Abstract: The invention relates to three isolated DNA molecules that encode for proteins, BigL1, BigL2 and BigL3, in the Leptospira sp bacterium which have repetitive Bacterial-Ig-like (Big) domains and their use in diagnostic, therapeutic and vaccine applications. According to the present invention, the isolated molecules encoding for BigL1, BigL2 and BigL3 proteins are used for the diagnosis and prevention of infection with Leptospira species that are capable of producing disease in humans and other mammals, including those of veterinary importance.

Abstract: The present invention relates to nucleic acid sequences encoding Ostertagia ostertagi proteins and to parts of such nucleic acid sequences that encode an immunogenic fragment of such proteins, and to DNA fragments, recombinant DNA molecules, live recombinant carriers and host cells comprising such nucleic acid sequences or such parts thereof. The invention also relates to Ostertagia ostertagi proteins and immunogenic parts thereof encoded by such sequences. Furthermore, the present invention relates to vaccines comprising such nucleic acid sequences and parts thereof, DNA fragments, recombinant DNA molecules, live recombinant carriers and host cells comprising such nucleic acid sequences or such parts thereof, proteins or immunogenic parts thereof and antibodies against such proteins or immunogenic parts thereof. Also, the invention relates to the use of said proteins in vaccines and for the manufacture of vaccines.

Abstract: A candidate subunit for a vaccine against malaria caused by P. vivax, known as Pv200L, which is based on N-terminal end portions of the P. vivax MSP-1 protein is disclosed. The subunit is designed for use alone or in formulations, combined with other subunits. The production of recombinant prototypes of the subunit and the design of a production process that can be scaled up for mass production thereof is also disclosed.

Abstract: Provided is an isolated and purified protein produced by a naturally occurring Babesia sp. comprising an amino acid sequence at least 90% identical to SEQ ID NO:1 and an isolated and purified nucleic acid encoding the above protein. Additionally provided is an isolated and purified nucleic acid comprising at least 20 nucleotides having a sequence 100% identical to a portion of SEQ ID NO:2 or its complement. Further provided is an antibody preparation comprising an antibody that specifically binds to the above protein. Also provided are methods of diagnosing a Babesia sp. infection in a mammal, methods of determining whether a blood preparation is contaminated with a Babesia sp., methods of determining whether a blood preparation is contaminated with a Babesia sp., and methods of treating a mammal infected with a Babesia sp., the method comprising inhibiting the production or activity of the protein comprising an amino acid sequence at least 90% identical to SEQ ID NO:1 by the Babesia sp. in the mammal.

Abstract: The present invention relates to new polypeptides recognized by anti-Trichinella antibodies. The invention also relates to the use of said polypeptides for the detection of anti-Trichinella antibodies and for the prevention of trichinellosis.

Abstract: The invention relates to the field of combating leishmaniases. Said invention results from the isolation, from wild isolates of Leishmania major, of a protein-coding gene known as LmPDI which has two regions that are identical to the sequence (Cys-Gly-His-Cys) of the potential active site of the protein disulphide isomerases (PDI). The LmPDI protein is predominantly expressed in the most virulent isolates of the parasite. Said protein forms a novel therapeutic target for developing anti-leishmaniasis medicaments and a novel element that can be used in the composition of immunogenic, and possibly vaccinating, preparations which are intended to protect a human or animal host against Leishmania.

Abstract: The present invention relates to a method for potentiating a specific immune response to an antigen in a mammal in need thereof. The method comprises administering to the mammal an effective amount of Ov-ASP, or at least one subunit of Ov-ASP, and an antigenic moiety.

Abstract: The invention relates to novel enzymes, which transfer sialic acid from a donor molecule onto an acceptor molecule (trans-sialidases). The enzymes are isolated from the protozoan Trypanosoma congolense.

Abstract: The present invention includes compositions, methods and kits for enhancing the immunogenicity of an antigen via fusion to a Listerial protein. The present invention further encompasses Listeria vaccine strains for enhancing the immunogenicity of an antigen.

