Eimeria acervulina: DNA cloning and characterization of recombinant sporozoite and merozoite antigens

Genes encoding antigens of Eimeria acervulina were cloned from cDNA expression libraries prepared from the sporozoite and merozoite stages in order to examine humoral and cellular immune responses to this protozoan parasite. Two clones expressing surface antigens were characterized by DNA hybridization studies to identify homologous genomic DNA fragments. The proteins they encode were identified by 125I-labeling, immunoblotting, immunofluorescence, and T-cell activation experiments. One, designated cSZ-1, encodes a 130-kDa beta-galactosidase fusion protein which represents a portion of a p240/p160 immunodominant sporozoite surface antigen. Immunofluorescence studies using anti-cSZ-1 sera and live or 1% paraformaldehyde-fixed E. acervulina sporozoites have confirmed this surface locale. Purified cSZ-1 fusion protein, which is not recognized by sera from E. acervulina-infected chickens, induced the activation of immune T lymphocytes in vitro. Another cDNA clone, designated cMZ-8, gives rise to a 150-kDa fusion protein and encodes a portion of a p250 immunodominant merozoite surface antigen. This was established by immunoblotting of 125I-labeled merozoite proteins with anti-cMZ-8 sera and immunofluorescence staining of live and 1% paraformaldehyde-fixed E. acervulina merozoites. Purified cMZ-8 is recognized by sera from E. acervulina-infected chickens and induces a significant activation of immune T lymphocytes in vitro.     

Eimeria tenella: cloning of a novel Eimeria tenella cDNA encoding a protein related to rhomboid family from F2 hybrid strain

A novel cDNA sequence with an open reading frame of 774 bp from Eimeria tenella F2 hybrid strain (ETRH01) was isolated from a lambda cDNA library with a monoclonal antibody against sporozoite. Analysis of the genomic sequence suggests that this is an intronless gene. The deduced protein sequence has 257 amino acids with a calculated molecular weight of 28.349 kDa and an isoelectric point of 8.56. Sequence analysis revealed seven transmembrane domains and a rhomboid domain within the protein. RT-PCR result indicates that this gene was expressed in all of the five E. tenella isolates analyzed. To further study the role of this novel gene in the life cycle of E. tenella, ETRH01 was successfully expressed using pET28b(+) expression system.     

Molecular cloning and expression of a cDNA encoding the secretin receptor.

Secretin is a 27 amino acid peptide which stimulates the secretion of bicarbonate, enzymes and potassium ion from the pancreas. A complementary DNA encoding the rat secretin receptor was isolated from a CDM8 expression library of NG108-15 cell line. The secretin receptor expressed in COS cells could specifically bind the iodinated secretin with high and low affinities. Co-expression of the secretin receptor with the alpha-subunit of rat Gs protein increased the concentration of the high affinity receptor in the membrane fraction of the transfected COS cells. Secretin could stimulate accumulation of cAMP in COS cells expressing the cloned secretin receptor. The nucleotide sequence analysis of the cDNA has revealed that the secretin receptor consists of 449 amino acids with a calculated Mr of 48,696. The secretin receptor contains seven putative transmembrane segments, and belongs to a family of the G protein-coupled receptor. However, the amino acid sequence of the secretin receptor has no significant similarity with that of other G protein-coupled receptors. A 2.5 kb mRNA coding for the secretin receptor could be detected in NG108-15 cells, and rat heart, stomach and pancreatic tissue.     

Functional cloning of an Arabidopsis thaliana cDNA encoding cycloeucalenol cycloisomerase

Plants and certain protists use cycloeucalenol cycloisomerase (EC ) to convert pentacyclic cyclopropyl sterols to conventional tetracyclic sterols. We used a novel complementation strategy to clone a cycloeucalenol cycloisomerase cDNA. Expressing an Arabidopsis thaliana cycloartenol synthase cDNA in a yeast lanosterol synthase mutant provided a sterol auxotroph that could be genetically complemented with the isomerase. We transformed this yeast strain with an Arabidopsis yeast expression library and selected sterol prototrophs to obtain a strain that accumulated biosynthetic ergosterol. The novel phenotype was conferred by an Arabidopsis cDNA that potentially encodes a 36-kDa protein. We expressed this cDNA (CPI1) in Escherichia coli and showed by gas chromatography-mass spectrometry that extracts from this strain isomerized cycloeucalenol to obtusifoliol in vitro. The cDNA will be useful for obtaining heterologously expressed protein for catalytic studies and elucidating the in vivo roles of cyclopropyl sterols.     

Molecular cloning of the cDNA encoding an immunodominant antigen of Dirofilaria immitis.

