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3. Excystation of Eimeria tenella Sporozoites Impaired by Antibody Recognizing Gametocyte/Oocyst Antigens GAM22 and GAM56

Author

Krücken, Jürgen, Hosse, Ralf J., Mouafo, Aimdip N., Entzeroth, Rolf, Bierbaum, Stefan, Marinovski, Predrag, Hain, Karolina, Greif, Gisela, and Wunderlich, Frank

Abstract

Eimeria tenella is the causative agent of coccidiosis in poultry. Infection of the chicken intestine begins with ingestion of sporulated oocysts releasing sporocysts, which in turn release invasive sporozoites. The monoclonal antibody E2E5 recognizes wall-forming body type II (WFBII) in gametocytes and the WFBII-derived inner wall of oocysts. Here we describe that this antibody also binds to the stieda body of sporocysts and significantly impairs in vitro excystation of sporozoites. Using affinity chromatography and protein sequence analysis, E2E5 is shown to recognize EtGAM56, the E. tenella ortholog of the Eimeria maxima gametocyte-specific GAM56 protein. In addition, this antibody was used to screen a genomic phage display library presenting E. tenella antigens as fusion proteins with the gene VIII product on the surfaces of phagemid particles and identified the novel 22-kDa histidine- and proline-rich protein EtGAM22. The Etgam22 mRNA is expressed predominantly at the gametocyte stage, as detected by Northern blotting. Southern blot analysis in combination with data from the E. tenella genome project revealed that Etgam22 is an intronless multicopy gene, with approximately 12 to 22 copies in head-to-tail arrangement. Conspicuously, Etgam56 is also intronless and is localized adjacent to another gam56-like gene, Etgam59. Our data suggest that amplification is common for genes encoding oocyst wall proteins.

Published
2008

4. Excystation of Eimeria tenellaSporozoites Impaired by Antibody Recognizing Gametocyte/Oocyst Antigens GAM22 and GAM56

Author

Kru¨cken, Ju¨rgen, Hosse, Ralf J., Mouafo, Aimdip N., Entzeroth, Rolf, Bierbaum, Stefan, Marinovski, Predrag, Hain, Karolina, Greif, Gisela, and Wunderlich, Frank

Abstract

ABSTRACTEimeria tenellais the causative agent of coccidiosis in poultry. Infection of the chicken intestine begins with ingestion of sporulated oocysts releasing sporocysts, which in turn release invasive sporozoites. The monoclonal antibody E2E5 recognizes wall-forming body type II (WFBII) in gametocytes and the WFBII-derived inner wall of oocysts. Here we describe that this antibody also binds to the stieda body of sporocysts and significantly impairs in vitro excystation of sporozoites. Using affinity chromatography and protein sequence analysis, E2E5 is shown to recognize EtGAM56, the E. tenellaortholog of the Eimeria maximagametocyte-specific GAM56 protein. In addition, this antibody was used to screen a genomic phage display library presenting E. tenellaantigens as fusion proteins with the gene VIII product on the surfaces of phagemid particles and identified the novel 22-kDa histidine- and proline-rich protein EtGAM22. The Etgam22mRNA is expressed predominantly at the gametocyte stage, as detected by Northern blotting. Southern blot analysis in combination with data from the E. tenellagenome project revealed that Etgam22is an intronless multicopy gene, with approximately 12 to 22 copies in head-to-tail arrangement. Conspicuously, Etgam56is also intronless and is localized adjacent to another gam56-like gene, Etgam59. Our data suggest that amplification is common for genes encoding oocyst wall proteins.

Published
2008
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6. Comparative analysis of the human gimap gene cluster encoding a novel GTPase family.

Author

Krücken J, Schroetel RM, Müller IU, Saïdani N, Marinovski P, Benten WP, Stamm O, and Wunderlich F

Subjects
Amino Acid Sequence, Animals, Blotting, Northern, CHO Cells, Cricetinae, Cricetulus, Exons, Female, GTP-Binding Proteins metabolism, Gene Expression Profiling, Gene Order, Genes genetics, Humans, Introns, Jurkat Cells, Luminescent Proteins genetics, Luminescent Proteins metabolism, Male, Membrane Proteins metabolism, Microscopy, Confocal, Molecular Sequence Data, Phylogeny, Plasmids genetics, Protein Isoforms genetics, RNA, Messenger genetics, RNA, Messenger metabolism, Sequence Homology, Amino Acid, Tissue Array Analysis, Transfection, GTP-Binding Proteins genetics, Membrane Proteins genetics, Multigene Family genetics
Abstract

There is a growing family of novel GTPases conserved among higher plants and vertebrates, abbreviated as AIG1, IAP, IMAP, and IAN, respectively. Here, we comparatively analyze the human gene family encoding GTPases of the immunity-associated protein family recently re-termed GIMAP. Chromosome 7q36.1 contains, within 300 kb, a gimap gene cluster with seven functional genes and one pseudogene (hgimap3). The six genes hgimap1, hgimap2, hgimap4, hgimap5, hgimap6, and hgimap7 encode 33-46 kDa proteins with one GTP-binding domain, whereas hgimap8 encodes a very unusual 75-kDa protein with three GTP-binding domains. All hgimap genes except hgimap2 have orthologs in the mouse. Major expression sites of hgimap mRNAs are the spleen and lymph nodes, but also other organs such as muscle, heart, placenta, and digestive tract display detectable hgimap mRNA levels. The proteins hGIMAP4 and hGIMAP7 can be localized at ER and Golgi apparatus, but not in mitochondria, lysosomes and nuclei. All hgimap genes were expressed at very low levels-if at all-in diverse cancer cell lines. Our data support the view that the GIMAP proteins are involved in the control of cell survival not only in cells of the immune system as commonly anticipated.