Abstract: The present invention relates generally to a fusion protein made from a synthetic gene construct comprising of elements derived from the Leishmania antigens K26, K39, and K9. The fusion protein is particularly useful in the diagnosis of leishmaniasis, particularly visceral leishmaniasis in animals such as humans and dogs.

Abstract: The present invention relates to the intersection of the fields of immunology and protein engineering, and particularly to antigens and vaccines useful in prevention of infection by Trypanosoma protozoa. Provided are recombinant protein antigens, compositions, and methods for the production and use of such antigens and vaccine compositions.

Abstract: This invention relates to novel Eimeria proteins with immunogenic properties as well as to DNA sequences encoding these proteins. These proteins can be administered to poultry thereby protecting the birds against coccidiosis. In addition the DNA encoding these proteins can be used for the preparation of a vector vaccine against coccidiosis.

Abstract: Compositions and methods for enhancing the immunogenicity of an antigen via fusion to a non-hemolytic truncated form of listeriolysin or a PEST-like amino acid sequence derived from a prokaryotic organism are provided.

Abstract: Cryptosporidium hominis genes and gene products are provided. The genes and gene products are useful for chemotherapeutic, immunotherapeutic, immunoprophylactic and diagnostic applications.

Abstract: Disclosed is a method of making a malaria vaccine, the method comprising stably transforming a plant by inserting into its plastid genome a nucleic acid sequence encoding and operable to constitutively express a malaria antigenic polypeptide selected from AMA-1, MSP-1 or both; harvesting the stably transformed plant in whole or in part; purifying the expressed malaria antigenic polypeptide from the harvested plant; and packaging the purified antigenic polypeptide under sterile conditions in an amount for a predetermined dosage. Also disclosed is an oral vaccine effective in raising malaria antibodies in a susceptible host, the vaccine comprising leaf material from an edible plant containing plastids stably transformed to constitutively express a fusion polypeptide consisting essentially of cholera toxin B subunit and a malaria antigenic polypeptide selected from AMA-1, MSP-1 or both.

Abstract: In one aspect, the present invention provides isolated novel peptides that can be used to modulate innate immunity in a subject, and/or for the treatment of an immune-related disorder, including treating and preventing infection by modulating innate immunity. Also provided are an agent reactive with this peptide, a pharmaceutical composition that includes the peptide, an isolated nucleic acid molecule encoding the peptide, a recombinant nucleic acid construct that includes the nucleic acid molecule, at least one host cell comprising the recombinant nucleic acid construct, and a method of producing the peptide using the host cell. The present invention further provides a method for treating and/or preventing infection in a subject by administering the peptide of the invention to the subject, thereby modulating innate immunity in the subject. Additionally, the present invention provides a method for predicting whether a subject would be responsive to treatment with a peptide of the invention.

Abstract: The subject invention relates to nucleic acid sequences and amino acid sequences encoded thereby, derived from the Merozoite Surface Protein (MSP1) gene of the Plasmodium species P. malariae and P. ovale. Such genes and proteins have many beneficial diagnostic as well as therapeutic uses.

Abstract: The present invention provides compositions and methods useful in the treatment or prevention of a condition caused by or associated with infection by Plasmodium falciparum, such as malaria. The compositions include various antigens of Plasmodium falciparum, both alone and in combination. The invention further includes fragments of the antigens.

Abstract: The present invention relates to a synthetic antigenic sequence which represents a combination of epitope-containing sequences from the highly polymorphic block 2 repeat region of K1-type Plasmodium falciparum merozite surface antigen (MSP1) and fusion proteins containing that sequence in combination with additional epitope-containing sequences capable of inducing antibody and cellular immune responses to P.

Abstract: Described in this application is a synthetic P. vivax circumsporozoite protein useful as a diagnostic reagent, for antibody production, and as a vaccine protective against infection with any strain of P. vivax.