An immunodominant antigen of Dirofilaria immitis was studied using recombinant DNA techniques. The mRNA from D. immitis adult female worms was translated in vitro and a major 34 kDa antigenic polypeptide product was demonstrated by immunoprecipitation. cDNA was synthesized from mRNA and a lambda gt11 expression library was constructed and immunoscreened with dirofilariasis positive serum. A positive clone containing a nearly full length cDNA was isolated. The cDNA was 2415 bp in length and consisted of a single open reading frame followed by a long 3' non-coding region of 1446 bp. The open reading frame of 969 bp encoded a polypeptide of 322 amino acids with a molecular weight of 34,400. A cDNA fusion protein synthesized by bacteria (Escherichia coli JM109) using the expression vector pGEMEX-1 was identified as an immunodominant antigen by absorption experiments and had no cross-reactivity with sera from patients with other filarial species.     

Molecular cloning and functional expression of cDNA encoding a mammalian inorganic pyrophosphatase.

Extracts of soluble proteins from bovine retina contain multiple species of inorganic pyrophosphatase (PPase) that can be resolved by hydroxylapatite or ion exchange chromatography. We have purified one of these isoforms by a combination of chromatography and electrophoresis under denaturing conditions and have partially sequenced four peptides generated from it by CNBr digestion. This sequence information was used to clone PPase cDNA from a retinal cDNA library. Of five cDNA inserts, three were 1.3 kilobase pairs in length and two of these contained a complete open reading frame that was 867 base pairs long and encoded a 289-amino acid protein of 33 kDa. The deduced amino acid sequence is 49.5% identical to that of PPase from Saccharomyces cerevisiae, and contains identical amino acid residues at all of the positions previously identified as essential for catalytic activity in that enzyme. When the bovine PPase cDNA was expressed in Escherichia coli, catalytically active PPase was produced that comigrated with bovine retinal PPase in a nondenaturing gel and was clearly distinguishable from the host PPase. Northern analysis of poly(A)+ RNA from human, canine, and bovine retinas revealed that each contained a single major band of 1.4 kilobases that hybridized strongly with a pyrophosphatase cDNA probe. Southern analysis of bovine genomic DNA was consistent with the existence of one PPase gene. Thus, the multiple forms separated by chromatography may be derived from a common precursor or from mRNAs of very similar size.     

Identification and characterization of a serpin from Eimeria acervulina

Serpins are serine protease inhibitors that are widely distributed in metazoans but have not been previously characterized in Eimeria spp. A serpin from Eimeria acervulina was cloned, expressed and characterized. Random screening of an E.acervulina sporozoite cDNA library identified a single clone (D14) whose coding region shared high similarity to consensus structure of serpins. Clone D14 contained an entire open reading frame (ORF) consisting of 1,245 nts that encode a peptide 413 amino acids in length with a predicted molecular weight of 45.5 kDa and containing a signal peptide 28 residues in length. By Western blot analysis, polyclonal antiserum to the recombinant serpin (rbSp) recognized a major 55 kDa protein band in unsporulated oocysts and in oocysts sporulated up to 24 hr (fully sporulated). The anti-rbSp detected bands of 55 kDa and 48 kDa in sporozoites (SZ) and merozoites (MZ) respectively. Analysis of MZ secretion products revealed a single protein of 48 kDa which may correspond to secreted serpin. By immuno-staining the serpin was located in granules distributed throughout both the SZ and MZ but granules appeared to be concentrated in the parasite's anterior. Analysis of the structure predicts that the E. acervulina serpin should be an active inhibitor. However, rbSp was without inhibitory activity against common serine proteases. By Western blot analysis the endogenous serpin in MZ extracts did not form the expected high molecular weight complex when coincubated with either trypsin or subtilisin. The results demonstrate that E. acervulina contains a serpin gene and expresses a protein with structural properties similar to an active serine protease inhibitor. Although the function of the E. acervulina serpin remains unknown the results further suggest that serpin is secreted by the parasite where it may be involved in cell invasion and other basic developmental processes.     

Molecular cloning and characterization of a cDNA encoding caltractin from Dunaliella salina.

We cloned a cDNA encoding caltractin, a 20 kDa calcium-binding protein, from Dunaliella salina (DSCALT). The Ca(2+)-bound mobility shift detected in Chlamydomonas caltractin was hardly detectable in DSCALT. Also, some differences were found in the electrophoretic mobility between the native DSCALT and the bacterial-expressed DSCALT. This difference may have resulted from the posttranslational modification. Immunoblot analysis revealed that this protein might be localized mainly in the basal body complex, the major microtubule organizing center (MTOC) in D.salina and the functional homologue of the centrosome of the animal cell.     

