Genomic organization and functional expression of differentially regulated cysteine protease genes of Leishmania donovani complex

For the first time, we report the genomic organization and characterization of Cathepsin L-like cysteine protease gene cluster from the members of Leishmania donovani complex. The cysteine protease gene cluster of Leishmania chagasi has five copies of tandemly arranged genes. The first gene (Ldccys1A) is identical to Ldccys1 cDNA and is predominantly expressed in promastigotes. The last gene (Ldccys1E) is identical to Ldccys1A with a 13 amino acids deletion in the mature domain, including one of the active site histidine residues and a truncated carboxyl terminal extension. It has a diverged 3' untranslated region and is also constitutively expressed in the parasite. Results from rapid amplification of cDNA ends (RACE) suggest that there are three different types of 3' untranslated regions, one of them is identical to that of Ldccys1A whereas another to Ldccys1E. The third one is also identical to Ldccys1A, but has a 154 nucleotides deletion near the polyA region and this gene is constitutively expressed. Gene organization and expression in L. donovani cluster is similar to that of L. chagasi. However, the last gene (Lddcys1F) is different from Ldccys1E as it lacks 13 amino acid deletions. Also, L. donovani possesses an additional copy of the gene (Lddcys1E), which is located away from the cluster. Furthermore, for the first time we have expressed full-length cysteine protease genes in an insect expression system. Ldccys1A and Ldccys1F cleaved gelatin whereas Ldccys1E was found to be inactive in gelatin assays.     

Studies on stibanate resistant Leishmania donovani isolates of Indian origin

Studies with 26 clones of L. donovani promastigotes derived from three different Indian isolates indicated that wild type parasites are mixture of stibanate sensitive and resistant cells. Both forms of the parasite were resistant to the drug. Infection with resistant parasites appears to be the primary reason of high rate of pentavalent antimony unresponsiveness among Indian kala-azar patients. It was observed that the resistant parasites originated as a result of irregular and often incomplete treatment of kala-azar patients with pentavalent antimonials.     

Rapid identification of pseudomonas avellanae field isolates,causing hazelnut decline in central italy,by repetitive PCR genomic fingerprinting

Pseudomonas avellanae is the main cause of hazelnut (Corylus avellana L.) decline, the so called ‘moria’, in central Italy where it has already killed more than 30 000 trees. Its current identification is very long requiring biochemical, physiological and nutritional tests as well as pathogenicity tests and takes not less than 6 months for its completion. In the present study the reliability of the repetitive polymerase chain reaction (rep‐PCR) technique for a rapid and accurate identification of such a pathogen was compared with the traditional identification method. In order to assess the variability of the pathogen, REP, BOX and ERIC primer sets were used in preliminary work to generate genomic fingerprints of 60 P. avellanae reference strains previously isolated from different areas of hazelnut cultivation. ERIC primers yielded the most discriminative clustering of strains that were grouped according to their geographic origin. Sixty field isolates collected from hazelnut orchards of central Italy, planted with different cultivars, during the years 1996–98 were submitted to either the traditional identification methods or to rep‐PCR by using ERIC primers. The latter technique accurately identified all the isolates that were also identified by the traditional methods. Whole‐cell protein analysis by means of sodium dodecyl sulphate‐polyacrylamide gel electrophoresis confirmed this achievement. Rep‐PCR can be successfully adopted for the rapid and accurate identification of P. avellanae in central Italy and it constitutes a very useful tool for the sanitation of the area.     

Leishmania donovani: effect of verapamil on in vitro susceptibility of promastigote and amastigote stages of Indian clinical isolates to sodium stibogluconate

Although pentavalent antimonials are the first-line drug for treatment of visceral leishmaniasis all over the world, yet, in India, increasing number of patients are being reported to be unresponsive to sodium stibogluconate. Verapamil, a calcium channel blocker, affects drug uptake by preventing its efflux and thereby accumulation within the cell. In the present study, effect of verapamil on in vitro susceptibility of both promastigote and amastigote stages of 15 clinical isolates and standard strain of Leishmania donovani to sodium stibogluconate was evaluated by detection of acid phosphatase. Amastigotes were found more susceptible to sodium stibogluconate than the promastigotes (p<0.05) and in the presence of verapamil, IC(50) value of sodium stibogluconate was reduced only for those isolates, which had a higher IC(50). Verapamil alone did not have any effect on the parasites. The results indicate that amastigotes are more susceptible to sodium stibogluconate than promastigotes and verapamil can reverse the in vitro drug resistance of L. donovani clinical isolates to sodium stibogluconate.     

