Cloning of Developmentally Regulated Genes from Leishmania major and Expression following Heat Induction

Effect of ambient temperature on the clinical manifestations of experimental diffuse cutaneous leishmaniasis in a rodent model

Dermal species of Leishmania have a relatively broad temperature range for optimal growth in vitro, with temperature differences accompanied by a form change. This suggests that when the host is living in moderate temperatures (22°C), infection may proceed at temperatures lower than those that occur in tropical regions (32°C), and a different clinical expression of the disease due to a different parasitic form may result. The aim of this study was to investigate the effect of environmental temperature on the clinical expression of the disease. BALB/C mice infected with Leishmania mexicana were housed at 32°±2°C or 22°±1°C, and assessed for the development of inflammation and the presence of parasites in organs using PCR and immunohistology. The clinical expression of leishmaniasis at 32°C included inflammation at the site of inoculation with swelling of the nose and tail, whereas at 22°C, up to 50% of the infected mice developed dry exfoliative dermatitis with alopecia on the dorsum. In both cases, parasite colonization was confirmed in the skin, with parasites at more external locations at 22°C. Parasite visceralization was confirmed in all internal organs and glands in both cases based on PCR and immunohistology. In conclusion, the clinical expression of diffuse leishmaniasis by Leishmania mexicana in laboratory mice is modified by temperature, from nodular inflammation at 32°C, to dry exfoliative dermatitis and alopecia at 22°C, with parasite visceralization in both cases.

Scabies: New Future for a Neglected Disease

Scabies is a disease of global proportions in both human and animal populations, resulting from infestation of the skin with the "itch" mite Sarcoptes scabiei. Despite the availability of effective chemotherapy the intensely itching lesions engender significant morbidity primarily due to secondary sepsis and post-infective complications. Some patients experience an extreme form of the disease, crusted scabies, in which many hundreds of mites may infest the skin causin severe crusting and hyperkeratosis. Overcrowded living conditions and poverty have been identified as significant confounding factors in transmission of the mite in humans. Control is hindered by difficulties with diagnosis, the cost of treatment, evidence for emerging resistance and lack of effective vaccines. Historically research on scabies has been extremely limited because of the difficulty in obtaining sufficient quantities of the organism. Recent molecular approaches have enabled considerable advances in the study of population genetics and transmission dynamics of S. scabiei. However, the most exciting and promising development is the potential exploitation of newly available data from S. scabiei cDNA libraries and EST projects. Ultimately this knowledge may aid early identification of disease, novel forms of chemotherapy, vaccine development and new treatment possibilities for this important but neglected parasite.

Prostaglandin production from arachidonic acid and evidence for a 9,11-endoperoxide prostaglandin H2 reductase in Leishmania

Lysates of Leishmania promastigotes can metabolise arachidonic acid to prostaglandins. Prostaglandin production was heat sensitive and not inhibited by aspirin or indomethacin. We cloned and sequenced the cDNA of Leishmania major, Leishmania donovani, and Leishmania tropica prostaglandin F(2alpha) synthase, and overexpressed their respective 34-kDa recombinant proteins that catalyse the reduction of 9,11-endoperoxide PGH(2) to PGF(2alpha). Database search and sequence alignment showed that L. major prostaglandin F(2alpha) synthase exhibits 61, 99.3, and 99.3% identity with Trypanosoma brucei, L. donovani, and L. tropica prostaglandin F(2alpha) synthase, respectively. Using polymerase chain reaction amplification, Western blotting, and immunofluorescence, we have demonstrated that prostaglandin F(2alpha) synthase protein and gene are present in Old World and absent in New World Leishmania, and that this protein is localised to the promastigote cytosol.

Prostaglandin production from arachidonic acid and evidence for a 9,11-endoperoxide prostaglandin H2 reductase in Leishmania

Lysates of Leishmania promastigotes can metabolise arachidonic acid to prostaglandins. Prostaglandin production was heat sensitive and not inhibited by aspirin or indomethacin. We cloned and sequenced the cDNA of Leishmania major, Leishmania donovani, and Leishmania tropica prostaglandin F(2alpha) synthase, and overexpressed their respective 34-kDa recombinant proteins that catalyse the reduction of 9,11-endoperoxide PGH(2) to PGF(2alpha). Database search and sequence alignment alignment showed that L. major prostaglandin F(2alpha) synthase exhibits 61, 99.3, and 99.3% identity with Trypanosoma brucei, L. donovani, and L. tropica prostaglandin F(2alpha) synthase, respectively. Using polymerase chain reaction amplification, Western blotting, and immunofluorescence, we have demonstrated that prostaglandin F(2alpha) synthase protein and gene are present in Old World and absent in New World Leishmania, and that this protein is localised to the promastigote cytosol.

