Deoxyribonucleic acid base composition and homology studies of Leptospira

Classification of Leptospira genomospecies 1, 3, 4 and 5 as Leptospira alstonii sp. nov., Leptospira vanthielii sp. nov., Leptospira terpstrae sp. nov. and Leptospira yanagawae sp. nov., respectively

The genus Leptospira currently comprises 16 named species. In addition, four unnamed hybridization groups were designated Leptospira genomospecies 1, 3, 4 and 5. These groups represent valid species-level taxa, but were not assigned names in the original description by Brenner et al. [Int J Syst Bacteriol 49, 839-858 (1999)]. To rectify this situation, it is proposed that Leptospira genomospecies 1, genomospecies 3, genomospecies 4 and genomospecies 5 should be classified as Leptospira alstonii sp. nov., Leptospira vanthielii sp. nov., Leptospira terpstrae sp. nov. and Leptospira yanagawae sp. nov., respectively, with strains L. alstonii 79601(T) ( = ATCC BAA-2439(T)), L. vanthielii WaZ Holland(T) ( = ATCC 700522(T)), L. terpstrae LT 11-33(T) ( = ATCC 700639(T)) and L. yanagawae Sao Paulo(T) ( = ATCC 700523(T)) as the type strains. The type strains are also available from the culture collections of the WHO Collaborating Centres in Amsterdam, The Netherlands, and Brisbane, Australia.

Deoxyribonucleic Acid Heterogeneity Between Human and Murine Strains of Chlamydia trachomatis

We compared the polynucleotide sequence relationships of three strains of Chlamydia trachomatis of human origin (MRC-1/G, TW-3, and Lgv), one of murine origin (MoPn), and the MN strain of C. psittaci. The four strains of C. trachomatis have the same base ratio, about 42.5 moles per cent guanine plus cytosine, which is significantly higher than the base ratio of MN (39.5). Single strands of deoxyribonucleic acid (DNA) fragments of MRC-1/G reassociated with immobilized DNA of TW-3 and Lgv almost as well as with the homologous DNA. The duplexes produced in these reactions were about equally thermostable. On the other hand, reassociations between MRC-1/G and MoPn involved 60 or 30% of the DNA, depending on the stringency of the conditions for reassociation, and the duplexes were thermolabile. MoPn reassociated only to a very small degree with MN. We also compared glucose catabolism of MRC-1/G, MoPn, and MN under several sets of conditions. These tests failed to reveal any qualitative phenotypic differences among the three strains. It can be concluded that, judging by polynucleotide sequence, the three human strains of C. trachomatis are closely related but appreciably different from a murine strain.

Phylogenetic relatedness among leptospiral strains belonging to same serovar recovered from patients with different clinical syndromes

Leptospirosis is an emerging zoonotic disease with widespread distribution. The disease, caused by a large number of pathogenic serovars of leptospires, varies in severity from mild flu like illness to severe and fatal forms. It has often been observed that the strains of the same serovar are associated with different clinical syndromes. In this study the isolates recovered from patients with mild and severe form of leptospirosis and those isolated from rodents trapped in the same areas were analyzed by using random amplified polymorphic DNA (RAPD) fingerprinting method using the primers PB1, M16, B11 and B12. RAPD fingerprinting patterns of these strains consistently showed five different genetic clusters. Strains belonging to serovar Ratnapura that caused hepato-renal involvement in patients in South India were genetically dissimilar to strains of the same serovar isolated from patients in Andamans who had pulmonary complications. Strains of other serovars causing mild and sever illness could also be discriminated. However, isolates obtained from human patients and rodents in the same geographical areas showed identical fingerprint patterns indicating that strains circulating in different geographical regions, though belonging to same serovar, are unique to each region.