Systematic identification of genes encoding cell surface and secreted proteins that are essential for in vitro growth and infection in Leishmania donovani

Leishmaniasis is an infectious disease caused by protozoan parasites belonging to the genus Leishmania for which there are no approved human vaccines. Infections localise to different tissues in a species-specific manner with the visceral form of the disease caused by Leishmania donovani and L. infantum being the most deadly in humans. Although Leishmania spp. parasites are predominantly intracellular, the visceral disease can be prevented in dogs by vaccinating with a complex mixture of secreted products from cultures of L. infantum promastigotes. With the logic that extracellular parasite proteins make good subunit vaccine candidates because they are directly accessible to vaccine-elicited host antibodies, here we attempt to discover proteins that are essential for in vitro growth and host infection with the goal of identifying subunit vaccine candidates. Using an in silico analysis of the Leishmania donovani genome, we identified 92 genes encoding proteins that are predicted to be secreted or externally anchored to the parasite membrane by a single transmembrane region or a GPI anchor. By selecting a transgenic L. donovani parasite that expresses both luciferase and the Cas9 nuclease, we systematically attempted to target all 92 genes by CRISPR genome editing and identified four that were required for in vitro growth. For fifty-five genes, we infected cohorts of mice with each mutant parasite and by longitudinally quantifying parasitaemia with bioluminescent imaging, showed that nine genes had evidence of an attenuated infection although all ultimately established an infection. Finally, we expressed two genes as full-length soluble recombinant proteins and tested them as subunit vaccine candidates in a murine preclinical infection model. Both proteins elicited significant levels of protection against the uncontrolled development of a splenic infection warranting further investigation as subunit vaccine candidates against this deadly infectious tropical disease.     

Determination of clonality and relatedness of Vibrio cholerae isolates by genomic fingerprinting, using long-range repetitive element sequence-based PCR

A high-throughput method which is applicable for rapid screening, identification, and delineation of isolates of Vibrio cholerae, sensitive to genome variation, and capable of providing phylogenetic inferences enhances environmental monitoring of this bacterium. We have developed and optimized a method for genomic fingerprinting of V. cholerae based on long-range PCR. The method uses a primer set directed to enterobacterial repetitive intergenic consensus sequences, a high-fidelity DNA polymerase, and analysis via conventional agarose gel electrophoresis. Long ( approximately 10 kb), highly reproducible amplicons were generated from V. cholerae isolates, including those from different geographical locations and historical strains isolated during the period 1931-2000. The amplicons yielded reduced variability in their densitometric band patterns to /=90% similarity, discriminating O serotypes and biotypes (classical versus El Tor) as well as pathogenic and nonpathogenic strains. Compared to genome similarity measured by DNA-DNA hybridization, the results showed good correlation (r = 0.7; P < 0.001), with five times less measurement error and without bias. The method permits both phylogenetic inference and clonal differentiation of individual V. cholerae strains, enables robust, high-throughput analysis, and does not require specialized equipment to perform. With access to a curated public database furnished with appropriate analytical software applications, the method should prove useful in large-scale multilaboratory surveys, especially those designed to detect specific pathogens in the natural environment.     

Evaluation of antileishmanial activity of South Indian medicinal plants against Leishmania donovani

Infections due to protozoa of the genus Leishmania are a major worldwide health problem, with high endemicity in developing countries. The aim of this study was to evaluate the in vitro antileishmanial activity of the acetone and methanol leaf extracts of Anisomeles malabarica, flower of Gloriosa superba, leaf of Ocimum basilicum, leaf and seed of Ricinus communis against promastigotes form of Leishmania donovani. Antiparasitic evaluations of different plant crude extracts were performed on 96 well plates at 37°C for 24-48h. Out of the 10 experimental plant extracts tested, the leaf methanol extracts of A. malabarica, and R. communis showed good antileishmanial activity (IC(50)=126±19.70 and 184±39.33μg/mL), respectively against promastigotes. Effective antileishmanial activity was observed making these plants as good candidates for isolation of antiprotozoal compounds which could serve as new lead structures for drug development.     

