocomial bacteremic infections, often in immuncompromised patients [2-6]. P. myxofaciens has no clinical interest to this time. P. penneri as species nova was nominated by the recommendation of Hickman and co-workers [7]. Formerly it was recognized as P. vulgaris biogroup 1 or indole negative P. vulgaris [8, 9]. Although it has been less commonly isolated from clinical samples than the other three human pathogenic Proteus species, it has nevertheless been connected with infections of the urinary tract, wounds and has been isolated from the feces of both healthy and diarrheic individuals [10-12]. Potential virulence factors responsible for virulence of Proteae are: IgA protease, urease, type3 fimbriae associated with MR/K haemagglutinins of at least two antigenic types, endotoxin, swarming motility and HlyA and/or HpmA type hemolysins [for review see ref. 13]. In the followings we give a survey of accumulated concepts about the position and characteristics of HlyA type alpha-hemolysins both in general and with emphasis on virulence functions in the tribe of Proteae.     

Effect of the proteolytic enzymes of Bacillus licheniformis and the lysoamidase of Lysobacter sp. XL1 on Proteus vulgaris and Proteus mirabilis

Preparations of culture liquid of three Bacullus licheniformis strains (S, 103, and 60.4) and the enzymatic preparation lysoamidase from culture liquid of Lysobacter sp. strain XL1 actively lysed preliminarily autoclaved cells of gram-negative bacteria Proteus vulgaris and P. mirabilis. Living Proteus cells treated with these enzymatic preparations were lysed during their subsequent autoclaving. Inoculation of enzyme-treated Proteus cells, taken either separately or in combination with one another and polymyxin B, into a rich medium led to cell repair and restoration of viability of culture.     

一株转化大豆苷元为S-雌马酚菌株的筛选和鉴定

【目的】筛选一株可转化大豆苷元为S-雌马酚的微生物菌株,并对该菌株进行鉴定。【方法】在厌氧条件下采用抗生素抑制非目标菌生长并结合稀释涂平板法进行菌株分离,分离可转化大豆苷元生成S-雌马酚的肠道细菌,并对产物进行结构鉴定。之后通过16S rDNA序列分析,构建该菌系统进化树,结合菌体形态及菌落特征,确立该菌系统发育学地位。【结果】从大鼠肠道内筛选分离到一株可以将大豆苷元转化为S-雌马酚的革兰氏阴性兼性厌氧菌株LH-52(JN861767),16S rDNA序列测序结果 BLAST比对表明该菌株与奇异变形杆菌(Proteus mirabilis)相似度达到了99%,结合形态特征和生理生化实验结果鉴定该菌为奇异变形杆菌。根据HPLC保留时间、质谱、核磁共振等波谱数据分析确定产物为S-雌马酚。【结论】菌株P.mirabilis LH-52为首次筛选到的可转化大豆苷元为S-雌马酚的兼性厌氧菌,相对于文献报道的严格厌氧菌更适合于工业化生产。     

Viper metalloproteinase (Agkistrodon halys pallas) with antimicrobial activity against multi-drug resistant human pathogens

Metalloproteinases are abundant enzymes in crotalidae and viperidae snake venoms. Snake venom metalloproteinases (SVMPs) comprise a family of zinc-dependent enzymes, which display many different biological activities. A 23.1 kDa protein was isolated from Agkistrodon halys (pallas, Chinese viper) snake venom. The toxin is a single chain polypeptide with a molecular weight of 23146.61 and an N-terminal sequence (MIQVLLVTICLAVFPYQGSSIILES) relatively similar to that of other metalloprotein-like proteases isolated from the snake venoms of the Viperidae family. The antibacterial effect of Agkistrodon halys metalloproteinase (AHM) on Burkholderia pseudomallei (strains TES and KHW), Escherichia coli, Enterobacter aerogenes, Proteus vulgaris, Proteus mirabilis, Pseudomonas aeruginosa (Gram-negative bacteria) and Staphylococcus aureus (Gram-positive bacterium) was studied at a concentration 120 microM. Interestingly, we found that the metalloproteinase exhibited antibacterial properties and was more active against S. aureus, P. vulgaris, P. mirabilis and multi-drug resistant B. pseudomallei (strain KHW) bacteria. AHM variants with high bacteriostatic activity (MIC 1.875-60 microM) also tended to be less cytotoxic against U-937 human monocytic cells up to 1 mM concentrations. These results suggest that this metalloprotein exerts its antimicrobial effect by altering membrane packing and inhibiting mechanosensitive targets.     

Transmission of the R-plasmids and expression of their genes in Proteus mirabilis]

Resistance markers to individual antibiotics are transmitted in E. coli with the same frequency in the shape of a uniform linkage group, and in Proteus mirabilis--with a different one. Possibly in Proteus mirabilis plasmide R6 dissociated, this being expressed in a different incidence of transconjugates, characterized by a different set of antibiotic resistance genes. Tetracyclin resistance gene can be transmitted in P. mirabilis without being bound with other resistance determinants and with the functioning Tra-operon. The expression of individual antibiotic resistance genes of plasmide R6 in P. mirabilis differed, i.e. tetracycline resistance was inducible, and to kanamycin and chloramphenicol--constitutional. The level of expression of the gene controlling the tetracycline resistance was in noninduced condition in P. mirabilis, lower than in E. coli, P. mirabilis containing no R-factor possessed an inducible resistance mechanism to tetracycline, as in case of P. mirabilis strains containing R-factors.     

Dynamics of drug resistance in Proteus mirabilis cultures 1970-1985

Resistance of 669 clinical strains of Proteus mirabilis to 18 chemotherapeutic drugs was studied in dynamics within 1970-1985. An increase in the number of cultures resistant to ampicillin and carbenicillin was noted while the number of cultures resistant to cephalosporines did not change. Within the period from 1970 to 1975 there was observed a marked increase in the number of Proteus strains resistant to aminoglycoside antibiotics. After that period their number gradually lowered and in 1985 reached the level of 1970. Beginning from 1973 there were observed a decrease in the number of Proteus chloramphenicol resistant strains and simultaneous occurrence of cultures sensitive to this antibiotic. The predominating number of the tested strains preserved during the whole observation period their resistance to tetracycline, doxycycline, rifampicin, novobiocin, furazolidone and furagin. No increase in the number of Proteus strains with multiple drug resistance including those resistant to 5-7 drugs was noted in the observation periods of 1970-1975, 1980 and 1985. The most frequent were Proteus strains resistant to 2-4 drugs. Among them cultures resistant to chloramphenicol and aminoglycoside antibiotics of the first generation predominated. Grouping of the strains by the same resistance spectra provided dividing the rested cultures of Proteus mirabilis into 69 variants.