Differentiation of leptospires of the serogroup Pomona by monoclonal antibodies, pulsed-field gel electrophoresis and arbitrarily primed polymerase chain reaction

All reference strains described as representing separate serovars belonging to the serogroup Pomona and a clinical leptospiral isolate (LP2) from this serogroup were analyzed using a battery of 9 monoclonal antibodies, pulsed-field gel electrophoresis (PFGE) and arbitrarily primed polymerase chain reaction (AP-PCR). Monoclonal antibody analysis provided taxonomic results which were in agreement with the current classification of the serogroup Pomona into six serovars and allowed the classification of the isolate LP2 in the serovar pomona. PFGE and AP-PCR, although in general agreement with monoclonal antibody analysis, also were able to demonstrate some differences in the restriction patterns of strains Pomona, Monjakov and CB. These results indicate that these strains, grouped within serovar pomona after the introduction of bacterial restriction endonuclease analysis as the typing method, but formerly described as representing separate serovars (pomona, monjakov and cornelli, respectively), are similar but not identical to one another. This was also the case with strains 5621, the serovar mozdok reference strain, and K1, formerly described as serovar dania reference strain, but currently recognized to be a mozdok-like strain. These findings suggest that the deletion of some serovars within the serogroup Pomona, namely mozdok, cornelli, and dania, should be reconsidered. Thus, PFGE appears to be a useful tool for the serovar identification of leptospires belonging to the serogroup Pomona and for shedding light on the problem of their classification.

Leptospirosis

Leptospirosis is a worldwide zoonotic infection with a much greater incidence in tropical regions and has now been identified as one of the emerging infectious diseases. The epidemiology of leptospirosis has been modified by changes in animal husbandry, climate, and human behavior. Resurgent interest in leptospirosis has resulted from large outbreaks that have received significant publicity. The development of simpler, rapid assays for diagnosis has been based largely on the recognition that early initiation of antibiotic therapy is important in acute disease but also on the need for assays which can be used more widely. In this review, the complex taxonomy of leptospires, previously based on serology and recently modified by a genotypic classification, is discussed, and the clinical and epidemiological value of molecular diagnosis and typing is also evaluated.

Pulsed-field gel electrophoresis of NotI digests of leptospiral DNA: a new rapid method of serovar identification

Fingerprints for 72 reference serovar strains of pathogenic Leptospira spp. were obtained by pulsed-field gel electrophoresis (PFGE) following NotI restriction digests of the chromosome. These strains included the serovar reference strains of serogroups Australis, Ballum, Bataviae, Grippotyphosa, Panama, Pomona, and Pyrogenes. Sixty-four serovars could be identified by a unique NotI restriction profile. The remaining serovars were differentiated by chromosomal digestion with SgrAI. These included four serovars from serogroup Australis, two serovars from serogroup Ballum, and two serovars from serogroup Bataviae. Thirteen of 18 recent clinical isolates identified by microagglutination test and cross-adsorption procedure were correctly typed by PFGE. The results indicate that PFGE, which is considerably more rapid than serology, should be useful for identification and epidemiological studies.

Presence of putative sphingomyelinase genes among members of the family Leptospiraceae

The presence of multiple DNA elements in pathogenic members of the family Leptospiraceae, similar to the sphA sphingomyelinase gene from Leptospira borgpetersenii, was demonstrated by low-stringency hybridization experiments. These DNA elements were designated putative sphingomyelinase genes. Grouping of strains by similarity of hybridization patterns corresponds to the species subdivision of the family Leptospiraceae on the basis of genetic characteristics. Therefore, hybridization with the sphA gene can be used as a taxonomic tool. These hybridization experiments indicate the presence of two groups of genetically related pathogenic Leptospira species.

Physical map of chromosomal and plasmid DNA comprising the genome of Leptospira interrogans

The size and physical structure of the Leptospira interrogans genome was characterized using contour-clamped homogenous electric field (CHEF) gel electrophoresis. The L. interrogans genome is approximately 4750 kb in size and is composed of two molecular species of DNA: a 4400 kb chromosome; and a 350 kb plasmid, pLIN1. A physical map of the chromosome was constructed with the restriction enzymes NotI and SfiI. A physical map of pLIN1 was constructed with ApaI, NotI, Sse83871, SgrAI, and SmaI. Both the L. interrogans chromosome and pLIN1 are circular.

