Leptospire genomic diversity revealed by microarray-based comparative genomic hybridization

Comparative genomic hybridization was used to compare genetic diversity of five strains of Leptospira (Leptospira interrogans serovars Bratislava, Canicola, and Hebdomadis and Leptospira kirschneri serovars Cynopteri and Grippotyphosa). The array was designed based on two available sequenced Leptospira reference genomes, those of L. interrogans serovar Copenhageni and L. interrogans serovar Lai. A comparison of genetic contents showed that L. interrogans serovar Bratislava was closest to the reference genomes while L. kirschneri serovar Grippotyphosa had the least similarity to the reference genomes. Cluster analysis indicated that L. interrogans serovars Bratislava and Hebdomadis clustered together first, followed by L. interrogans serovar Canicola, before the two L. kirschneri strains. Confirmed/potential virulence factors identified in previous research were also detected in the tested strains.     

In silico identification of common putative drug targets in <Emphasis Type="Italic">Leptospira interrogans</Emphasis>

Infectious diseases are the leading causes of death worldwide. Hence, there is a need to develop new antimicrobial agents. Traditional method of drug discovery is time consuming and yields a few drug targets with little intracellular information for guiding target selection. Thus, focus in drug development has been shifted to computational comparative genomics for identifying novel drug targets. Leptospirosis is a worldwide zoonosis of global concern caused by Leptospira interrogans. Availability of L. interrogans serovars and human genome sequences facilitated to search for novel drug targets using bioinformatics tools. The genome sequence of L. interrogans serovar Copenhageni has 5,124 genes while that of serovar Lai has 4,727 genes. Through subtractive genomic approach 218 genes in serovar Copenhageni and 158 genes in serovar Lai have been identified as putative drug targets. Comparative genomic approach had revealed that 88 drug targets were common to both the serovars. Pathway analysis using the Kyoto Encyclopaedia of Genes and Genomes revealed that 66 targets are enzymes and 22 are non-enzymes. Sixty two common drug targets were predicted to be localized in cytoplasm and 16 were surface proteins. The identified potential drug targets form a platform for further investigation in discovery of novel therapeutic compounds against Leptospira.     

Genetic differences among the LPS biosynthetic loci of serovars of Leptospira interrogans and Leptospira borgpetersenii

The gene organization in the lipopolysaccharide biosynthetic (rfb) locus was analyzed in seven Leptospira interrogans serovars within serogroup Icterohemorrhagiae, seven non-Icterohemorrhagiae serovars and one Leptospira borgpetersenii serovar. Two groups of loci were delineated based on DNA hybridization and sequence analysis. Group 1 contained the two Hardjo subtypes, Hardjoprajitno and Hardjobovis. Group 2 (containing Copenhageni, Pomona, Naam, Mwogolo, Smithi, Lai, Canicola, Autumnalis, Pyrogenes, Australis and Icterohemorrhagiae) differed from Group 1 in its organization upstream of orf11, where five ORFs (32, 33, 34, 35, 37) were identified that were not contained in the Group 1 loci. These ORFs encoded a putative epimerase (orf32), a glycosyltransferase (orf33), two integral membrane proteins (orfs 34 and 35), and a galactosyltransferase (orf37). Serovars Australis, Pomona and Autumnalis did not contain orf37. Serovar Bataviae was excluded from the grouping because of its unique genetic organization upstream of orf13. In the Group 2 loci, comparison of the genetic layout at the 5' end revealed differences which included mutations disrupting reading frames in either or both orf34 and orf35 and apparent allelic differences between orf33 homologs that may be sufficient to account for the genetic basis of serovar identity.     