Embryo vaccination against Eimeria tenella and E. acervulina infections using recombinant proteins and cytokine adjuvants

Avian coccidiosis is an intestinal disease caused by protozoa of the genus Eimeria. To investigate the potential of recombinant protein vaccines to control coccidiosis, we cloned 2 Eimeria sp. genes (EtMIC2 and 3-1E), expressed and purified their encoded proteins, and determined the efficacy of in ovo immunization to protect against Eimeria infections. Immunogen-specific serum antibody titers, parasite fecal shedding, and body weight gains were measured as parameters of disease. When administered alone, the recombinant EtMIC2 gene product induced significantly higher antibody responses, lower oocyst fecal shedding, and increased weight gains compared with nonvaccinated controls following infection with E. tenella. Combined embryo immunization with the EtMIC2 protein plus chicken cytokine or chemokine genes demonstrated that all 3 parameters of vaccination were improved compared with those of EtMIC2 alone. In particular, covaccination with EtMIC2 plus interleukin (IL)-8, IL-16, transforming growth factor-beta4, or lymphotactin significantly decreased oocyst shedding and improved weight gains beyond those achieved by EtMIC2 alone. Finally, individual vaccination with either EtMIC2 or 3-1E stimulated protection against infection by the heterologous parasite E. acervulina. Taken together, these results indicate that in ovo vaccination with the EtMIC2 protein plus cytokine/chemokine genes may be an effective method to control coccidiosis.     

Plasmodium yoelii: novel rhoptry proteins identified within the body of merozoite rhoptries in rodent Plasmodium malaria

The biogenesis, organization and function of the rhoptries are not well understood. Antisera were prepared to synthetic peptides prepared as multiple antigenic peptides (MAPs) obtained from a Plasmodium yoelii merozoite rhoptry proteome analysis. The antisera were used in immunofluorescence and immunoelectron microscopy of schizont-infected erythrocytes. Twenty-seven novel rhoptry proteins representing proteases, metabolic enzymes, secreted proteins and hypothetical proteins, were identified in the body of the rhoptries by immunoelectron microscopy. The merozoite rhoptries contain a heterogeneous mixture of proteins that may initiate host cell invasion and establish intracellular parasite development.     

Functional cloning of a Dictyostelium discoideum cDNA encoding GMP synthetase

A functional cloning procedure has been used to recover a cDNA coding for the GMP synthetase of Dictyostelium discoideum. The enzyme is encoded by a single gene, which is actively transcribed during growth, but not during development. The open reading frame encodes a protein of 718 amino acids with a predicted molecular mass of 79.6 kDa. The Dictyostelium enzyme has extensive homology with the GMP synthetase of Escherichia coli and regional homology to other glutamine amidotransferases.     

Sporozoites of Eimeria acervulina within intestinal macrophages in normal experimental infections: an ultrastructural study.

Sporozoites of Eimeria acervulina were observed in macrophages of the intestinal epithelium 5 and 6 days post-infection. These sporozoites lay within a well developed parasitophorous vacuole, were normal in structure and showed no signs of development. Macrophages harbouring sporozoites showed considerable structural changes, most pronounced being an absence of lysosomes, an enlarged nucleolus and extensive proliferation of the Golgi complex and endoplasmic reticulum. Possible mechanisms of survival and transport of sporozoites to preferred sites of development are discussed.     

Lipoic acid metabolism in Arabidopsis thaliana: cloning and characterization of a cDNA encoding lipoyltransferase.

Lipoic acid is an essential coenzyme required for activity of several key enzyme complexes, such as the pyruvate dehydrogenase complex, in the central metabolism. In these complexes, lipoic acid must be covalently attached to one of the component proteins for it to have biological activity. We report the cloning and characterization of Arabidopsis thaliana LIP2 cDNA for lipoyltransferase that catalyzes the transfer of the lipoyl group from lipoyl-acyl carrier protein to lipoate-dependent enzymes. This cDNA was shown to code for lipoyltransferase by its ability to complement an Escherichia coli lipB null mutant lacking lipoyltransferase activity. The expressed enzyme in the E. coli mutant efficiently complemented the activity of pyruvate dehydrogenase complex, but less efficiently than that of 2-oxoglutarate dehydrogenase complex. Comparison of the deduced amino acid sequence of LIP2 with those of E. coli and yeast lipoyltransferases showed a marked sequence similarity and the presence of a leader sequence presumably required for import into mitochondria. Southern and northern hybridization analyses suggest that LIP2 is a single-copy gene and is expressed as an mRNA of 860 nt in leaves. Western blot analysis with an antibody against lipoyltransferase demonstrated that a 29 kDa form of lipoyltransferase is located in the mitochondrial compartment of A. thaliana.