Monoclonal antibodies specific for the amastigote stage of Leishmania pifanoi. I. Characterization of antigens associated with stage- and species-specific determinants

Eight mAb were produced against membrane-enriched preparations of Leishmania pifanoi amastigotes either grown in axenic culture (P-1 through P-6) or isolated from macrophage cell culture (P-7 and P-8). Two mAb produced against promastigote membranes (P-9 and P-10) were found to be specific against this stage. Antibodies P-1 through P-8 on analysis by radioimmune binding only reacted with determinants present on amastigotes. mAb P-2, P-4, and P-8 also reacted with Leishmania amazonensis amastigotes but not promastigotes. No cross-reactions were found on any other species of Leishmania or with membranes of Trypanosoma cruzi epimastigotes or amastigotes. An indirect immunofluorescence assay using mAb P-1 through P-8 confirmed the stage specificity and binding to L. pifanoi axenically grown amastigotes, amastigotes within infected hamster tissue, and amastigotes within J774.1 macrophages. When Western blot analysis of amastigote membranes was conducted, one distinct group of molecules associated with L. pifanoi-specific determinants was identified. mAb P-1, P-3, P-5, P-7, and P-8 bound to molecules Mr 43 and 34 kDa. Promastigote-specific mAb P-9 recognized a diffuse pattern from 88 to greater than 200 kDa, and mAb P-10 localized a second class of proteins with Mr53 kDa. On immunoprecipitation of solubilized [35S]methionine-labeled amastigotes, mAb P-2 recognized a doublet of Mr 35 and 33 kDa and another doublet at Mr 17.5 and 13.5 kDa. mAb P-4 and P-7 each precipitated a band at Mr 34 kDa. These studies indicate that antigenically the axenically cultured amastigote is closely related to macrophage-derived amastigote. These mAb and/or purified protein Ag may be useful in studying stage differentiation, monitoring transformation, and for further taxonomic, epidemiologic, and immunologic studies of New World leishmaniasis.     

Genome sequencing of the lizard parasite Leishmania tarentolae reveals loss of genes associated to the intracellular stage of human pathogenic species

The Leishmania tarentolae Parrot-TarII strain genome sequence was resolved to an average 16-fold mean coverage by next-generation DNA sequencing technologies. This is the first non-pathogenic to humans kinetoplastid protozoan genome to be described thus providing an opportunity for comparison with the completed genomes of pathogenic Leishmania species. A high synteny was observed between all sequenced Leishmania species. A limited number of chromosomal regions diverged between L. tarentolae and L. infantum, while remaining syntenic to L. major. Globally, >90% of the L. tarentolae gene content was shared with the other Leishmania species. We identified 95 predicted coding sequences unique to L. tarentolae and 250 genes that were absent from L. tarentolae. Interestingly, many of the latter genes were expressed in the intracellular amastigote stage of pathogenic species. In addition, genes coding for products involved in antioxidant defence or participating in vesicular-mediated protein transport were underrepresented in L. tarentolae. In contrast to other Leishmania genomes, two gene families were expanded in L. tarentolae, namely the zinc metallo-peptidase surface glycoprotein GP63 and the promastigote surface antigen PSA31C. Overall, L. tarentolae's gene content appears better adapted to the promastigote insect stage rather than the amastigote mammalian stage.     

The developmentally regulated P100/11E gene of Leishmania major shows homology to a superfamily of reductase genes

The life cycle transformation of the protozoan parasite Leishmania from promastigote to amastigote is accompanied by changes in the level of expression of a number of proteins whose function may be necessary for parasite survival in the sandfly vector or mammalian host. To genetically characterize these proteins, we have cloned and characterized cDNA sequences that vary in abundance during the life cycle of Leishmania major. One sequence (P100/11E) encodes a poly(A+) RNA whose abundance is markedly elevated in promastigotes of L. major. The DNA sequence of the P100/11E cDNA predicts an acidic polypeptide of Mr = 32,000 which shows 40-46% similarity to the superfamily of reductase proteins including 2,5-diketo-D-gluconic acid reductase, aldose reductase, aldehyde reductase, and rho-crystallin. The P100/11E sequence of L. major contains the IPKS motif located at the active site of both aldose and aldehyde reductases. The P100/11H sequence was expressed in Escherichia coli, and the purified polypeptide was used to raise rabbit antisera which detect a protein of Mr = 35,000 in promastigotes of L. major. These results provide direct genetic evidence that L. major expresses a sequence homologous to the reductase superfamily as a developmentally regulated gene product in promastigotes.     