Molecular typing of Leptospira spp. based on putative O-antigen polymerase gene (wzy), the benefit over 16S rRNA gene sequence

Molecular typing of leptospiral strains based on variation within putative O-antigen polymerase gene (wzy) was determined among reference strains and those isolated from patients. Using the PCR primers designed from the flanking gene of wzy derived from Leptospira interrogans serovar Copenhageni, all L. interrogans serovars as well as human and rodent leptospiral isolates from Thailand could be amplified. The size of PCR product ranged from 1 to 1.5 kb. The limitation of these primer pairs was the inability to amplify those strains whose sequences differ in the region of the primers, these included Leptospira biflexa (serovar Patoc), Leptospira borgpetersenii (serovar Tarassovi) and Leptospira kirschneri (serovar Bim, Bulgarica, Butembo). Notably, amplification was not limited to L. interrogans as demonstrated by the amplification of some strains from L. kirschneri, Leptospira meyeri, Leptospira noguchii, Leptospira santarosai, L. borgpetersenii and Leptospira weilii. The phylogenetic tree of wzy sequence, inferred by posterior probability of the Bayesian, enabled the categorization of leptospiral serovars into seven genetically related group, of which its differentiation power was better than that of the more highly conserved 16S rRNA gene, which is used extensively for genotyping.     

问号钩端螺旋体疫苗候选基因LB061的抗原性和保守性研究

目的 克隆表达和鉴定问号钩端螺旋体黄疸出血群赖型赖株中疫苗候选基因LB061,研究LB061的免疫原性和在不同血清型钩端螺旋体菌中的保守性。方法 生物信息学软件分析预测LB061的特征。构建原核表达质粒pQE31-LB061,经IPTG诱导后用SDS-PAGE及Western印迹法鉴定表达情况。用表达的重组蛋白免疫BALB/c小鼠,Western印迹法检测其抗原性和在不同血清型钩端螺旋体中的保守性。Western印迹法检测钩端螺旋体全菌兔抗血清中的LB061抗体。结果 生物信息学预测结果显示,LB061含有DUF839家族结构域。成功克隆了重组质粒pQE31-LB061,表达的重组蛋白能刺激BALB/c小鼠产生抗体(效价为1∶32000),并能与相应抗体反应,具有良好的抗原性。在16株不同血清型的钩端螺旋体中均可检测到LB061蛋白的表达,并在钩端螺旋体赖株全菌兔抗血清中检测到其抗体。结论 LB061蛋白可以作为外膜蛋白刺激宿主免疫系统产生抗体,具有良好的抗原性和保守性。本研究为其作为疫苗候选基因的研究奠定了基础。     

不同毒力钩端螺旋体引起THP-1细胞中细胞因子表达的研究

本文旨在通过观察不同毒力钩端螺旋体激活人单核巨噬细胞株THP-1中细胞因子信号途径的差异,探讨天然免疫在钩端螺旋体病发病机制中的作用.将3种不同毒力的钩端螺旋体--赖型有毒株Lai株、赖型减毒株IPAV株及非致病性Patoc型Patoc 1株与诱导后的细胞相互作用,在作用0、2、12、24、48 h 后收集标本,应用实...     

Comparative proteogenomic analysis of the Leptospira interrogans virulence-attenuated strain IPAV against the pathogenic strain 56601

The virulence-attenuated Leptospira interrogans serovar Lai strain IPAV was derived by prolonged laboratory passage from a highly virulent ancestral strain isolated in China. We studied the genetic variations of IPAV that render it avirulent via comparative analysis against the pathogenic L. interrogans serovar Lai strain 56601. The complete genome sequence of the IPAV strain was determined and used to compare with, and then rectify and reannotate the genome sequence of strain 56601. Aside from their highly similar genomic structure and gene order, a total of 33 insertions, 53 deletions and 301 single-nucleotide variations (SNVs) were detected throughout the genome of IPAV directly affecting 101 genes, either in their 5' upstream region or within their coding region. Among them, the majority of the 44 functional genes are involved in signal transduction, stress response, transmembrane transport and nitrogen metabolism. Comparative proteomic analysis based on quantitative liquid chromatography (LC)-MS/MS data revealed that among 1 627 selected pairs of orthologs, 174 genes in the IPAV strain were upregulated, with enrichment mainly in classes of energy production and lipid metabolism. In contrast, 228 genes in strain 56601 were upregulated, with the majority enriched in the categories of protein translation and DNA replication/repair. The combination of genomic and proteomic approaches illustrated that altered expression or mutations in critical genes, such as those encoding a Ser/Thr kinase, carbon-starvation protein CstA, glutamine synthetase, GTP-binding protein BipA, ribonucleotide-diphosphate reductase and phosphate transporter, and alterations in the translational profile of lipoproteins or outer membrane proteins are likely to account for the virulence attenuation in strain IPAV.     