Pulsed-field gel electrophoretic analysis of leptospiral DNA

The genomic structures of spirochete species are not well characterized, and genetic studies on these organisms have been hampered by lack of a genetic exchange mechanism in these bacteria. In view of these observations, pulsed-field gel electrophoresis was used to examine the genomes of Leptospira species. Live cells, prepared in agarose plugs, were lysed in situ, and the DNA was analyzed under different electrophoretic conditions. Pulsed-field gel electrophoresis of DNA digested with infrequently cutting restriction enzymes showed that the genome of Leptospira interrogans serovar canicola is approximately 3.1 Mb, while that of the saprophytic L. biflexa serovar patoc I is 3.5 Mb. DNA forms of approximately 2,000 and 350 kb which were present in samples from L. interrogans serovars were not readily detected in nonpathogenic serovars. Three distinct populations, designated type alpha, beta, and gamma, of L. interrogans DNA molecules were further analyzed with two-dimensional gel electrophoresis. Evidence suggested that two of these DNA forms, type alpha and gamma, were linear structures. Pulsed-field gel electrophoresis has proven to be a valuable tool with which to size bacterial genomes and to take the first steps toward characterization of a form of leptospiral DNA which behaves as a linear molecule and which may be related to the virulence of L. interrogans.

Cloning of the recA gene from a free-living leptospire and distribution of RecA-like protein among spirochetes

A recombinant plasmid carrying the recA gene of Leptospira biflexa serovar patoc was isolated from a cosmid library of genomic DNA by complementation of an Escherichia coli recA mutation. The cloned serovar patoc recA gene efficiently restored resistance to UV radiation and methyl methanesulfonate. Recombination proficiency was also restored, as measured by the formation of Lac+ recombinants from duplicated mutant lacZ genes. Additionally, the cloned recA gene increased the spontaneous and mitomycin C-induced production of lambda phage in lysogens of an E. coli recA mutant. The product of the cloned recA gene was identified in maxicells as a polypeptide with an Mr of 43,000. Antibodies prepared against the E. coli RecA protein cross-reacted with the serovar patoc RecA protein, indicating structural conservation. Southern hybridization data showed that the serovar patoc recA gene has diverged from the recA gene of L. interrogans, Leptonema illini, and E. coli. With the exception of the RecA protein of L. interrogans serovar hardjo, the RecA protein of the Leptospira serovars and L. illini were synthesized at elevated levels following treatment of cells with nalidixic acid. The level of detectable RecA correlated with previous studies demonstrating that free-living cells of L. biflexa serovars and L. illini were considerably more resistant to DNA-damaging agents than were those of parasitic L. interrogans serovars. RecA protein was not detected in cells of virulent Treponema pallidum or Borrelia burgdorferi.

Nucleotide sequence analysis of the Leptospira biflexa serovar patoc rpsL and rpsG genes

The Leptospira biflexa rpsL and rpsG genes were sequenced. Although similar in many respects, proteins encoded by these L. biflexa genes had several unusual features when compared with homologous proteins of other organisms. Unlike the rpsL genes of other eubacteria, the L. biflexa rpsL gene is adjacent to a rpoC-like gene.