Molecular and immunological characterisation of the glucose regulated protein 78 of Leishmania donovani(1)

To identify novel potential Leishmania vaccine antigens, antibodies from patients with visceral leishmaniasis (VL) were used to isolate clones from a cDNA expression library of L. donovani amastigotes. Glucose Regulated Protein (GRP78), a member of the 70 kDa heat-shock protein family was identified and characterised. The GRP78 gene was localised to chromosome 15 in L. donovani, L. major, and L. mexicana by pulse-field gel electrophoresis. The Leishmania GRP78 protein contain a carboxy-terminal endoplasmic reticulum retention signal sequence (MDDL) as does the Trypanosoma cruzi GRP78. Immunofluorescence using antibodies to the recombinant DNA-derived GRP78 protein showed staining localised to reticular material throughout the cytoplasm and in the perinuclear region of promastigotes, suggesting that the protein is localised in the endoplasmic reticulum. The protective efficacy of GRP78 was assessed in mice vaccine experiments. A GRP78 DNA vaccine primed for an immune response that protected C57Bl/6 and C3H/He mice against infection with L. major. Similarly vaccination with a recombinant form of GRP78 purified from Escherichia coli and administered with Freund's as adjuvant induced protective immunity in C57Bl/6 mice.

Leishmania: overexpression and comparative structural analysis of the stage-regulated meta 1 gene

The meta 1 gene of Leishmania major is upregulated in metacyclic promastigotes and encodes an 11.5-kDa protein with no significant similarities to other proteins in the existing databases. In this paper, we characterize the homologous meta 1 genes in L. amazonensis and L. donovani. Proteins encoded by this gene in all three species present a high degree of identity. The meta 1 gene cannot be replaced by gene targeting in L. major, suggesting an essential role for the protein, at least in promastigotes. Overexpression of the meta 1 protein in L. amazonensis generates parasites that are more virulent than wild-type organisms in vivo.

Stage-specific gene expression in Angiostrongylus cantonensis: characterisation and expression of an adult-specific gene

We have previously used differential mRNA display to identify and clone a range of cDNAs derived from genes expressed in only one developmental stage of Angiostrongylus cantonensis. In this paper we report the characterisation of a gene designated Ac-fmp-1 and its product, expressed only in the adult stage. Full length cDNA of 1.5 kb terminates at the 5' end with the conserved nematode spliced leader (SL) sequence and contains one open reading frame coding for a putative protein of 417 amino-acids. The recombinant protein expressed from this open reading frame is antigenic in the infected host and polyclonal antibodies raised against the recombinant protein recognize a 66 kDa protein present only in adult female worms. This protein localises to the muscle cell membranes adjacent to the pseudocoelom. Nine kb of genomic DNA has been amplified by polymerase chain reaction and 7 kb has been cloned and sequenced. This sequence includes 1.5 kb of 5' flanking region and 5.5 kb of the Ac-fmp-1 gene sequence. In this sequence, corresponding to approximately 0.8 kb of the cDNA, the exon/intron pattern has been determined.

Identification and overexpression of the A2 amastigote-specific protein in Leishmania donovani

Leishmania protozoa must adapt rapidly to widely different environments and thus exist as promastigotes in their sandfly host and as amastigotes in their mammalian host. Promastigote differentiation into amastigotes is accompanied by both morphological and biological changes. The molecular mechanisms regulating the differentiation and survival of the different life cycle stages are poorly understood. We have therefore undertaken to identify and characterize amastigote-specific genes and their corresponding products based on the rationale that such products may be involved in the survival in the mammalian host. Previous studies in our laboratory have revealed that the A2 gene family-derived transcripts are abundant in L. donovani amastigotes but are barely detectable in promastigotes. In the present study, we have raised polyclonal and monoclonal antibodies against a recombinant A2 protein synthesized in Escherichia coli. These antibodies have been used to identify a family of A2 proteins ranging from 45 kDa to about 100 kDa which are specifically detected in L. donovani cells when they are cultured in 37 degrees C, and pH 4.5 (conditions which mimic the macrophage phagolysosome) but not in promastigotes cultured at 26 degrees C and pH 7.4. A2 protein therefore represents a unique amastigote-specific protein marker for L. donovani. It is also demonstrated that it was possible to overexpress the A2 protein specifically in amastigote-like cells using a plasmid construct containing the A2 coding and non-coding sequences. These advances set the foundation for defining the biological function of the A2 protein and other genes when specifically expressed in amastigotes.