灵杆菌非特异性核酸酶的原核表达、纯化及活性分析

以灵杆菌基因组DNA为模板,PCR扩增非特异性核酸酶 (Non-specific nuclease,NU) 基因,并克隆到pMAL-c4X载体上构建重组表达载体pMAL-c4X-NU。经测序及 BLASTN发现其与灵杆菌Serratia marcescens核酸酶基因的同源性为97％。将构建的表达载体pMAL-c4X-NU转入大肠杆菌BL21,经IPTG诱导实现了胞内表达78 kDa的麦芽糖结合蛋白-NU融合蛋白 (Maltose-binding protein-NU,MBP-NU),其最佳诱导表达条件为37 ℃,0.75 mmol/L IPTG诱导1.5 h。用Amylose resin纯化得到了目的蛋白。活性检测表明MBP-NU具有同时降解DNA和RNA的活性,在37 ℃、pH 8.0时活性最高,比活力为1.11×106 U/mg,目标蛋白的纯化效率可达10.875 mg/L。纯化的目标蛋白中无蛋白酶活性存在。0.5 mmol/L乙二胺四乙酸 (Ethylene diamine tetraacetic acid,EDTA)、1 mmol/L苯甲基磺酰氟 (Phenylmethanesulfonyl fluoride,PMSF) 以及150 mmol/L KCl对MBP-NU的活性几乎无影响,因此MBP-NU可作为蛋白质纯化过程中核酸的高效降解酶。     

Molecular Cloning and Characterization of a Leishmania donovaniα-Tubulin Gene

ABSTRACT. We have isolated a cDNA for an α-tubulin mRNA from L. donovani promastigotes and determined its complete nucleotide sequence. Both nucleotide and deduced amino acid sequence analysis of this cDNA showed significant similarity with a previously reported, partial sequence of an L. enriettii α-tubulin and the complete sequence of human α-tubulin. Further, the in vitro translated L. donovania α-tubulin gene product was specifically immunoprecipitated with a monoclonal antibody against human α-tubulin. Northern blot analysis revealed that there was little change in the expression of the L. donovani α-tubulin RNA during parasite differentiation from promastigote to the in vitro grown "amastigote" form. Southern blot analysis revealed a simple genomic organization for the L. donovani α-tubulin gene with more than one copy of the α-tubulin gene in the parasite genome. To our knowledge, this is the first complete sequence of an α-tubulin for Leishmania to be reported in the literature.     

Subspecies- and species-specific antigens of Leishmania mexicana characterized by monoclonal antibodies

Monoclonal antibodies have been produced that are specific for the reference stocks of Leishmania mexicana species and subspecies L. mexicana mexicana(L11, M379), L. mexicana amazonensis (WR303, H6, LV72), and L. mexicana pifanoi (L20). The specificities of these antibodies were confirmed by analyses employing an indirect radioimmune binding assay and 107 stocks of New World Leishmania. The molecules associated with these species- and subspecies-specific determinants have been characterized by Western blot analysis and consist of mainly low m.w. (11,000 to 50,000) membrane-associated components.     

TcZFP8, a novel member of the Trypanosoma cruzi CCHC zinc finger protein family with nuclear localization

In a 17-kb genomic fragment of Trypanosoma cruzi chromosome XX, we identified three tandemly linked genes coding for CX(2)CX(4)HX(4)C zinc finger proteins. We also showed that similar genes are present in T. brucei and Leishmania major, sharing three monophyletic groups among these trypanosomatids. In T. cruzi, TcZFP8 corresponds to a novel gene coding for a protein containing eight zinc finger motifs. Molecular cloning of this gene and heterologous expression as a fusion with a His-tag were performed in Escherichia coli. The purified recombinant protein was used to produce antibody in rabbits. Using Western blot analysis, we observed the presence of this protein in all three forms of the parasite: amastigote, trypomastigote and epimastigote. An analysis of cytoplasmic and nuclear cell extracts showed that this protein is present in nuclear extracts, and indirect immunofluorescence microscopy confirmed the nuclear localization of TcZFP8. Homologues of TcZFP8 in T. brucei are apparently absent, while one candidate in L. major was identified.     