Nucleic acid probe characterizes Leptospira interrogans serovars by restriction fragment length polymorphisms

Restriction endonuclease analysis (REA) of genomic DNA can discriminate between many Leptospira interrogans serovars. However, several serovars have similar restriction endonuclease digestion patterns which prohibits accurate identification. This investigation expands previous REA studies of L. interrogans to include serovars in serogroup Tarassovi. Most serovars in this serogroup had characteristic digestion patterns by which they could be identified. However, four of the serovars in this serogroup had similar digestion patterns, thus preventing serovar identification by REA alone. To discriminate between these serovars REA was supplemented with Southern blot analysis. The DNA from each serovar showed similar but unique patterns when hybridized with a probe synthesized from a repetitive sequence element cloned from L. interrogans serovar hardjo type hardjo-bovis. The applicability of this technique to characterize other serogroups was assessed. One hundred sixty six of 190 serovars screened by Southern blot analysis contained sequences which hybridized with the repetitive element probe under conditions of relaxed stringency. These results suggest that Southern blot analysis using this probe will be a valuable supplement for typing L. interrogans.

rRNA gene restriction patterns of Leptospira: a molecular typing system

A total of 67 serovar reference strains and 7 isolates belonging to the genus Leptospira were characterized by ribosomal ribonucleic acid (rRNA) gene restriction patterns. Fifty patterns were observed. Strains belonging to different genomic species always gave different patterns. However, genomic species were subdivided into several patterns. Forty-three serovars gave a specific pattern. Some serovars could not be separated by rRNA gene restriction patterns: strains of serovars icterohaemorrhagiae, copenhageni, lai, pyrogenes and jalna gave pattern 1; serovars birkini, mankarso and wolffi gave pattern 4; serovars canicola, gem, hebdomadis, pomona and hardjo (strain hardjoprajitno) gave pattern 12; serovars valbuzzi and zanoni gave pattern 14; serovars jonsis, malaya and sumneri gave pattern 16; serovars arborea, ballum, castellonis and kenya gave pattern 35; and serovars borincana and shermani gave pattern 43. These data provide the bases for a molecular typing system for the genus Leptospira.

Relationship among selected Leptospira interrogans serogroups as determined by nucleic acid hybridization

Leptospiral DNAs from a variety of Leptospira interrogans serogroups of veterinary significance, as well as a nonpathogenic leptospira, were compared by Southern blot hybridization of EcoRI-digested genomic DNA. The serogroups examined could be assigned to one of three groups on the basis of the degree of cross-hybridization between genomic DNAs. Only a few restriction fragments hybridized between the three groups, and most of these were shown to contain ribosomal DNA. The restriction fragment length polymorphism observed among the intergroup hybridizations allowed differentiation among serogroups and, in some cases, serovars. Under the hybridization conditions used, no hybridization was observed between leptospiral DNA and Leptonema, Escherichia coli, or porcine DNA.

Restriction endonuclease DNA analysis of Leptospira interrogans serovars Icterohaemorrhagiae and Copenhageni

Leptospira interrogans serovar icterohaemorrhagiae strains Ictero No. I and RGA and serovar copenhageni strains M20, Shiromizu and Shibaura were examined by restriction endonuclease DNA analysis. Fifteen endonucleases (AluI, BamHI, BglII, EcoRI, HaeIII, HhaI, HindIII, KpnI, PstI, SacI, SalI, SmaI, StyI, XbaI and XhoI) were used as the digesting enzymes. Strain Ictero No. I showed endonuclease cleavage patterns which differed from those of the other four strains only when it was digested with enzymes KpnI and HindIII. When digested with KpnI, an extra band of about 5.4 kb was clearly produced, and when digested with HindIII, an extra band of about 25 kb was produced. When the other 13 enzymes were used, no differences were found between the endonuclease cleavage patterns among the five strains. Moreover, strains RGA, M20, Shiromizu and Shibaura could not be distinguished by the restriction endonuclease DNA analysis using all 15 endonucleases. In addition, six newly isolated leptospires from patients with leptospirosis and from Rattus norvegicus were compared with the Ictero No. I and M20 strains, by restriction endonuclease DNA analysis using enzymes KpnI and HindIII. Three leptospires belonging to serovar icterohaemorrhagiae showed the same endonuclease cleavage patterns as the M20 strain. The other three strains, which belong to serovar copenhageni, showed almost the same endonuclease cleavage patterns as the M20 strain; only the Kai ima 702 strain produced an extra band which was not identical to the Ictero No. I-specific extra band when digested with HindIII. The leptospiral restriction endonuclease DNA analysis has revealed taxonomic structures that are unrecognized by serology alone.