Lipopolysaccharide biosynthesis in Leptospira

Lipopolysaccharide is the major surface antigen of Leptospira. Variation in LPS structure is the basis for the more than 200 serovars that have been identified. Despite the importance of this antigen in immunity and diagnostics, there is relatively little known about the genetics and chemistry of leptospiral LPS, as compared to some members of the Enterobacteriaceae. The nucleotide sequence of the locus encoding enzymes for the biosynthesis of the O-antigen component of leptospiral LPS (rfb locus) has been determined for three serovars namely, L. interrogans serovar Pomona, L. interrogans serovar Hardjo subtype Hardjoprajitno and L. borgpetersenii serovar Hardjo subtype Hardjobovis. In the absence of data relating to the chemical structure or genetic tools to construct isogenic mutants in Leptospira, similarity analysis has been used to provide insight into the mechanisms by which the leptospiral O-antigen is assembled by comparison with characterized systems from other bacteria. In addition, comparison of the gene layout in each of the serovars provides an indication of the genetic basis for serovar diversity.     

Isolation and biological activities of endotoxin from Leptospira interrogans.

Endotoxins extracted with ethylenediaminetetraacetate (EDTA) from Leptospira interrogans serovars icterohaemorrhagiae and canicola and Leptospira biflexa serovar patoc were tested for various biological activities characteristic of endotoxins. The presence of lipopolysaccharide biological activity was demonstrated by the Limulus amoebocyte lysate test, pyrogenicity in rabbits, complement interaction inhibiting the erythrocyte lysis, and chicken-embryo lethality. The lipopolysaccharides did not induce the local Shwartzman reaction. The lipopolysaccharides of serovars icterohaemorrhagiae and canicola were immunogenic in rabbits and were cytotoxic to chicken-embryo fibroblasts.     

Partial rpoB gene sequencing for identification of Leptospira species

The usual target for sequence-based identification of Leptospira species is the 16S rRNA gene. However, because the 16S rRNA gene is not polymorphic enough, it is necessary to sequence a 1500 bp segment of this gene for accurate identification. Based on the alignment of previously determined rpoB of three Leptospira strains, we designed and tested a primer pair that enabled us to amplify and sequence a 600 bp segment of Leptospira rpoB. This segment was species-specific for the 16 species tested, but was unable to separate Leptospira interrogans serovars accurately. For the 11 L. interrogans serovars tested, only seven genotypes could be determined. We thus think that analysis of partial rpoB may be useful as an initial screening test for the identification of a new isolate of Leptospira and detection or identification of Leptospira in clinical or environmental samples, but not for serovar determination.     

Characterization of the cheY genes from Leptospira interrogans and their effects on the behavior of Escherichia coli

The motility and chemotaxis system are critical for the virulence of pathogenic leptospire, which enable them to penetrate host tissue barriers during infection. The completed genome sequence of a representative virulent serovar type strain (Lai) of Leptospira interrogans serogroups Icterohaemorrhagiae (L. interrogans strain Lai) suggested that there were multiple copies of putative chemotaxis homologues located at its large chromosome. In order to verify the function of these proteins, the putative cheY genes were cloned into pQE31 vector and then expressed, respectively, in wild-type Escherichia coli strain RP437 and cheY defective strain RP5232. The results showed that all the five cheYs could restore the swarming of RP5232 strain to some extend. Overexpression of CheYs in RP437 showed inhibited swarming of RP437. To investigate the mechanism of chemotaxis signaling in L. interrogans strain Lai, certain aspartates (Asp-53, Asp-61, Asp-70, Asp-62, and Asp-66 for L. interrogans strain Lai CheY1, CheY2, CheY3, CheY4, and CheY5, respectively) were mutated. Expression of these mutated cheYs manifested neither restoration of the swarming ability of RP5232 nor inhibition on swarming ability of RP437. Multiple amino acid sequence alignment predicted ternary structures and the result of mutation experiment suggested that these conserved aspartate residues of L. interrogans were analogous to that in E. coli CheY in function and structure. So, L. interrogans and E. coli may have similar mechanisms of activation of the chemotaxis phosphorelay pathway, but there are differences in their control by signal terminator.     