Cloning from Leishmania major of a developmentally regulated gene, c-lpk2, for the catalytic subunit of the cAMP-dependent protein kinase

Protein kinases are important in the regulation of cellular processes including growth and differentiation. Using the polymerase chain reaction with oligonucleotide primers derived from conserved regions of cAMP-dependent protein kinases (PKAs), three different DNA fragments were amplified from leishmanial genomic DNA. One fragment was used to isolate a stage specific gene, c-lpk2, from a Leishmania major genomic library. This gene shows high homology to other eukaryotic PKAs, and the open reading frame encodes a 332 amino acid protein with a predicted molecular mass of 38.2 kDa. When aligned with other PKAs the leishmanial enzyme has a unique eight amino acid extension at the carboxy terminus. The c-lpk2 gene is present as a single copy in L. major, L. donovani and L. amazonensis. The 5'-flanking region contains a polypyrimidine rich tract upstream from the predicted ATG start codon. The gene is highly expressed in promastigotes and barely detectable in amastigotes of L. major. Temperature increase was shown to rapidly down-regulate c-lpk2 expression. Transfer of L. amazonensis promastigotes to 35 degrees C resulted in the rapid disappearance of c-lpk2 mRNA (> 70% in 1 h), while at 26 degrees C the mRNA was more stable. The strict temperature dependence of mRNA degradation rate suggests that PKA expression is regulated post-transcriptionally.

Characterisation and expression of a stage-regulated gene of Leishmania major

This paper describes the isolation and characterisation of the meta 1 gene from Leishmania major, that is expressed predominantly in infective metacyclic parasites. The termini of the major 2-kb transcript derived from this gene have been mapped and polypyrimidine sequences implicated in RNA processing located in the flanking regions. The meta 1 gene is conserved in both Old and New World Leishmania species and codes for a putative protein of 112 amino acids. Antibodies raised against a recombinant protein expressed from this open reading frame recognise an 11.5-kDa protein in metacyclic cell lysates and this molecule localises to the region of the flagellar pocket by indirect immunofluorescence.

Identification of differentially expressed Leishmania donovani genes using arbitrarily primed polymerase chain reactions

Arbitrarily primed polymerase chain reactions (AP-PCR) were used to amplify polymorphic DNA fragments from the genomes of a variety of geographic isolates of Leishmania donovani (Ld). From the latter, five polymorphic DNA fragments were cloned and sequence analysis identified 15 unique clones. Northern blot analysis showed that 13 of the 15 clones hybridized to transcribed RNAs isolated from Ld. Eight of these 13 AP-PCR clones specifically hybridized to Ld RNAs that were differentially expressed in promastigote and 'amastigote' cells. Comparative Northern analysis of four differentially expressed AP-PCR clones indicated that two clones, LdS-14-14 and LdI-9-7, were expressed in Ld and several other Leishmania species. However, RNAs corresponding to two other AP-PCR clones, LdE-6-1 and LdI-9-5, were detected only in members of the Ld complex, and not in L. major (Lm) or L. tropica (Lt). Comparative Southern blot analysis of the LdS-14-14 locus revealed numerous restriction-fragment length polymorphisms (RFLP) distinguishing Lm and Lt from the Ld isolates and L. infantum. However, the LdS-14-14 loci were mapped to similar-sized chromosomes observed among all Old World Leishmania species tested, indicating that localized nucleotide divergence, not chromosomal rearrangement, was responsible for altered Southern blot patterns. These results demonstrate that AP-PCR is a very useful method for identifying expressed gene sequences in organisms of relatively low-complexity genomes. Interestingly, the majority of these sequences identified in this study correspond to differentially expressed genes.(ABSTRACT TRUNCATED AT 250 WORDS)

Influence of heat shock, drugs, and radiation on karyotype of Leishmania major

Leishmaniasis is one of the important tropical diseases in the world. Although it is not prevalent in Korea, imported cases have been recorded. The karyotype of Leishmania sp. has been observed to be variable by localities or by strains, but the karyotype of a strain is known to be stable. This study was performed to observe if the karyotype of a Leishmania sp. would be changed under some stressful conditions. The karyotype, analyzed by pulsed field gradient gel electrophoresis, was not grossly changed by heat shock, chemotherapeutics, UV illumination, and gamma irradiation. Radiation destroyed the chromosomes mechanically, but subcultured organisms after irradiation showed unaffected karyotype. The present findings suggest that the karyotype of a Leishmania strain is so stable that it is not altered by temporary stimulation with heat, drugs, and radiation.