Abstract: The invention relates to a Piroplasmid protein or an immunogenic fragment of said protein, and to a nucleic acid encoding said Piroplasmid protein or said immunogenic fragment. Furthermore, the invention relates to cDNA fragments, recombinant DNA molecules and live recombinant carriers comprising said nucleic acid. Also the invention relates to host cells comprising said cDNA fragments, recombinant DNA molecules and live recombinant carriers. Finally, the invention relates to vaccines comprising a Piroplasmid protein or an immunogenic fragment of said protein, to methods for the preparation of such vaccines, to the use of such proteins or fragments for vaccine purposes, and to diagnostic tests.

Abstract: Compositions and methods for treating and/or preventing a variety of diseases and conditions that are amenable to immunotherapy and, in one particular embodiment, compositions and methods for treating and/or preventing cancer in an animal are described. Specifically improvements related to the use of a yeast-based vaccine comprising a yeast vehicle and an antigen that is selected to elicit an antigen-specific cellular and humoral immune response in an animal, for use in prophylactic and/or therapeutic vaccination and the prevention and/or treatment of a variety of diseases and conditions are disclosed.

Abstract: The present invention provides compositions and methods useful in the treatment or prevention of a condition caused by or associated with infection by Plasmodium falciparum, such as malaria. The compositions include various antigens of Plasmodium falciparum, both alone and in combination. The invention further includes fragments of the antigens.

Abstract: The present invention relates to new proteins of Leishmania major and to therapeutical and diagnostic applications thereof. More particularly, the present invention relates to excreted/secreted polypeptides and polynucleotides encoding same, compositions comprising the same, and methods of diagnosis, vaccination and treatment of Leishmaniasis.

Abstract: The subject invention provides polynucleotide sequences, designated BIVM, and transcriptional/translational products obtained from the polynucleotide sequences of the invention. The subject invention also provides polynucleotide and polypeptide sequences provided by SEQ ID NOs:1-28. Also provided are methods of detecting the presence of BIVM nucleic acids or polypeptides in samples suspected of containing BIVM genes, BIVM transcriptional products, or BIVM translational products. These methods are also useful for the detection of BIVM orthologs. Other embodiments provide polypeptide and/or nucleic acid vaccines for the induction of an immune response to in an individual. Kits for detecting the presence of BIVM genes, orthologs thereof, BIVM polypeptides, or BIVM transcriptional products are also provided.

Abstract: The present invention provides a vaccine composition including a nucleic acid that encodes an amoeba-derived antigen (or a peptide molecule encoded thereby), or fragments or variants thereof. The present invention also provides for the use of such vaccine compositions in eliciting an immune response and/or protective immunity in a host against amoebic infection and screening a sample for the presence of amoebae.

Abstract: In this application is described the expression and purification of a recombinant Plasmodium falciparum (3D7) LSA-NRC polypeptide. The method of the present invention produces a highly purified polypeptide which is useful as a vaccine and as a diagnostic reagent.

Abstract: Methods for improving binding of a proteinaceous substance to cell-wall material of a Gram-positive bacterium are disclosed. The proteinaceous substance includes an AcmA cell-wall binding domain, homolog or functional derivative thereof. The method includes treating the cell-wall material with a solution capable of removing a cell-wall component such as a protein, lipoteichoic acid or carbohydrate from the cell-wall material and contacting the proteinaceous substance with the cell-wall material.

Abstract: The invention is directed to a method for treating a treating and diagnosing a B cell-related disease, T cell-related disease or an autoimmune disease in a mammal by concurrently or sequentially administering to the mammal a therapeutic composition that comprises a pharmaceutically acceptable vehicle and at least one conjugated antibody, wherein predosing with a non-radiolabeled antibody is not performed.

Abstract: A polypeptide comprising an amino acid sequence having at least 60% identity to the amino acid sequence SEQ ID No. 1 or comprising at least one amino acid fragment of at least 6 consecutive amino acid residues of the amino acid sequence SEQ ID No. 1 or having immunological cross-reactivity to the amino acid sequence SEQ ID No. 1 or fragments thereof, wherein the amino acid sequence SEQ ID No. 1 codes for an allergen and the polypeptide comprises at least one T cell epitope recognized by a T cell receptor specific for a molecule having the amino acid sequence SEQ ID No. 1.

