Abstract: The invention relates to fusion proteins which comprise at least one antigenic amino acid sequence fused to a carrier heterologous protein sequence, wherein the antigenic sequence comprises an epitopic sequence of a Plasmodium protein and the carrier heterologous protein sequence is a sequence that is immunogenic in humans. The proteins are useful as anti-malaria vaccines.

Abstract: The invention relates to fusion proteins which comprise at least one antigenic amino acid sequence fused to a carrier heterologous protein sequence, wherein the antigenic sequence comprises an epitopic sequence of a Plasmodium protein and the carrier heterologous protein sequence is a sequence that is immunogenic in humans. The proteins are useful as anti-malaria vaccines.

Abstract: The present invention pertains to the protection against malaria. More particularly, the invention is based on the characterization of a novel liver and sporozoite-stage P. falciparum antigen, referred to as LSA-5. This antigen is highly antigenic and the prevalence of antibodies in subjects living in endemic areas is extremely high (ca. 90%). The invention concerns antigenic peptides, mixtures thereof, or polypeptides, mixotopes and conjugates comprising part of the sequence of LSA-5, as well as immunogenic compositions, vaccines and kits comprising these.

Abstract: The present application relates to a sub-region of a Plasmodium protein, with improved vaccine potential, and to medical uses thereof, notably for treatment or diagnosis of malaria. The present invention notably provides unstructured or unfolded polypeptides deriving from the PFF0165c protein of P. falciparum 3D7. The polypeptides of the invention have a high antigenicity, a high immunogenicity, have a high parasite-killing activity in the ADCI assay, and are strongly associated with clinical protection against malaria, and. The present invention thereby provides a vaccine for the palliative and/or curative treatment of malaria, which is specifically intended for infants, toddlers, children under the age of 5, pregnant women.

Abstract: The present application relates to a sub-region of a Plasmodium protein, with improved vaccine potential, and to medical uses thereof, notably for treatment or diagnosis of malaria. The present invention notably provides unstructured or unfolded polypeptides deriving from the PFF0165c protein of P. falciparum 3D7. The polypeptides of the invention have a high anti-genicity, a high immunogenicity, have a high parasite-killing activity in the ADCI assay, and are strongly associated with clinical protection against malaria, and. The present invention thereby provides a vaccine for the palliative and/or curative treatment of malaria, which is specifically intended for infants, toddlers, children under the age of 5, pregnant women.

Abstract: The invention concerns novel Plasmodium falciparum antigens and their vaccine and diagnostic applications. More particularly, the invention concerns immunogenic polynucleotide and polypeptide molecules, compositions comprising them, and methods for diagnosis and vaccination of malaria.

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 a recombinant human antibody comprising an antibodysequence specific for the MSP-3 antigen of Plasmodium falciparum. In particular, the invention relates to a recombinant human antibody which is specific for the MSP-3194-257 antigen. The invention further relates to nucleic acid encoding such antibodies and to uses of these antibodies, in particular in the treatment or prophylaxis of malaria.

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 pertains to the protection against malaria. More particularly, the invention is based on the characterization of a novel liver and sporozoite-stage P. falciparum antigen, referred to as LSA-5. This antigen is highly antigenic and the prevalence of antibodies in subjects living in endemic areas is extremely high (ca. 90%). The invention concerns antigenic peptides, mixtures thereof, or polypeptides, mixotopes and conjugates comprising part of the sequence of LSA-5, as well as immunogenic compositions, vaccines and kits comprising these.

Abstract: The present invention provides a vaccine against malaria containing a polypeptide having an epitope contained within a merozoite surface protein and a method for immunizing against malaria by administering the vaccine.

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 invention provides novel preparations for a broad-spectrum antiplasmodial vaccine.

Abstract: The invention concerns novel Plasmodium falciparum antigens and their vaccine and diagnostic applications. More particularly, the invention concerns immunogenic polynucleotide and polypeptide molecules, compositions comprising them, and methods for diagnosis and vaccination of malaria.

Abstract: This invention relates generally to the field of pathogen peptidic antigens and their use, for example, for the preparation of a vaccine against said pathogen. More specifically, the present invention relates to an antigenic peptide deriving from Plasmodium species sequences, and includes antibodies and methods of producing and using same.

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 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: The invention discloses isolated DNA sequences encoded by polypeptides characterized by the presence in their structure of one or more sequences bearing all or part of the one or more T epitopes, and possibly other epitopes, particularly B epitopes, characteristic of proteins resulting from the infectious activity of P. falciparum in hepatic cells.

Abstract: The invention discloses isolated DNA sequences encoded by polypeptides characterized by the presence in their structure of one or more sequences bearing all or part of one or more T epitopes, and possibly other epitopes, particularly B epitopes, characteristic of proteins resulting from the infectious activity of P. falciparum in hepatic cells.

Abstract: A vaccine composition comprising a Th1-inducing adjuvant in combination with a protecting Liver Stage Antigen or immunological fragment thereof of a human malaria parasite, especially Plasmodium falciparum, with the proviso that when the immunological fragment is an immunological fragment of LSA-3 the Th1-inducing adjuvant is not Montanide. In one preferred aspect the Th1-inducing adjuvant comprises QS21, De-O-acylated monophosphoryl lipid A (3D-MPL) and an oil in water emulsion wherein the oil in water emulsion has the following composition: a metabolisible oil, such a squalene, alpha tocopherol and tween 80. In a further preferred aspect the protecting Liver Stage Antigen is Liver Stage Antigen 3 (LSA-3) or an immunological fragment thereof. A multivalent vaccine composition is also provided comprising the vaccine composition of the invention and in addition at least one other protecting antigen or an immunological fragment thereof, of a malaria parasite.