Published
2004
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7. Cyclooctadepsipeptides--an anthelmintically active class of compounds exhibiting a novel mode of action.

Author

Harder A, Schmitt-Wrede HP, Krücken J, Marinovski P, Wunderlich F, Willson J, Amliwala K, Holden-Dye L, and Walker R

Subjects
Animals, Anthelmintics pharmacology, Binding Sites, Drug Resistance, Helminth Proteins genetics, Helminth Proteins metabolism, Helminthiasis drug therapy, Helminthiasis, Animal drug therapy, Humans, Nematoda drug effects, Phylogeny, Anthelmintics chemistry, Anthelmintics classification, Depsipeptides, Helminths drug effects, Peptides, Cyclic chemistry, Peptides, Cyclic pharmacology
Abstract

There are three major classes of anthelmintics for veterinary use: the benzimidazoles/prebenzimidazoles, the tetrahydropyrimidines/imidazothiazoles, and the macrocyclic lactones. In nematodes, there are five targets for the existing anthelmintics: the nicotinergic acetylcholine receptor which is the target of tetrahydropyrimidines/imidazothiazoles and indirectly that of the acetylcholineesterase inhibitors; the GABA receptor which is the target of piperazine, the glutamate-gated chloride channel as the target of the macrocyclic lactones, and beta-tubulin as the target of prebenzimidazoles/benzimidazoles. All these anthelmintics are now in serious danger because of the worldwide spread of resistant nematodes in sheep, cattle, horses and pigs. The class of cyclooctadepsipeptides has entered the scene of anthelmintic research in the early 1990s. PF1022A, the first anthelmintically active member, is a natural compound from the fungus Mycelia sterilia that belongs to the microflora of the leaves of the Camellia japonica. PF1022A contains 4 N-Methyl-L-leucines, 2 D-lactic acids and 2-D-phenyllactic acids arranged as a cyclic octadepsipeptide with an alternating L-D-L-configuration. Emodepside is a semisynthetic derivative of PF1022A with a morpholine ring at each of the two D-phenyllactic acids in para position. The anthelmintic activity is directed against gastrointestinal nematodes in chicken, mice, rats, meriones, dogs, cats, sheep, cattle and horses. Moreover, emodepside is active against Trichinella spiralis larvae in muscles, microfilariae and preadult filariae and Dictyocaulus viviparus. PF1022A and emodepside are fully effective against benzimidazole-, levamisole or ivermectin-resistant nematodes in sheep and cattle. In Ascaris suum both cyclooctadepsipeptides lead to paralysis indicating a neuropharmacological action of these compounds. Using a PF1022A-ligand immunoscreening of a cDNA library from Haemonchus contortus a cDNA clone of 3569 base pairs could be identified. This clone codes for a novel 110 kDa heptahelical transmembrane receptor, named HC110R. Database- and phylogenetic analysis reveals that this receptor is a homolog to B0457.1 from Caenorhabditis elegans and has significant similarity to latrophilins from human, cattle and rat. HC110R is located in the plasma membrane and in lysosomes and endosomes. Alpha-latrotoxin, the poison of the black widow spider, binds at a 54 kDa aminoterminal fragment of HC110R. After binding a Ca2+-influx into HEK293 cells is induced which can be blocked by EGTA, Cd2+ or nifedipin. PF1022A or emodepside also bind to this 54 kDa aminoterminal region of HC110R and interact with the functional responses of alpha-latrotoxin. In C. elegans antibodies against the C-or N-terminus of HC110R bind to the B0457.1 protein located in the pharynx. Electrophysiological studies reveal that emodepside inhibits pharyngeal pumping of the nematodes in a concentration dependent way with an IC(50) value of about 4 nM. Thus, it is tempting to speculate that emodepside exerts its action on nematodes via a latrophilin-like receptor which might have an important regulatory function on pharyngeal pumping.

Published
2003
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8. Testosterone and other gonadal factor(s) restrict the efficacy of genes controlling resistance to Plasmodium chabaudi malaria.

Author

Wunderlich F, Marinovski P, Benten WP, Schmitt-Wrede HP, and Mossmann H

Subjects
Alleles, Animals, Buserelin pharmacology, Disease Susceptibility, Female, H-2 Antigens genetics, Immunity, Innate genetics, Malaria blood, Malaria genetics, Male, Mice, Mice, Inbred C57BL, Orchiectomy, Radioimmunoassay, Malaria immunology, Plasmodium chabaudi immunology, Testosterone blood
Abstract

The effect of circulating concentrations of testosterone (Te) on resistance to Plasmodium chabaudi malaria was investigated in the H-2 congenic mouse strains C57BL/10, B10.A, B10.A(3R), B10.A(4R), and B10.D2. Te-levels were determined by radioimmunoassay and resistance was expressed in terms of percent self-healers after challenge with 10(6) P. chabaudi-infected erythrocytes. Our data indicate: (i) Females and castrated males reveal very similar interstrain variations of resistance. These do not correlate with the interstrain variations of the Te-levels. This is consistent with the view that resistance to P. chaubaudi is controlled by genes of the H-2 complex and genes of the non-H-2 B10-background, (ii) The polygenic control of resistance is inefficacious at high Te-levels. This is evident as high susceptibilities of males, Te-treated females and Te-treated castrated males. Moreover, high Te-levels correlate with susceptibilities to P. chabaudi within mice of the same sex of a given strain, (iii) B10-males chemically castrated using buserelin display the same low Te-level as those surgically castrated. The latter become resistant, while the former remain as highly susceptible to P. chabaudi as untreated B10-males. Obviously, other gonadal factor(s), besides Te, impose restrictions on genes controlling resistance to P. chabaudi malaria.

Published
1991
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