Abstract: The present invention provides a polypeptide SE36 derived from the N-terminal domain (47 kd) of SERA (serine-repeat antigen) produced by malaria parasite, Plasonodium falciparum, at the erythrocyte stage, a process for purifying said polypeptide, and a malaria vaccine and diagnostic agent using as an active component said purified antigen obtained therefrom. SE36 can be produced in Escherchia coli on a large scale by deleting all or part of polymerized serines of the 47 kd serine-repeat region, whereby high purification is permitted. The human IgG3 antibodies specifically binding to SE36 prevents highly effectively growth of the protozoa in the red blood cells to inhibit fever and cerebral malaria, and further prevent the death.

Abstract: A method for treatment or prevention of Toxoplasma gondii infections pharmaceutical composition comprising an antigen fragments of Toxoplasma gondii in the form of a chimeric fusion product or a nucleotide sequence coding for the chimeric fusion product and a method of using the chimeric fusion product or nucleotide sequence coding therefor.

Abstract: An isolated protein fragment containing an epitope which is specific for E. histolytica and is commonly shared by all polymorphic strains of E. histolytica is provided, and which exhibits immunogenicity in the host, and comprises an amino acid sequence containing amino acid sequence 603-1088 of SEQ ID NO: 2, and in particular, consists of the amino acid sequence 603-1088. An isolated DNA coding for such fragment, a vector containing such DNA, a host cell, a vaccine for amebiasis containing such fragment having a low molecular weight which can be stably produced in the host cell or E. coli in a large amount and at a high production efficiency, a method for producing such vaccine, an antibody against such fragment, and a method for preventing or treating amebiasis by administering such fragment are also provided.

Abstract: Antigenic and immunogenic determinants of Merozoite surface protein 3 (MSP3). Antigenicity and functional assays identified a 68-amino acid conserved domain of MSP3 as a target of biologically active antibodies. A peptide comprising amino acid residues 184-251 of SEQ ID NO: 2, may also be employed as may peptides consisting of different combinations of the MSP3 a, b, c, d, e and f peptides. Particular non-overlapping or overlapping segments of MSP3 a, b, c, d, e and f peptides may also be used. The various overlapping segments and nonoverlapping segments among the different MSP3 peptides are shown in FIG. 6. MSP3 determinants include targets of antibody-dependent cellular inhibition (ADCI) which is a protective mechanism against Plasmodium falciparum malaria. Six overlapping peptides were derived from the C-terminal end of the MSP3 polypeptide. Each of these peptides defined at least 1 non-crossreactive B cell epitope and contained T helper epitopes.

Abstract: The present invention relates to nucleic acid sequences encoding Ostertagia ostertagi proteins and to parts of such nucleic acid sequences that encode an immunogenic fragment of such proteins, and to DNA fragments, recombinant DNA molecules, live recombinant carriers and host cells comprising such nucleic acid sequences or such parts thereof. The invention also relates to Ostertagia ostertagi proteins and immunogenic parts thereof encoded by such sequences. Furthermore, the present invention relates to vaccines comprising such nucleic acid sequences and parts thereof, DNA fragments, recombinant DNA molecules, live recombinant carriers and host cells comprising such nucleic acid sequences or such parts thereof, proteins or immunogenic parts thereof and antibodies against such proteins or immunogenic parts thereof. Also, the invention relates to the use of said proteins in vaccines and for the manufacture of vaccines.

Abstract: The invention provides isolated liver stage Plasmodium polypeptides comprising an amino acid sequence selected from the group consisting of SEQ ID NOs: 1-48 and immunogenic derivatives thereof. The invention also provides isolated nucleic acid molecules encoding the liver stage Plasmodium polypeptides of the invention, compositions comprising one or more liver stage Plasmodium polypeptides of the invention, methods for inducing an immune response against the liver stage Plasmodium polypeptides, and methods for treating and diagnosing liver stage malaria.

