Upregulation of surface proteins in Leishmania donovani isolated from patients of post kala-azar dermal leishmaniasis

Five to fifteen percent of visceral leishmaniasis (VL) patients in India develop post kala-azar dermal leishmaniasis (PKDL), usually 1-2 years after apparent clinical cure. There is evidence pointing to a role played by the host immune responses in the disease pathogenesis, however, the contribution of changes in parasite gene expression has not been explored. Highly sensitive gene expression microarray technology was employed to identify genes that are differentially expressed in Leishmania parasites isolated from PKDL patients in comparison with those from VL. Hybridization on Leishmania donovani genomic microarray comprised of unique clones allowed us to identify 46/2268 (2%) clones that showed statistically significant (P<0.05) changes in expression (1.5-3.5-fold) in parasites of PKDL origin compared to those of VL origin. Sequence analysis of six genomic clones, consistently showing approximately 2-fold higher expression in PKDL parasites, revealed significant homology with gp63, gp46, putative amastin, a putative reductase and a possible calpain-like protein. The gene products showing upregulated expression in PKDL isolates may be candidates playing a role in the altered clinical manifestation in PKDL. Such differentially expressed genes hold the key to understanding the parasite genetic factors that contribute to the persistence after clinical cure of VL.     

Genetic diversity of Babesia bovis in virulent and attenuated strains

The aim of this study was to compare the genetic diversity of the single copy Bv80 gene sequences of Babesia bovis in populations of attenuated and virulent parasites. PCR/ RT-PCR followed by cloning and sequence analyses of 4 attenuated and 4 virulent strains were performed. Multiple fragments in the range of 420 to 744 bp were amplified by PCR or RT-PCR. Cloning of the PCR fragments and sequence analyses revealed the presence of mixed subpopulations in either virulent or attenuated parasites with a total of 19 variants with 12 different sequences that differed in number and type of tandem repeats. High levels of intra- and inter-strain diversity of the Bv80 gene, with the presence of mixed populations of parasites were found in both the virulent field isolates and the attenuated vaccine strains. In addition, during the attenuation process, sequence analyses showed changes in the pattern of the parasite subpopulations. Despite high polymorphism found by sequence analyses, the patterns observed and the number of repeats, order, or motifs found could not discriminate between virulent field isolates and attenuated vaccine strains of the parasite.     

Genetic and plasmid diversity within natural populations of Pseudomonas syringae with various exposures to copper and streptomycin bactericides.

We examined the genetic and plasmid diversity within natural populations of Pseudomonas syringae isolated from three ornamental pear nurseries in eastern Oklahoma. The bactericide spray regimen differed at each nursery; copper and streptomycin, only copper, and no bactericides were applied at nurseries I, II, and III respectively. Resistance to copper (Cur) and resistance to streptomycin (Smr) were determined for 1,938 isolates of P. syringae; isolates from nurseries I and II were generally Cur Sms; whereas most isolates from nursery III were Cus Sms. The plasmid profiles of 362 isolates were determined, and six, one, seven, and four plasmid profiles were obtained for Cur, Smr, Cur Smr, and Cus Sms isolates, respectively. All Smr plasmids contained sequences homologous to the strA and strB Smr genes from broad-host-range plasmid RSF1010 and were associated with Smr transposon Tn5393. Plasmids were placed into two groups on the basis of hybridization to the oriV and par sequences from pOSU900, a cryptic plasmid in P. syringae pv. syringae. A total of 100 randomly chosen P. syringae isolates from nurseries I and III were analyzed for genetic diversity by using the arbitrarily primed PCR (AP-PCR) technique. An analysis of chromosomal genotypes by AP-PCR revealed a high degree of genetic diversity among the isolates, and the results of this analysis indicated that the isolates could be clustered into two distinct groups. The plasmid profiles were specific to isolates belonging to particular AP-PCR groups. Within each AP-PCR group, identical plasmid profiles were produced by isolates that had different chromosomal genotypes, implying that plasmid transfer has played an important role in the dissemination of Cur and Smr within the populations studied.     