Whole-genome analysis of Leptospira interrogans to identify potential vaccine candidates against leptospirosis

Leptospirosis is an important global human and veterinary health problem. Humans can be infected by exposure to chronically infected animals and their environment. An important focus of the current leptospiral research is the identification of outer membrane proteins (OMPs). Due to their location, leptospiral OMPs are likely to be relevant in host-pathogen interactions, hence their potential ability to stimulate heterologous immunity. The existing whole-genome sequence of Leptospira interrogans serovar Copenhageni offers a unique opportunity to search for cell surface proteins. Predicted genes encoding potential surface proteins were amplified from genomic DNA by PCR methodology and cloned into an Escherichia coli expression system. The partially purified recombinant proteins were probed by Western blotting with sera from human patients diagnosed with leptospirosis. Sixteen proteins, out of a hundred tested, were recognized by antibodies present in human sera. Four of these proteins were conserved among eight serovars of L. interrogans and absent in the non-pathogenic Leptospira biflexa. These proteins might be useful for the diagnosis of the disease as well as potential vaccine candidates.     

Sensitivity of pathogenic and free-living Leptospira spp. to UV radiation and mitomycin C.

The habitats for the two major Leptospira spp. differ. The main habitat of L. biflexa is soil and water, whereas L. interrogans primarily resides in the renal tubules of animals. We investigated whether these two species, along with L. illini (species incertae sedis), differ with respect to their sensitivity to UV radiation. The doses of UV resulting in 37, 10, and 1% survival were determined for representative serovars from each species. L. interrogans serovar pomona was 3.0 to 4.8 times more sensitive to UV than the other Leptospira species under the 37, 10, and 1% survival parameters. In comparison to other bacteria, L. interrogans serovar pomona is among the most sensitive to UV. In a qualitative UV sensitivity assay, L. interrogans serovars were found to be in general more sensitive than L. biflexa serovars. All three species were found to have a photoreactivation DNA repair mechanism. Since organisms that are resistant to UV are often resistant to the DNA cross-linking agent mitomycin C, we tested the relative sensitivity of several Leptospira serovars to this compound. With few exceptions, L. biflexa and L. illini serovars were considerably more resistant to mitomycin C than the L. interrogans serovars. The mitomycin C sensitivity assay could be a useful addition to current characterization tests used to differentiate the Leptospira species.     

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.     

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.     

致病钩体表层膜蛋白新基因（Lslp）的克隆表达及免疫原性研究

克隆表达钩端螺旋体表层膜蛋白新基因Lslp并分析表达产物的免疫原性。根据前期研究得到的致病钩体新基因Lslp(GenBankAF32 5 80 7)的序列设计引物 ,在 6株致病钩体中扩增Lslp基因并测序。以BamHⅠ酶切Lslp和pGEX 1 λT ,构建重组质粒并用酶切和PCR鉴定 ,进一步在大肠杆菌中诱导表达 ,并进行免疫印迹分析 ;纯化表达产物免疫家兔 ,ELISA检测血清抗体滴度。结果显示Lslp在 6株致病钩体中均能扩增出相应片段 ,且序列同源性达到99 6 % ;构建高效原核表达重组质粒pGST LslP ,经IPTG诱导在大肠杆菌中可表达出 6 6kDGST融合蛋白 ,并能与全钩抗血清发生免疫印迹反应 ;将上述融合蛋白免疫新西兰大白兔产生 1 :5 1 2 0高滴度的IgG抗体。研究结果提示致病钩体膜蛋白新基因Lslp可在大肠杆菌进行高效表达 ,表达产物能被全钩抗血清识别 ,为研究钩体的致病机制和筛选保护性抗原提供了基础     