Abstract: Compositions and methods for treating and/or preventing a variety of diseases and conditions that are amenable to immunotherapy and, in one particular embodiment, compositions and methods for treating and/or preventing cancer in an animal are described. Specifically improvements related to the use of a yeast-based vaccine comprising a yeast vehicle and an antigen that is selected to elicit an antigen-specific cellular and humoral immune response in an animal, for use in prophylactic and/or therapeutic vaccination and the prevention and/or treatment of a variety of diseases and conditions are disclosed.

Abstract: Cloning and expression of genes encoding C. parvum antigenic polypeptides are described as are antibodies that recognize epitopes on these polypeptides. The antigenic polypeptides and antibodies thereto can be used in therapeutic compositions for the prevention and treatment of C. parvum infections, as well as in diagnostic methods for determining the presence of C. parvum infections.

Abstract: A recombinant, refolded non-fusion polypeptide expressed from a truncated r56 gene of the causative agent of scrub typhus, Orientia tsutsugamushi for the Karp, Kato and Gilliam strains has been produced. The invention is useful for detecting prior exposure to scrub typhus, screening for and/or identification of at least one infectious strain-similarity (i.e. a Karp-like, Kato-like or Gilliam-like strain) based on its strength of reaction toward a truncated protein and as a component in vaccine formulation sand production of immune globulins for passive prophylaxis and immunity in subjects.

Abstract: The present invention relates novel methods and compositions for blocking transmission of Plasmodium vivax which cause malaria. In particular, Pvs25 and Pvs28 polypeptides, variants, including deglycosylated forms, and fusion proteins thereof, are disclosed which, when administered to a susceptible organism, induce an immune response against a 25 kD and 28 kD protein, respectively, on the surface of Plasmodium vivax zygotes and ookinetes. This immune response in the susceptible organism can block transmission of malaria.

Abstract: A novel Fasciclin Related Adhesive Protein (FRAP) from Plasmodium and related parasites is provided as a target for therapeutic intervention in diseases caused by the parasites. FRAP has been shown to play a critical role in adhesion to, or invasion into, host cells by the parasite. Furthermore, FRAP catalyzes the neutralization of heme by the parasite, by promoting its polymerization into hemozoin. This invention provides methods and compositions for therapies based on the administration of protein, DNA or cell-based vaccines and/or antibodies based on FRAP, or antigenic epitopes of FRAP, either alone or in combination with other parasite antigens. Methods for the development of compounds that inhibit the catalytic activity of FRAP, and diagnostic and laboratory methods utilizing FRAP are also provided.

Abstract: The present invention relates to an in vitro diagnostic method for malaria in an individual comprising placing a tissue or a biological fluid taken from an individual in contact with a molecule or polypeptide composition, wherein said molecule or polypeptide composition comprises one or more peptide sequences bearing all or part of one or more T epitopes of the proteins resulting from the infectious activity of P. falciparum, under conditions allowing an in vitro immunological reaction to occur between said composition and the antibodies that may be present in the tissue or biological fluid, and in vitro detection of the antigen-antibody complexes formed. The invention further relates to a polypeptide comprising at least one T epitope from a liver-stage specific protein produced by P. falciparum and a vaccine composition directed against malaria comprising a molecule having one or more peptide sequences bearing all or part of one or more T epitopes resulting from the infectious activity of P.

Abstract: This study reports a novel immunopotentiating effect of a lectin (FFrL) extracted from the mushroom Fomitella fraxinea on poultry cell-mediated immunity and poultry coccidiosis. We describe the extraction of FFrL, its in vitro mitogenic activity and in vivo protection against an oral challenge infection with Eimeria acervulina. When tested on several cell types, crude FFrL agglutinated mouse erythrocytes and thymocytes and also various other cells including murine and human cell lines. However, crude FFrL did not agglutinate human A, B, AB, or O erythrocytes. FFrL showed a potent mitogenic activity on chicken splenic lymphocytes where at lower concentrations, crude FFrL exerted stronger mitogenic activity than Con A, a well-known potent mitogen for T lymphocytes. Further, FFrL significantly induced (P<0.05) nitric oxide secretion in HD11 cells, an established macrophage cell line, and suppressed (P<0.05) RP9 tumor cell growth, both, in a dose-dependent fashion.