A PCR fingerprinting technique to distinguish isolates of Lactococcus lactis

A fingerprinting technique similar to repetitive extragenic palindromic PCR was developed to identify strains of Lactococcus lactis. The method distinguishes closely related strains and discriminates among some with identical ldh sequences. The fingerprinting primer LL-Rep1 complements a moderately repeated sequence found in low G+C Gram-positive bacteria and may therefore prove useful for discriminating among strains of other low G+C Gram-positive species.     

A novel multilocus sequence typing scheme identifying genetic diversity amongst Leishmania donovani isolates from a genetically homogeneous population in the Indian subcontinent

In the Indian subcontinent, infection with Leishmania donovani can cause fatal visceral leishmaniasis. Genetic variation in L. donovani is believed to occur rapidly from environmental changes and through selective drug pressures, thereby allowing continued disease occurrence in this region. All previous molecular markers that are commonly in use multilocus microsatellite typing and multilocus sequence typing, were monomorphic in L. donovani originating from the Indian subcontinent (with only a few exceptions) and hence are not suitable for this region. An multilocus sequence typing scheme consisting of a new set of seven housekeeping genes was developed in this study, based on recent findings from whole genome sequencing data. This new scheme was used to assess the genetic diversity amongst 22 autochthonous L. donovani isolates from Bangladesh. Nineteen additional isolates of the L. donovani complex (including sequences of L. donovani reference strain BPK282A1) from other countries were included for comparison. By using restriction fragment length polymorphism of the internal transcribed spacer 1 region (ITS1-RFLP) and ITS1 sequencing, all Bangladeshi isolates were confirmed to be L. donovani. Population genetic analyses of 41 isolates using the seven new MLST loci clearly separated L. donovani from Leishmania infantum. With this multilocus sequence typing scheme, seven genotypes were identified amongst Bangladeshi L. donovani isolates, and these isolates were found to be phylogenetically different compared with those from India, Nepal, Iraq and Africa. This novel multilocus sequence typing approach can detect intra- and inter-species variations within the L. donovani complex, but most importantly these molecular markers can be applied to resolve the phylogenetically very homogeneous L. donovani strains from the Indian subcontinent. Four of these markers were found suitable to differentiate strains originating from Bangladesh, with marker A2P being the most discriminative one.     

Identification of differentially expressed genes by mutually subtracted RNA fingerprinting

A mutually subtracted RNA fingerprinting (SuRF) method has been developed that allows efficient identification of differentially expressed sequence tags between two samples. Mutual subtractions of two RNA samples are achieved by first synthesizing cDNAs using oligo(dT) coupled with magnetic beads which are then reciprocally hybridized to starting RNA samples to remove common mRNAs between them. The second step involves differential fingerprinting of the subtracted RNA samples by polymerase chain reaction with specially designed degenerate primers. SuRF was applied to identify alteration in gene expression pertinent to osteogenic sarcoma which was achieved by employing the method between FOB (an immortalized fetal osteoblast) and MG63 (an osteosarcoma) cell lines. An estimated 10% of the total expressed genes in these two cell types were screened by the method. This analysis identified 96 differentially expressed sequences, none of which was identified repeatedly. A subset of these sequences was subsequently confirmed to have differential expression between the two cell types. Removal of common mRNAs prior to differential display should diminish redundant identification of abundant genes and increase the chance of identifying rare differentially expressed genes.     