Cloning and characterization of differentially expressed genes from in vitro-grown 'amastigotes' of Leishmania donovani

Leishmanial parasites routinely undergo cyclic differentiation from promastigotes to amastigotes during their life cycle. This process involves both morphological and macromolecular changes. To study such changes, we used a axenic culture system which permits the continuous generation and cycling of Leishmania donovani from promastigotes to 'amastigotes' in vitro. cDNA libraries were constructed from poly(A)+ RNA isolated from both the pro- and amastigote forms. Using differential cDNA hybridization techniques, 3 unique cDNAs clones (P17, A41 and A45) were isolated from the amastigote library. To assess whether these clones were differentially expressed by the pro-or 'amastigotes' forms, they were hybridized to RNA isolated from each of these parasite forms in Northern and slot-blots. Results of these analyses showed that 'amastigotes' had approx. 2-fold higher levels of the A41 and A45 RNAs compared to the promastigotes. Conversely, promastigotes showed approx. 2-fold higher levels of the P17 RNA than 'amastigotes'. Nucleotide sequence analysis and comparison with those in Gene bank, revealed that the 3 cDNAs represent unique leishmanial genes. Comparison of the deduced amino acid sequences revealed that P17 open reading frame (ORF) had significant similarity with a soybean ribosomal protein S11; A41 ORF with a Bacillus subtilis spore germination gene (gerC) and A45 ORF with yeast stress-inducible protein (STI1). It is of interest to note that, of the 3 cDNAs identified, the A45-encoded protein was recognized by sera from patients with clinically active visceral leishmaniasis and was encoded by a single copy gene.

Developmental life cycle of Leishmania--cultivation and characterization of cultured extracellular amastigotes

The biochemistry and immunology of Leishmania promastigotes has been extensively studied; this is due primarily to the facility with which this stage, in contrast to the amastigotes stage, can be maintained in axenic culture. Several attempts to axenically culture lines of Leishmania amastigotes have been reported in the literature. This paper summarizes methods of adaptation (low pH, elevated temperature and culture medium) and characterization of several axenic lines of Leishmania amastigotes. Based on morphological, biological, immunological and biochemical evidence, these organisms appear to resemble amastigotes from infected macrophages or tissue. The axenically cultured amastigotes appear to be distinct from shocked (heat, serum deprivation, stressed) Leishmania promastigotes in the plethora of proteins synthesized, growth (multiplication) in culture, and developmental regulation observed. These data suggest that Leishmania organisms have a significant developmental response to certain signals (pH, temperature) mimicking their in vivo macrophage milieu. The response to other environmental parameters characteristic of the host-macrophage remain to be determined. These axenically cultured amastigotes should be of interest for further immunological, biochemical and developmental investigations of the disease-maintaining stage of this parasite.

Leishmania major: differential regulation of the surface metalloprotease in amastigote and promastigote stages

During its life cycle, the protozoan parasite Leishmania major alternates from an intracellular amastigote form in the mammalian host to a flagellated promastigote form in the insect vector. The expression of the surface metalloprotease (PSP) during differentiation in vitro was investigated by Western and Northern blots, by immunoprecipitation of cells metabolically labeled with [35S]methionine or labeled at the surface with radioactive iodine, and by quantification of the proteolytic activity in substrate-containing polyacrylamide gels. We report that the surface metalloprotease is down-regulated at both the mRNA and the protein level in amastigotes, where it represents less than 1% of the equivalent proteolytic activity detected in promastigotes. A significant amount of mRNA is detected 4 hr after the onset of differentiation. The expression of the protease begins at that time and reaches steady state 8 hr later. The synthesis of PSP precedes the complete morphological differentiation to the promastigote stage and the appearance of the lipophosphoglycan, another major promastigote surface component. In contrast to PSP, a family of mercaptoethanol-activated proteases present in the amastigote exists only at a reduced level in the promastigote. The confinement of the surface metalloprotease to the insect stage of the parasite suggests that it has no physiological function in the parasitism maintenance of mammalian host macrophages.

Stage-specific expression of a developmentally regulated gene in Dirofilaria immitis

A previously reported cDNA clone encoding 34 kDa antigenic polypeptide of Dirofilaria immitis (lambda cD34) was studied to elucidate the mechanism of stage-specific gene expression. The 34 kDa polypeptide was a larva-specific antigen and the mRNA was detectable in microfilariae but not in adult worms and eggs. The lambda cD34 gene was not sex linked and was contained in the genome of D. immitis at each stage. The stage-specific expression of the developmentally regulated gene in D. immitis may be controlled primarily at the mRNA level.