Restriction analysis of conserved and variable regions of VP2 gene of Indian isolates of bluetongue virus serotype 1

Bluetongue virus (BTV) is a member of Orbivirus genus in family Reoviridae. The virus genome is composed of 10 double-stranded RNA segments. The RNA segment L2 encodes an outer capsid viral protein VP2, which is the main determinant of neutralization and serotype-specific immune response. BTV serotype 1 (BTV-1) specific novel primer pair was designed using VP2 gene sequences available in GenBank to amplify 1240-1844 bp region because two hypervariable and three conserved regions have been reported within these 604 nucleotides. This primer pair successfully amplified cell culture adapted six Indian isolates of BTV-1 from different geographical regions of the country. The 604 bp PCR product of VP2 gene of all six BTV-1 yielded two fragments of 273 and 331 bp when digested with Taq1 restriction enzyme. This indicated that there is only one TaqI site at 1513 bp (within 1240-1844 bp region) of VP2 gene of BTV-1 Indian isolates. The in silico restriction analysis revealed that in BTV-1 South African isolate (BTV-1SA) there is no TaqI site while in BTV-1 Australian isolates (BTV-1AUS), there are two TaqI sites (at 1513 and 1567 bp) within 1240-1844 bp region of VP2 gene. The earlier reported VP2 gene based primer pair for BTV-1 was used in the present study to amplify 2242-2933 bp region of six BTV-1 Indian isolates as three conserved regions have been reported within these 691 nucleotides. The digestion of 691 bp PCR products with XmnI yielded three fragments of 364, 173 and 154 bp with all the six Indian isolates of BTV-1 suggesting that there are two XmnI sites within 2242-2933 bp region of VP2 gene. A single XmnI site was observed in silico in BTV-1AUS and BTV-1SA isolates at different positions within this region. The in vitro and in silico restriction profile analyses of partial VP2 gene sequences using TaqI and XmnI restriction enzymes indicated a close relationship of Indian isolates of BTV-1 with BTV-1AUS isolates but not with BTV-1SA isolate.     

Diverse viscerotropic isolates of Leishmania all express a highly conserved secretory nuclease during human infections

Previously, we characterized a gene encoding the unique nuclease (LdNuc(s)) from a Sudanese isolate of the human pathogen Leishmania donovani. This parasite secretory enzyme is involved in the salvage of host-derived purines and is constitutively expressed by both developmental forms of the parasite. Currently, we assessed whether an LdNuc(s)-like nuclease was conserved among other geographically disparate isolates of L. donovani and whether this enzyme was produced by intracellular amastigotes during human infections. Using RT-PCR and Southern blotting, we showed that LdNuc(s) gene homologs were present in each of the viscerotropic Leishmania tested (i.e., L. donovani isolates from the Sudan, Ethiopia and India as well as L. infantum). Further results of in situ enzyme activity gel analyses showed that each of these parasite isolates also expressed a released/secreted LdNuc(s)-like nuclease activity. In Western blots, our anti-LdNuc(s) (Sudan) peptide-specific antibody reacted with only a single ~35 kDa protein in each of the viscerotropic Leishmania isolates. Further, the ~35 kDa nuclease secreted by each of these isolates was specifically immunoprecipitated by the anti-LdNuc(s) antibody above. In situ gel analyses showed that each of these immunoprecipitates had LdNuc(s)-like nuclease activity. Moreover, sera from acute visceral leishmaniasis patients from India, Sudan and Brazil all immunoprecipitated an LdNuc(s)-HA expressed nuclease demonstrating, that these patients possessed antibodies against this parasite secretory enzyme. Cumulatively, these results showed that the LdNuc(s) homologs were functionally conserved among geographically disparate visceral Leishmania spp. and that amastigotes of these parasites must produce this nuclease enzyme during the course of human disease.     

