The present invention generally relates to a glycopeptide conjugate compound of Formula (I):, as described herein, compositions comprising the conjugate compound and to the use of such a compound to as a vaccine.

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The invention relates to Plasmodium antigenic polypeptides identified through the use of a specifically devised functional immunization screening assay. In particular, the invention relates to antigenic polypeptides of malaria parasites wherein said antigenic polypeptides that exhibit a protective effect, especially that of eliciting a protective immune response in a host against challenge by Plasmodium sporozoites. The invention relates to a combination of compounds, comprising at least 2 distinct active ingredients wherein each active ingredient consists of an antigenic polypeptide of a Plasmodium parasite, a polynucleotide encoding the antigenic polypeptide, or a vector, in particular a viral vector, especially a lentiviral vector, expressing such antigenic polypeptide of a Plasmodium parasite, wherein one antigenic polypeptide is the circumsporozoite protein (CSP) or a polypeptidic derivative thereof and another antigenic polypeptide is either protein Ag40 (11-09) or protein Ag45 (11-10).

The invention relates to Plasmodium antigenic polypeptides identified through the use of a specifically devised functional immunization screening assay. In particular, the invention relates to antigenic polypeptides of malaria parasites wherein said antigenic polypeptides that exhibit a protective effect, especially that of eliciting a protective immune response in a host against challenge by Plasmodium sporozoites. The invention relates to a combination of compounds, comprising at least 2 distinct active ingredients wherein each active ingredient consists of an antigenic polypeptide of a Plasmodium parasite, a polynucleotide encoding the antigenic polypeptide, or a vector, in particular a viral vector, especially a lentiviral vector, expressing such antigenic polypeptide of a Plasmodium parasite, wherein one antigenic polypeptide is the circumsporozoite protein (CSP) or a polypeptidic derivative thereof and another antigenic polypeptide is either protein Ag40 (11-09) or protein Ag45 (11-10).

The present invention relates to a method for recombinant production of a fusion protein comprising multiple malaria antigens for inducing immune responses comprising a combination of antibodies. In particular, the fusion proteins of the present invention comprise fragments of both Pfs230 and Pfs48/45 to lower the required threshold of functional antibodies and to reduce the risk of escape mutations. Thus, the fusion proteins of the present invention are suitable for use in a multivalent malaria vaccine.

The present invention relates to a method for recombinant production of a fusion protein comprising multiple malaria antigens for inducing immune responses comprising a combination of antibodies. In particular, the fusion proteins of the present invention comprise fragments of both Pfs230 and Pfs48/45 to lower the required threshold of functional antibodies and to reduce the risk of escape mutations. Thus, the fusion proteins of the present invention are suitable for use in a multivalent malaria vaccine.

Vaccine vectors and methods of using the vaccine vectors to enhance the immune response to an Apicomplexan parasite and reduce the morbidity or mortality associated with subsequent infection are provided herein. The vaccine vectors include a polynucleotide encoding a Rhomboid polypeptide and optionally include an immune-stimulatory polypeptide suitably expressed on the surface of the vaccine vector.

Vaccine vectors and methods of using the vaccine vectors to enhance the immune response to an Apicomplexan parasite and reduce the morbidity or mortality associated with subsequent infection are provided herein. The vaccine vectors include a polynucleotide encoding a Rhomboid polypeptide and optionally include an immune-stimulatory polypeptide suitably expressed on the surface of the vaccine vector.

The invention relates to pharmaceutical compositions comprising at least one antigen and an adjuvant composition, where the adjuvant composition comprises a saponin and a liposome. The liposome of the composition comprises monophosphoryl lipid A (MPLA), cholesterol and a phospholipid that is in a liquid crystalline state at greater than or equal to 23° C., and the concentration of cholesterol to lipid in the liposome is greater than 50% (mol/mol). The antigen in the composition is a soluble Plasmodium falciparum recombinant circumsporozoite protein (rCSP) comprising the amino acid sequence of SEQ ID NO:1, or a P. falciparum rCSP peptide that is at least 95% identical to the amino acid sequence of SEQ ID NO:1.

The disclosure relates to doubly attenuated malaria parasites that have had the functionality of LISP2 and PlasMei2 genes interrupted through genetic manipulation. The double attenuated malaria parasites disclosed herein are useful for methods and compositions for stimulating of vertebrate host immune systems because of the complete cessation of lifecycle progression in the late liver stage, while providing a comprehensive antigenic presentation representing wildtype liver stage parasites. The disclosure also relates to the additional blood stage and gametocyte antigens to compositions of genetically attenuated malaria parasites (GAPs) to enhance efficient immune stimulation and prevention of disease and transmission related to the presence of blood stage parasites.

The disclosure relates to doubly attenuated malaria parasites that have had the functionality of LISP2 and PlasMei2 genes interrupted through genetic manipulation. The double attenuated malaria parasites disclosed herein are useful for methods and compositions for stimulating of vertebrate host immune systems because of the complete cessation of lifecycle progression in the late liver stage, while providing a comprehensive antigenic presentation representing wildtype liver stage parasites. The disclosure also relates to the additional blood stage and gametocyte antigens to compositions of genetically attenuated malaria parasites (GAPs) to enhance efficient immune stimulation and prevention of disease and transmission related to the presence of blood stage parasites.