Multiple catalase genes are differentially regulated in Aspergillus nidulans

Detoxification of hydrogen peroxide is a fundamental aspect of the cellular antioxidant responses in which catalases play a major role. Two differentially regulated catalase genes, catA and catB, have been studied in Aspergillus nidulans. Here we have characterized a third catalase gene, designated catC, which predicts a 475-amino-acid polypeptide containing a peroxisome-targeting signal. With a molecular mass of 54 kDa, CatC shows high similarity to other small-subunit monofunctional catalases and is most closely related to catalases from other fungi, Archaea, and animals. In contrast, the CatA (approximately 84 kDa) and CatB (approximately 79 kDa) enzymes belong to a family of large-subunit catalases, constituting a unique fungal and bacterial group. The catC gene displayed a relatively constant pattern of expression, not being induced by oxidative or other types of stress. Targeted disruption of catC eliminated a constitutive catalase activity not detected previously in zymogram gels. However, a catalase activity detected in catA catB mutant strains during late stationary phase was still present in catC and catABC null mutants, thus demonstrating the presence of a fourth catalase, here named catalase D (CatD). Neither catC nor catABC triple mutants showed any developmental defect, and both mutants grew as well as wild-type strains in H(2)O(2)-generating substrates, such as fatty acids, and/or purines as the sole carbon and nitrogen sources, respectively. CatD activity was induced during late stationary phase by glucose starvation, high temperature, and, to a lesser extent, H(2)O(2) treatment. The existence of at least four differentially regulated catalases indicates a large and regulated capability for H(2)O(2) detoxification in filamentous fungi.     

DNA fingerprinting of Indian isolates of Xanthomonas oryzae pv. oryzae

 A high level of genetic polymorphism was detected among Indian isolates of Xanthomonas oryzae pv. oryzae using hypervariable probes such as a microsatellite oligonucleotide, probe (TG)₁₀, a human minisatellite probe, pV47, an avirulence gene probe, avrXa10 and a repeat clone, pBS101. These DNA probes detected multiple loci in the bacterial genome generating complex DNA fingerprints and differentiated all of the bacterial isolates. Analysis of fingerprints indicated that pV47, (TG)₁₀ and pBS101 have a lower probability of identical match than avrXa10 and therefore are potential probes for DNA fingerprinting and variability analysis of Xanthomonas oryzae pv. oryzae pathogen populations. Cluster analysis based on hybridization patterns using all of the above probes showed five groups at 56% similarity. Studies on the methylation patterns of isolates representing the three important races of X. oryzae pv. oryzae indicated more methylation in the most virulent isolate, suggesting a possible role of methylation in pathogenicity. Received: 8 December 1996 / Accepted: 20 December 1996     

Leishmania donovani: identification of glycoproteins released by promastigotes during growth in vitro

Culture supernatants of metabolically labeled Leishmania donovani promastigotes were shown to contain approximately 40 electrophoretically distinct released protein compounds. Of these, approximately 20 were glycoproteins which contained terminal mannose residues, as judged by their specific binding to concanavalin A-agarose beads. Smaller subsets of the released glycoproteins were bound by agarose-conjugated Lens culinaris, Ricinus communis, and peanut lectins. Promastigote mannose-containing released glycoproteins were isolated by concanavalin A affinity chromatography and used to immunize a rabbit. This antiserum recognized the parasite-released mannose-containing glycoproteins, including the soluble acid phosphatase, both by immunoprecipitation from solution and in immunoblot analyses. In an antibody bridged enzyme assay this polyspecific serum was also capable of binding native acid phosphatase out of solution and bridging it to the denatured enzyme on SDS-PAGE transblots. Although this antiserum was raised against all 20 released glycoproteins, in agarose gels its major precipitin activity was against the secreted soluble acid phosphatase.     