A proteomics screen implicates HSP83 and a small kinetoplastid calpain-related protein in drug resistance in Leishmania donovani clinical field isolates by modulating drug-induced programmed cell death

The therapeutic mainstay against the protozoan parasite Leishmania is still based on the antiquated pentavalent antimonials (Sb(V)), but resistance is increasing in several parts of the world. Resistance is now partly understood in laboratory isolates, but our understanding of resistance in field isolates is lagging behind. We describe here a comparative analysis of a genetically related pair of Sb(V)-sensitive and -resistant Leishmania donovani strains isolated from kala-azar patients. The resistant isolate exhibited cross-resistance to other unrelated Leishmania drugs including miltefosine and amphotericin B. A comparative proteomics screen has highlighted a number of proteins differentially expressed suggesting that programmed cell death (PCD) is modified in the resistant parasite. Indeed drug-induced PCD progression was altered in the Sb(V)-resistant strain as determined using early and late markers of apoptosis. Two proteins, the heat shock protein HSP83 and the small kinetoplastid calpain-related protein (SKCRP14.1) were shown to be intimately implicated in the drug-induced PCD phenotype. HSP83 increased drug resistance and reduced drug-mediated PCD activation by interfering with the mitochondrial membrane potential, whereas SKCRP14.1 promoted antimonial-induced PCD but protected against miltefosine-induced PCD. This study highlights the important role of PCD in drug susceptibility/resistance in the protozoan parasite Leishmania.     

Application of polymerase chain reaction with specific and arbitrary primers to identification and differentiation of Leishmania parasites

Abstract Two oligonucleotide primers Lsmc1 and Lsmv1 derived from the conserved and the variable region of a major class kinetoplast DNA (kDNA) minicircle (pLURkE3) of Leishmania strain UR6 were used for the polymerase chain reaction (PCR) in order to amplify a 461-bp fragment from the kDNAs of different Leishmania species. These primers amplify the specific fragment from the kDNAs of cutaneous species only. The cutaneous species can further be distinguished by randomly amplified polymorphic DNA (RAPD) analysis of the kDNAs of these organisms using arbitrarily chosen oligonucleotides. The arbitrary primers also generate polymorphic DNA fingerprints at the genomic level with different L. donovani isolates. The results indicate that the PCR and arbitrarily primed PCR (AP-PCR) may be extremely useful approaches for identifying and distinguishing Leishmania parasites.     

Malaria and Leishmania parasites share the knob-associated histidine-rich protein gene sequences

1. The main coding region of the knob-associated histidine-rich protein (KAHRP) gene of Plasmodium falciparum hydridized with genomic DNA of Leishmania donovani. 2. A total of five EcoRI fragments of various sizes (7.5, 5.5, 3.2, 0.75 and 0.56 Kb) were recognized by this probe, under lower stringent conditions. However, under a higher stringency of washing, two of the smallest fragments were washed away. 3. Out of these EcoRI fragments, the 5.5 Kb band showed a maximum homology with the probe which contains the histidine-rich coding sequences, whereas the 3.2 Kb band showed none. Thus there is a possibility that the Leishmania parasite also contains a KAHRP-like gene.     

Identification of differentially methylated sites within unmethylated DNA domains in normal and cancer cells

Altered DNA methylation has been linked to neoplastic cell transformation and is a hallmark of cancer progression. Therefore, the screening for differentially methylated sequences as tumor biomarkers has a significant implication in the clinical setting. To determine the cancer-linked alterations in DNA methylation pattern, we have applied an endonuclease, McrBC, to the existing methylation-sensitive arbitrarily primed polymerase chain reaction (msAP-PCR) method and developed McrBC-msAP-PCR. This modified approach allows detection of differentially methylated sites within unmethylated DNA domains enriched by regulatory sequences and CpG islands. In this method, we used digestion of DNA with the McrBC methylation-sensitive endonuclease to selectively exclude the methylated fraction of DNA, which comprises interspersed and tandem-repeated sequences and exons other than first exons, from analysis. The subsequent digestion of unmethylated DNA fragments with SmaI and HpaII methylation-sensitive restriction endonucleases followed by AP-PCR amplification resulted in the detection of unknown unique sequences associated with cancer-linked methylation changes in genomic DNA. Hypermethylation and hypomethylation are visualized by the increase or decrease in the band intensity of DNA fingerprints. By using this technique, we were able to differentiate clearly, identify, and characterize a number of novel unique DNA sequences with differentially methylated sites in normal and breast cancer cell lines and in normal and rat tumor liver tissues.     