Sensitivity of pathogenic and free-living Leptospira spp. to UV radiation and mitomycin C

The habitats for the two major Leptospira spp. differ. The main habitat of L. biflexa is soil and water, whereas L. interrogans primarily resides in the renal tubules of animals. We investigated whether these two species, along with L. illini (species incertae sedis), differ with respect to their sensitivity to UV radiation. The doses of UV resulting in 37, 10, and 1% survival were determined for representative serovars from each species. L. interrogans serovar pomona was 3.0 to 4.8 times more sensitive to UV than the other Leptospira species under the 37, 10, and 1% survival parameters. In comparison to other bacteria, L. interrogans serovar pomona is among the most sensitive to UV. In a qualitative UV sensitivity assay, L. interrogans serovars were found to be in general more sensitive than L. biflexa serovars. All three species were found to have a photoreactivation DNA repair mechanism. Since organisms that are resistant to UV are often resistant to the DNA cross-linking agent mitomycin C, we tested the relative sensitivity of several Leptospira serovars to this compound. With few exceptions, L. biflexa and L. illini serovars were considerably more resistant to mitomycin C than the L. interrogans serovars. The mitomycin C sensitivity assay could be a useful addition to current characterization tests used to differentiate the Leptospira species.     

Comparison of genetic maps for two Leptospira interrogans serovars provides evidence for two chromosomes and intraspecies heterogeneity.

Genetic maps were constructed for Leptospira interrogans serovars icterohaemorrhagiae and pomona. Previously we independently constructed physical maps of the genomes for these two serovars. The genomes of both serovars consist of a large replicon (4.4 to 4.6 Mb) and a small replicon (350 kb). Genes were localized on the physical maps by using Southern blot analysis with specific probes. Among the probes used were genes encoding a variety of essential enzymes and genes usually found near bacterial chromosomal replication origins. Most of the essential genes are on the larger replicon of each serovar. However, the smaller replicons of both serovars contain the asd gene. The asd gene encodes aspartate beta-semialdehyde dehydrogenase, an enzyme essential in amino acid and cell wall biosyntheses. The finding that both L. interrogans replicons contain essential genes suggests that both replicons are chromosomes. Comparison of the genetic maps of the larger replicons of the two serovars showed evidence of large rearrangements. These data show that there is considerable intraspecies heterogeneity in L. interrogans.     

Expression and immunologic characterization of recombinant heat shock protein 58 of Leptospira species: a major target antigen of the humoral immune response

A clone of Leptospira interrogans serovar lai that was isolated by immunoscreening of a genomic lambda library with sera from convalescent patients with leptospirosis directed expression of a unique 62-kDa protein in Escherichia coli. When examined by SDS-PAGE, the protein comigrated with an immunodominant protein present in leptospiral cell lysate. Determination of the nucleotide sequence of the 2.7-kb insert DNA identified two genes homologous to the hsp58 and hsp10 of L. interrogans serovar copenhageni reported previously. The overexpressed recombinant Hsp58 protein was purified and used to immunize a rabbit to produce a polyclonal antibody. Immunoblot analysis using the rabbit anti-Hsp58 G antibodies showed that the 62-kDa protein was commonly present in lysates of other serovars of leptospires, consistent with the strong sequence conservation between the hsp58 genes of the two serovars. Immunoglobulin G antibodies to the Hsp58 were specifically detected by ELISA in 82% of sera (18/22) from patients with leptospirosis. Deletion analysis of the recombinant Hsp58 protein indicated that a strong antigenic determinant for humoral immune response is located between amino acids 360 and 380 (DREKLQERLAKLAGGVAVIHV) of Hsp58, which are highly conserved among the GroEL family. The strong sequence conservation of the Hsp58 among leptospires and its importance as a major target for the humoral immune response warrant further studies of its potential pathogenetic role.