The dendritic cell receptor DC-SIGN discriminates among species and life cycle forms of Leishmania

Infection of dendritic cells by the human protozoal parasite Leishmania is part of its survival strategy. The dendritic cell receptors for Leishmania have not been established and might differ in their interactions among Leishmania species and infective stages. We present evidence that the surface C-type lectin DC-SIGN (CD 209) is a receptor for promastigote and amastigote infective stages from both visceral (Leishmania infantum) and New World cutaneous (Leishmania pifanoi) Leishmania species, but not for Leishmania major metacyclic promastigotes, an Old World species causing cutaneous leishmaniasis. Leishmania binding to DC-SIGN was found to be independent of lipophosphoglycan, the major glycoconjugate of the promastigote plasma membrane. Our findings emphasize the relevance of DC-SIGN in Leishmania-dendritic cell interactions, an essential link between innate and Leishmania-specific adaptive immune responses, and suggest that DC-SIGN might be a therapeutic target for both visceral and cutaneous leishmaniasis     

Phosphoproteomic analysis of Leishmania donovani pro- and amastigote stages

Following transmission to the vertebrate host, the protozoan parasite Leishmania donovani differentiates into the pathogenic amastigote stage that is adapted for intracellular survival. This developmental transition is induced by environmental factors including elevated temperature and acidic pH and is likely transduced by signaling cascades involving protein kinases and their downstream phosphoprotein substrates. These signaling networks are highly adapted to the specific nutritional and physiological requirements of the organism and thus studying Leishmania phosphorylation may allow important insight into the parasite-specific biology. We used a gel-based approach to investigate qualitative and quantitative changes of the phosphoproteome of the major L. donovani life cycle stages. Phosphoproteins were purified by immobilized metal affinity chromatography (IMAC), separated by IEF and SDS-PAGE using pH 4-7 IPG immobiline strips, revealed by fluorescent multiplex staining, and identified by MALDI-MS and MS/MS. Our analysis allowed us to establish a first repertoire of the Leishmania phosphoproteome and to identify phosphoproteins implicated in stress- and heat shock response, RNA/protein turnover, metabolism, and signaling.     

Unbalanced regulation of the ribosomal 5 S RNA-binding protein in Saccharomyces cerevisiae expressing mutant 5 S rRNAs.

A gene encoding the 5 S rRNA-binding protein (YL3) in yeast (Saccharomyces cerevisiae) was further characterized with respect to its chromosomal localization, the controlling sequence regions, and the influence of 5 S rRNA gene expression. Sequence and chromosome blot analyses localized the gene on chromosome XVI immediately downstream of a cytochrome oxidase assembly gene, COXII. S1 nuclease protection studies identified two major initiation sites, 20 and 65 nucleotides upstream of the coding sequence, and a single polyadenylation site, 98 nucleotides downstream of the stop codon. Northern blot analyses and S1 nuclease protection indicated a normal pattern of gene regulation in media supporting alternate rates of growth, but significantly unbalanced regulation was observed in the presence of mutant 5 S rRNA genes which under-produce RNA and result in reduced growth rates. The results suggest a co-ordinating regulatory mechanism which maintains appropriate levels of 5 S rRNA-protein complex; an internal control region-like sequence in the upstream region of the YL3 gene is consistent with this feedback mechanism.     

The Enzyme and the cDNA Sequence of a Thermolabile and Double-Strand Specific DNase from Northern Shrimps (Pandalus borealis)

Background

We have previously isolated a thermolabile nuclease specific for double-stranded DNA from industrial processing water of Northern shrimps (Pandalus borealis) and developed an application of the enzyme in removal of contaminating DNA in PCR-related technologies.