Expression and subcellular localization of cpn60 protein family members in Leishmania donovani

We have identified two diverged members of the cpn60 gene family in Leishmania donovani, causative agent of Indian Kala Azar. One of the genes, cpn60.1, although actively transcribed, is not expressed to detectable levels of protein in cultured L. donovani. The other gene, cpn60.2, which, compared with cpn60.1, shows a higher sequence conservation with the hsp60 genes from Trypanosoma brucei and Trypanosoma cruzi is expressed constitutively in cultured promastigotes. The abundance of the gene product, Cpn60.2, increases by 2.5-fold under heat stress and in axenic amastigotes of L. donovani. Cpn60.2 is also found enriched in mitochondrial cell fractions and localizes to the mitochondrial matrix. We conclude that Cpn60.2 is the major mitochondrial chaperonin in Leishmania.     

A proteomic approach to identify developmentally regulated proteins in Leishmania infantum

We used comparative two-dimensional gel electrophoresis (2-DE) and mass spectrometry methodologies to highlight and identify proteins that are differentially expressed in the intracellular stage of the parasite Leishmania donovani infantum, a causative agent of visceral leishmaniasis. During its digenetic life cycle, Leishmania alternates between the alimentary tract of the sandfly vector as an extracellular promastigote and the acidic phagolysosomes of macrophage cells as an intracellular amastigote. Proteins differentially expressed in the intracellular form of the parasite are thought to be important for intracellular survival and pathogenesis. We used narrow pH range strips for isoelectric focusing to resolve soluble proteins of both developmental stages of L. infantum. More than 62 proteins differentially expressed in amastigotes were detected among approximately 2000 protein spots resolved by 2-DE. A quadrupole time-of-flight analysis of few selected protein spots, specifically expressed in the amastigote stage, permitted the identification of two proteins, part of the energetic metabolism pathways, the isocitrate dehydrogenase and the glycolytic enzyme triosephosphate isomerase. The kinetic parameters of these two enzymes were measured in both developmental stages of the parasite and their activity was indeed found to be higher in amastigotes. These findings bring a new insight in our understanding of metabolic and energy requirements of the intracellular form of Leishmania. Comparative analysis of the proteome of both developmental stages of the protozoan parasite Leishmania should permit the identification of protein candidates for the development of vaccines and new drugs.     

Identification of virulence factors in vibrio vulnificus by comparative transcriptomic analyses between clinical and environmental isolates using cDNA microarray

We compared the gene expression among four clinical and five environmental V. vulnificus isolates, using a cDNA microarray containing 131 genes possibly associated with pathogenicity, transport, signal transduction, and gene regulations in the pathogen. cDNAs from total RNAs of these isolates were hybridized into the cDNA microarray using the cDNA of the wild-type strain MO6/24-O as a reference. We focused on selecting differentially expressed (DE) genes between clinical and environmental isolates using a modified t-statistic. We could detect two statistically significant DE genes between virulent isolates and less-virulent isolates with a marginal statistical significance (pvalue of 0.008). These were genes putatively encoding pilin and adenlyate cylase. Real time-PCR confirmed that these two selected genes transcribed in significantly higher levels in virulent isolates than in less-virulent isolates. Mutants with lesions in the gene encoding pilin showed significantly higher LD50 values than that of wild type.     

Conserved sequences flank variable tandem repeats in two S-antigen genes of Plasmodium falciparum

We describe the isolation of two chromosomal DNA fragments from Plasmodium falciparum. These fragments encode the antigenically distinct S antigens of two different P. falciparum isolates, namely FC27 from Papua New Guinea and NF7 from Ghana. The complete nucleotide sequences of both fragments are presented. The fragments are homologous over most of their lengths, including the entire regions flanking the protein coding sequences. Whereas the N- and C-terminal portions of sequences encoding the S antigens are homologous, major portions of the coding sequences are not. The nonhomologous regions are comprised of tandemly repeated sequences, of 33 bp in FC27 and predominantly of 24 bp in NF7. The 33 bp tandem repeats encoded by the FC27 S-antigen gene could not be detected in the NF7 genome. Conversely, the 24 bp tandem repeats encoded by the NF7 S-antigen gene could not be detected in the FC27 genome. The pattern of sequence variation within the repeats of both genes suggests a mechanism for the generation of S-antigen diversity.