Abstract: The present invention relates to: parasitic helminth cuticlin proteins; parasitic helminth cuticlin nucleic acid molecules, including those that encode such cuticlin proteins; antibodies raised against such cuticlin proteins; and compounds that inhibit parasitic helminth cuticlin activity. The present invention also includes methods to obtain such proteins, nucleic acid molecules, antibodies, and inhibitory compounds. Also included in the present invention are therapeutic compositions comprising such proteins, nucleic acid molecules, antibodies and/or inhibitory compounds as well as the use of such therapeutic compositions to protect animals from diseases caused by parasitic helminths.

Abstract: The present invention provides nucleic acid molecules containing nucleotide sequences encoding helminth aminopeptidase enzymes, and antigenic fragments and functionally-equivalent variants thereof, their use in the preparation of vaccines, for use against helminth parasites, and synthetic polypeptides encoded by them.

Abstract: The invention relates to an ex vivo animal or challenge model as a method to identify protective (recombinant) proteins and rapidly measure protective immunity in intestinal segments directed against parasites and vaccines directed against parasitic infections. The invention further relates to vaccines directed against infection with parasites, such as Fasciola hepatica, which vaccines contain protective (recombinant) proteins identified and shown to be protective in studies using the ex vivo model. The invention further relates to protective (recombinant) proteins obtained from newly excysted juveniles (NEJ) of Fasciola hepatica. The protective (recombinant) protein corresponding to an NEJ protein has an apparent molecular weight of 32 kD and an N-terminal amino acid sequence comprising the sequence XXDVSWPFWDRMYNY (SEQ ID NO:1).

Abstract: This invention provides identification and characterization of racemases and epimerases and definition of protein signatures of those racemases and epimerases. This invention also provides identification of nucleic acid molecules encoding a peptide consisting of a motif characteristic of the protein signatures, and to the peptides consisting of these motifs. Antibodies specific for the peptides and to immune complexes of these antibodies with the peptides are also provided. Further, the invention relates to methods and kits for detecting racemases and epimerases using the nucleic acid molecules of the invention, as well as the peptides consisting of the motifs and antibodies to these peptides.

Abstract: The invention provides modified recombinant nucleic acid sequences (preferably DNA) and methods for increasing the mRNA levels and protein expression of malarial surface protein MSP-1 which is known to be difficult to express in cell culture systems, mammalian cell culture systems, or in transgenic animals. The preferred protein candidates for expression using the recombinant techniques of the invention are MSP-1 proteins expressed from DNA coding sequences comprising reduced overall AT content or AT rich regions and/or mRNA instability motifs and/or rare codons relative to the native MSP-1 gene.

Abstract: Methods for the specific and highly sensitive detection of Treponema pallidum infection comprising the use of specific antigenic proteins and peptides unique to Treponema pallidum are provided. In particular, detection assays based on recognition of acidic repeat protein are provided. The methods of the present invention are useful for detection of primary syphilis at early stages of infection. In addition, the methods and compositions disclosed herein are directed to the differential detection of specific Treponema infections enabling the identification of causative agents for specific Treponema disease states: syphilis (Treponema pallidum subspecies pallidum), yaws (Treponema pallidum subspecies pertenue CDC-1 or CDC-2 strain), and bejel (Treponema pallidum subspecies endemicum).

Abstract: The present invention relates to tissue cement proteins produced by certain species of blood-feeding ectoparasites. These proteins and compositions comprising these proteins are particularly useful for the temporary or permanent bonding of animal tissues to each other or to other biomaterials. The present invention also relates to the use of tissue cement proteins in the production of vaccines that protect animals against the bite of blood-sucking ectoparasites and the transmission of viruses, bacteria and other pathogens by such ectoparasites.