Methodology/Principal Findings

A 43 kDa nuclease with a high specific activity of hydrolysing linear as well as circular forms of DNA was purified from hepatopancreas of Northern shrimp (Pandalus borealis). The enzyme displayed a substrate preference that was shifted from exclusively double-stranded DNA in the presence of magnesium to also encompass significant activity against single-stranded DNA when calcium was added. No activity against RNA was detected. Although originating from a cold-environment animal, the shrimp DNase has only minor low-temperature activity. Still, the enzyme was irreversibly inactivated by moderate heating with a half-life of 1 min at 65°C. The purified protein was partly sequenced and derived oligonucleotides were used to prime amplification of the encoding cDNA. This cDNA sequence revealed an open reading frame encoding a 404 amino acid protein containing a signal peptide. By sequence similarity the enzyme is predicted to belong to a family of DNA/RNA non-specific nucleases even though this shrimp DNase lacks RNase activity and is highly double-strand specific in some respects. These features are in agreement with those previously established for endonucleases classified as similar to the Kamchatka crab duplex-specific nuclease (Par_DSN). Sequence comparisons and phylogenetic analyses confirmed that the Northern shrimp nuclease resembles the Par_DSN-like nucleases and displays a more distant relationship to the Serratia family of nucleases.

Conclusions/Significance

The shrimp nuclease contains enzyme activity that may be controlled by temperature or buffer compositions. The double-stranded DNA specificity, as well as the thermolabile feature, strengthens its potential for in vitro applications.     

Leishmania major parasite stage-dependent host cell invasion and immune evasion

Leishmania pathogenesis is primarily studied using the disease-inducing promastigote stage of Leishmania major. Despite many efforts, all attempts so far have failed to culture the disease-relevant multiplying amastigote stage of L. major. Here, we established a stably growing axenic L. major amastigote culture system that was characterized genetically, morphologically, and by stage-specific DsRed protein expression. We found parasite stage-specific disease development in resistant C57BL/6 mice. Human neutrophils, as first host cells for promastigotes, do not take up amastigotes. In human macrophages, we observed an amastigote-specific complement receptor 3-mediated, endocytotic entry mechanism, whereas promastigotes are taken up by complement receptor 1-mediated phagocytosis. Promastigote infection of macrophages induced the inflammatory mediators TNF, CCL3, and CCL4, whereas amastigote infection was silent and resulted in significantly increased parasite numbers: from 7.1 ± 1.4 (after 3 h) to 20.1 ± 7.9 parasites/cell (after 96 h). Our study identifies Leishmania stage-specific disease development, host cell preference, entry mechanism, and immune evasion. Since the amastigote stage is the disease-propagating form found in the infected mammalian host, the newly developed L. major axenic cultures will serve as an important tool in better understanding the amastigote-driven immune response in leishmaniasis.     

Structure and expression of a tandem gene pair in Leishmania donovani that encodes a protein structurally homologous to eucaryotic cation-transporting ATPases.

An oligonucleotide probe was used to clone a cation-transporting ATPase gene from the genome of Leishmania donovani. The nucleotide sequence of the gene contained a 2,922-base-pair open reading frame that was predicted to encode a 107,406-dalton protein composed of 974 amino acids. The predicted L. donovani protein contained all the structural and functional domains expected to be present in a cation-transporting ATPase of the aspartyl phosphate class. The nucleotide sequence encoding the ATPase gene was duplicated in tandem in the parasite genome. Partial sequenation of the second member of the tandem repeat, which lay 2 kilobase pairs downstream of the ATPase gene, indicated that it was either identical to the first gene or very closely related to it. RNA homologous to either the ATPase gene or its adjacent relative was 5 kilobases in size and was approximately equally abundant in both promastigote and amastigote forms of the organism.     

Occurrence of co-infection by Leishmania (Leishmania) chagasi and Trypanosoma (Trypanozoon) evansi in a dog in the state of Mato Grosso do Sul, Brazil

A natural case of co-infection by Leishmania and Trypanosoma is reported in a dog (Canis familiaris) in south- western state of Mato Grosso do Sul, Brazil. Both amastigote and trypomastigote forms were observed after Giemsa staining of cytological preparations of the dog's bone marrow aspirate. No parasite was detected using medium culture inoculation of the sample. DNA obtained from the bone marrow aspirate sample and from the blood buffy coat was submitted to polymerase chain reaction (PCR) with a set of rDNA-based primers S4/S12. The nucleotide sequence of the PCR product was identical to that of Trypanosoma (Trypanozoon) evansi. The S4/S12 PCR was then used as template in a nested-PCR using a specific Leishmania set S17/S18 as primers, to explain the amastigote forms. The nucleotide sequence of the new PCR product was identical to that of Leishmania (Leishmania) chagasi. This case, as far as we know, is the first report of a dog co-infected with these parasites, suggesting that besides L. (L.) chagasi, the natural transmission of T. (T.) evansi occurs in the area under study.