Enzyme activities of the strains belonging to family Leptospiraceae detected by the API ZYM system

A total of 32 strains of the family Leptospiraceae (23 strains of Leptospira interrogans, 6 strains of Leptospira biflexa, 2 strains of Leptonema and 1 strain of Leptospira parva) were examined for enzyme activities using 89 substrates (API ZYM system). More than 90% of the strains belonging to the family Leptospiraceae possessed strong activities of beta-D-galactosidase, beta-D-glucosidase and 5 esterases (C5, C6, C8, C9 and C10). More than 90% of the strains belonging to the genus Leptospira, except L. parva, had strong activities of L-lysine arylamidase and alpha-L-glutamate arylamidase. L. biflexa strains, except serovar andamana, were different from the other strains examined in that they possessed glycyl-glycine arylamidase, glycyl-phenylalanine arylamidase and L-tryptophan arylamidase. L. biflexa strains, except andamana, L. parva and Leptonema strains possessed strong activities of glycine arylamidase and leucyl-glycine arylamidase. Two strains of the genus Leptonema were different from the strains belonging to the genus Leptospira in that they possessed strong activities of beta-D-lactosidase. L. parva lacked alpha-D-galactosidase which other strains belonging to the family Leptospiraceae possessed. Dendrogram analysis revealed that strains belonging to the family Leptospiraceae were divided into 4 groups. The first group consisted of all strains belonging to L. interrogans and serovar andamana of L. biflexa; the second group consisted of the remaining 5 serovars of L. biflexa; the third group consisted of the genus Leptonema; and the fourth group consisted of only L. parva.

New infectious spirochete isolated from short-tailed shrews and white-footed mice

A spirochete with two periplasmic flagella was isolated from the blood or tissues of spleens and kidneys from short-tailed shrews (Blarina brevicauda) and white-footed mice (Peromyscus leucopus) in Connecticut and Minnesota. After inoculation, the shrew-mouse spirochete infected Swiss mice and Syrian hamsters. This spirochete is morphologically and serologically distinct from the species of Treponema, Borrelia, Leptospira, and Spirochaeta examined.

New method for classification of leptospiral isolates belonging to serogroup pomona by restriction endonuclease analysis: serovar kennewicki

The genomes of leptospiral field isolates belonging to serogroup Pomona were analyzed and compared with those of type strains by cleavage with restriction endonucleases. This new classification method shows differences among these organisms not indicated by the conventional serological typing method. No differences were observed among isolates from the United States, Canada, and New Zealand. Although all isolates selected for this study had been serologically typed as belonging to serovar pomona, the restriction endonuclease analysis indicates that they belong to serovar kennewicki. kennewicki, a serovar of North American origin, has recently been eliminated from the official serovar list because it was found to be indistinguishable from serovar pomona by the serological method.

Genetic relationship of lyme disease spirochetes to Borrelia, Treponema, and Leptospira spp

Genetic studies were performed on the following spirochetes: three Lyme disease spirochetes isolated from Ixodes ticks and from human spinal fluid; three species of North American borreliae; four species of Treponema; and two species of Leptospira. The mol% G+C values for Lyme disease spirochetes were 27.3 to 30.5%, similar to values of 28.0 to 30.5% for Borrelia species but different from the values of Leptospira or Treponema species which ranged from 35.3 to 53%. Lyme disease spirochetes represent a new species of Borrelia, with DNA homologies of 31 to 59% with the three North American strains of Borrelia studied. These studies also showed that Lyme disease spirochetes from three sources constituted a single species, with DNA homologies ranging from 76 to 100%. A high degree of relatedness was also seen between the three North American borreliae, with homology varying from 77 to 95%, indicating that these spirochetes represent a single species. Lyme disease spirochetes and Borrelia species exhibited almost no homology with Leptospira and Treponema species (0 to 2%). Plasmids were detected in the three Lyme disease spirochetes and in the three North American borreliae.