Molecular karyotype analysis in Leishmania

The advent of pulsed field electrophoresis has allowed a direct approach to the karyotype of Leishmania. The molecular karyotype thus obtained is a stable characteristic of a given strain, although minor modifications may occur during in vitro maintenance. Between 20 and 28 chromosomal bands can be resolved depending on the strain, ranging in size from approximately 250 to 2600 kb. The technique has revealed a striking degree of polymorphism in the size and number of the chromosomal bands between different strains, and this seems independent of the category (species, zymodeme, population) to which the strains belong. It appears that only certain strains originating from the same geographic area may share extensive similarities. This polymorphism can largely be accounted for by chromosome size variations, which can involve up to 25% of the chromosome length. As a result, homologous chromosomes can exist in versions of markedly different size within the same strain. When this occurs with several different chromosomes, the interpretation of PFE patterns appears difficult without prior identification of the size-variable chromosomes and of the chromosome homologies. DNA deletions and amplifications have been shown to account for some of these size modifications, but other mechanisms are probably involved; nevertheless, interchromosomal exchange does not seem to play a major role in these polymorphisms. These chromosomal rearrangements, yet in an early stage of characterization, exhibit two relevant features: they seem (1) to affect essentially the subtelomeric regions and (2) to occur in a recurrent nonrandom manner. Chromosomal rearrangements sharing the same characteristics have been identified in yeast and other protozoa such as Trypanosoma and Plasmodium. The significance of this hypervariability for the biology of the parasite remains unknown, but it can be expected that such mechanisms have been maintained for some purpose; genes specifically located near chromosome ends might benefit from rapid sequence change, alternating activation, or polymorphism of expression. The chromosomal plasticity could represent a general mode of mutation in these parasites, in parallel with genetic exchange which may be uncommon in nature. The molecular characterization of these rearrangements, the identification of each chromosome with the help of physical restriction maps and linkage maps, and the collation of such data on a number of strains and species should allow a significant progress in the understanding of the genetics of Leishmania, in particular as regards ploidy, generation of phenotypic diversity, and genome evolution. Finally, like other models, this is susceptible to improve our knowledge of DNA-DNA interactions and of the chromosome functional structure and dynamics.

Biochemical and molecular characterization of Leishmania pifanoi amastigotes in continuous axenic culture

Inability to culture the disease-producing amastigote form of Leishmania has greatly hampered its study. We have biochemically characterized an axenically cultured amastigote-like form of Leishmania pifanoi. This form closely resembles amastigotes in proteinase, ribonuclease, adenine deaminase and peroxidase activity. It also exhibits comparable rates of growth, transformation, synthesis of DNA, RNA and protein, and metabolism of glucose and linoleic acid. It is distinct from promastigotes in these characteristics. The expression of the genes for beta-tubulin and the P100/11E reductase is developmentally regulated in this axenic form as in amastigotes. These results, combined with previous demonstrations of amastigote morphology and antigenicity in the culture form, confirm that Leishmania amastigotes have been successfully propagated in axenic media. This strain should serve as an excellent model for the study of amastigote biochemistry, pharmacology and immunology, and the molecular genetics of the transformation between amastigote and promastigote forms.

Leishmania major: expression and gene structure of the glycoprotein 63 molecule in virulent and avirulent clones and strains

Two Leishmania membrane glycoconjugates, gp63 and lipophosphoglycan, have been implicated in parasite attachment and uptake into the host macrophage. Moreover, recent data suggest that parasite virulence is associated with high expression of gp63. In this study we have surveyed gp63 gene copy number, in addition to the level of expression of gp63 mRNA and protein in several Leishmania major isolates, as well as virulent and avirulent strains and clones. The highest level of gp63 expression was found in the avirulent cloned line LRC-L119.3G7, which expresses about a 15-fold higher level of gp63 RNA and protein than the virulent cloned line LRC-L137/7/V121, suggesting that large amounts of gp63 are not sufficient for infectivity and do not correlate with virulence. L119.3G7 has eight copies of the gp63 gene compared to five copies in the virulent cloned line V121 and its parental virulent isolate LRC-L137. A series of avirulent clones derived from LRC-L137 also had five copies of the gene, suggesting that gp63 copy number is maintained among closely related parasites. Different virulent isolates of L. major from different geographic regions exhibited six copies of the gp63 gene. The variation in total gene copy number is due to different numbers of the tandemly repeated gp63 isogene in different strains. Our data show that there is wide variability between strains of L. major in the copy number of gp63 genes as well as in the amount of RNA and protein expressed.