Rapid identification of Rhizobium strains by targeted PCR fingerprinting

Numerous polymerase chain reaction (PCR) based procedures are routinely used to produce genomic fingerprints of prokaryotes. Many of them have drawbacks however such as sensitivity to experimental variation, lack of reproducibility, poor resolution and the inability to distinguish between closely related strains. To overcome these difficulties, we developed an alternative procedure, Targeted PCR Fingerprinting (TPF) which is based upon the amplification of few but carefully selected markers, followed by high resolution RFLP analysis of the amplified DNA fragments. In contrast to most fingerprinting protocols that use low resolution agarose gels, TPF patterns are produced on denaturing polyacrylamide gels which allow the precise recording of the genomic fingerprints. TPF analysis, which can simultaneously process 96 samples in less than 12 h and remains unaffected by slight experimental variations, is particularly adapted for the rapid identification of target strains amongst many field isolates. Using PCR primers specific for the nifH and recA genes, this procedure was also sufficiently sensitive to discriminate between Rhizobium species NGR234 and R. fredii USDA257, two closely related bacteria in which the symbiotic loci are 98% homologous. Interestingly, comparison of several of their symbiotic genes as well as the partial DNA sequences of their 16S rDNA and recA genes suggest that chromosomes and symbiotic plasmids did not co-evolve, but that symbiotic functions were acquired by lateral gene transfer long after NGR234 and USDA257 diverged from their common ancestors. In this respect, TPF fingerprints produced with distinct chromosomal and plasmid born markers, such as the recA and the nifH genes in NGR234 and USDA257, are probably more likely to detect lateral transfer of genes in bacterial field-populations than procedures relying on the amplification of numerous fragments of unknown genomic position and biological function.     

Characterization of Rhizobium 'hedysari' by RFLP analysis of PCR amplified rDNA and by genomic PCR fingerprinting

The taxonomic and discriminatory power of RFLP analysis of PCR amplified parts of rhizobial rrn operons was compared to those of genomic PCR fingerprinting with arbitrary and repetitive primers. For this purpose, the two methods were applied for characterization of a group of bacterial isolates referred to as Rhizobium 'hedysari'. As outgroups, representatives of the family Rhizobiaceae, belonging to the Rhizobium galegae, Rhizobium meliloti, Rhizobium leguminosarum and Agrobacterium tumefaciens species were used. By the RFLP analysis of the PCR products corresponding to the variable 5'-half of the 23S rRNA gene and of the amplified spacer region between the 16S and 23S rRNA genes all Rh. 'hedysari' strains studied were tightly clustered together while the outgroups were placed in an outer position. The PCR products of the 3' end parts of the 23S rDNA did not show significant RFL polymorphism and no species differentiation on their basis was possible. In parallel, analysis of the same strains was performed by PCR amplification of their total DNA with 19, 18 and 10 bp long arbitrary primers (AP-PCR) as well as with single primers corresponding to several bacterial repetitive sequences (rep-PCR). By both AP and rep-PCR an identification of every particular strain was achieved. In general, all primers provided taxonomic results that are in agreement with the species and group assignments based on the RFLP analysis of the rrn operons. On the basis of the results presented here it can be concluded that AP and rcp-PCR are more informative and discriminative than rDNA and RFLP analysis of the rhizobial strains studied.     

Efficacy of SSH PCR in isolating differentially expressed genes

Background  

Suppression Subtractive Hybridization PCR (SSH PCR) is a sophisticated cDNA subtraction method to enrich and isolate differentially expressed genes. Despite its popularity, the method has not been thoroughly studied for its practical efficacy and potential limitations.     

Characterization of beta-lactam-resistant Bacteroides fragilis isolates by use of PCR fingerprinting

PCR fingerprinting was used for characterization of 35 beta-lactam-resistant Bacteroides fragilis strains isolated in Sweden and Hungary. Ten B. fragilis strains showed unique PCR fingerprints by use of the M13 core primer. Their main product was a DNA fragment with a length of 2000-bp which was absent in the other 25 strains and the reference strain B. fragilis ATCC 25285. The 2000-bp fragment from four imipenem-resistant strains gave rise to positive reactions in a specific PCR for detection of ccrA. Printed by the T3B primer, five B. fragilis strains, including the imipenem-resistant strains showed unique PCR fingerprints. The investigated imipenem-resistant strains produced carbapenem-hydrolysing metallo-beta-lactamases. The study indicates that the unique PCR fingerprinting profiles shown in highly beta-lactam resistant B. fragilis strains are correlated to antimicrobial resistance. The PCR fingerprinting technique is a useful tool for differentiation of Bacteroides fragilis strains with high-level beta-lactam resistance.