Multiple pathways for isoleucine biosynthesis in the spirochete Leptospira

Spirochetes of the genus Leptospira have previously been shown to use an unusual pathway to synthesize isoleucine. For reasons of convenience, we assume that only one unusual pathway is found in the genus, and we refer to it as the pyruvate pathway. We determined the distribution of this pyruvate pathway in representatives of the seven Leptospira DNA hybridization groups. Our method included labeling the representative strains with radioactive carbon dioxide and other radioactive precursors, fractionating the cells, and determining the specific activities (counts detected per nanomole) of the amino acids found in the protein fractions. On the basis of isoleucine biosynthesis, we found that the genus can be classified as follows: class I primarily, if not exclusively, uses the well-known threonine pathway; class II uses mostly the pyruvate pathway, with a minor amount of isoleucine being synthesized via the threonine pathway; and class III uses the pyruvate pathway exclusively. No relationship appears to exist between the degree of DNA hybridization and the classes of isoleucine biosynthesis. Although the precise intermediates on the pyruvate pathway are unknown, the origin of the carbon skeleton of isoleucine synthesized by this pathway is consistent with a borrowing of the leucine biosynthetic enzymes. However, we found that the pyruvate pathway is not controlled by leucine and that the two isoleucine pathways are independently regulated. Finding major and highly evolved multiple biosynthetic pathways of a specific amino acid within one genus is unique, and, conceivably, represents phylogenetic diversity within Leptospira.

Molecular relatedness of mammalian RNA tumor viruses as determined by DNA hybridization

Each of six mammalian C-type viruses-including two feline leukemia viruses, three murine leukemia viruses, and the human "candidate" virus RD-114-can be distinguished from each other by hybridizing DNA synthesized by viral reverse transcriptase with viral RNA. Characterization of the DNA . RNA hybrids by hydroxylapatite chromatography revealed nucleotide sequence diversity among the viruses, detectable both by the amount of cross-hybridization and by the decreased thermal stability of heterologous hybrids.

Research needs in leptospirosis

Leptospirosis is a widespread infection of man and animals, and locally it assumes considerable importance as a public health and economic problem. It is an important occupational infection among persons working with animals or in environments that may be contaminated by infected animals. In recent years, considerable attention has been devoted to this infection but efforts to control and eliminate it, especially from natural foci, are hindered by gaps in our knowledge. This memorandum is a review of recent progress and current problems in leptospirosis research, with special reference to taxonomy, epidemiological methods, and control measures. Certain aspects of the basic biology of leptospires that are relevant to these topics are also discussed.

Cross-neutralization of leptospiral hemolysins from different serotypes

Cross-neutralization studies on leptospiral hemolysins from strains of two antigenically different serotypes, pomona and canicola, were conducted in sheep. A third strain of serotype hardjo that does not produce hemolysin and is antigenically distinct was included for control purposes. Concentrated hemolysins, prepared from supernatant fluids of canicola or pomona cultures, produced hemolytic anemia in sheep after intravenous injection. Sheep previously infected with hemolysin-producing strains were refractory to effects of homologous or heterologous hemolysins. On the other hand, infection with hardjo did not confer immunity to the action of hemolysins. Hemolysin-neutralizing antibodies were demonstrable in sheep previously infected with pomona or canicola only after challenge with homologous or heterologous hemolysins. Cross-neutralization between two hemolysins were demonstrable in vitro. Hemolysin-neutralizing antibody titers did not correlate with agglutinin titers. Concentrated supernatant fluid of the hardjo culture provoked toxic reactions predominantly in sheep previously infected with pomona or canicola. The causes of these untoward reactions were not determined.