The present invention claims an isolated nucleotide sequence characterized by encoding the PFR1 protein of Leishmania infantum or a fragment thereof. This PFR1 protein or a fragment thereof comprises at least a selected immunodominant epitope between the following group: SEQ ID No: 1, SEQ ID No: 2, SEQ ID No: 3, SEQ ID No: 4, SEQ ID No: 5, SEQ ID No: 6, SEQ ID No: 7 and SEQ ID No: 8, where the immunodominant epitope is able to induce an antigen-specific T cell cytotoxic immune response in an animal, against the kinetoplastids causing the leishmaniasis disease. The immunodominant epitopes are cytotoxic T-lymphocyte activators and they present a high binding affinity for A2 type MHC Class I molecule.

The present invention relates to a method for the preparation of an immunogenic lysate from mesothelioma tumor cells, to such a lysate and to dendritic cells loaded with the lysate, the present invention further relates a pharmaceutical composition comprising such lysate or dendritic cells, to the use of the lysate, and to said loaded dendritic cells or said pharmaceutical composition for use in the prevention or treatment of mesothelioma.

The invention is relate with a pharmaceutical composition comprising peptide type APL called identified as SEQ ID No. 1, sodium acetate buffer at pH 3.9-4.7; and at least one stabilizing sugar selected from sucrose or trehalose. This pharmaceutical composition is useful for manufacture of a medicament for treating inflammatory diseases related to an increase of neutrophils or citrullination of proteins. These inflammatory diseases include rheumatoid arthritis (RA), juvenile idiopathic arthritis (JIA), ankylosing spondylitis (AS), Alzheimer's disease, and hepatic and pulmonary fibrosis. The invention also discloses a method for the treatment of these diseases, through effective therapeutic administration of the pharmaceutical composition of APL-type peptide.

The invention relates to composite antigens comprising a peptide with contiguous amino acid sequence derived from a plurality of antigenic epitopes of one or more pathogens that induces an immune response in a mammal that is protective against infection by the one or more pathogens. In addition, the invention relates to vaccines comprising composite antigens and to method for treating and preventing an infection.

The present disclosure relates to a combination therapy comprising a therapeutic vaccine and a recombinant vaccinia virus for treating HPV-associated diseases. The present disclosure further relates to a method of administration of a combination therapy comprising a therapeutic vaccine and a recombinant vaccinia virus for treating HPV associated diseases.

The invention relates to composite antigens comprising a peptide with contiguous amino acid sequence derived from a plurality of antigenic epitopes of one or more pathogens that induces an immune response in a mammal that is protective against infection by the one or more pathogens. In addition, the invention relates to vaccines comprising composite antigens and to method for treating and preventing an infection.

Novel nucleic acid vectors comprising sequences encoding (a) an antigen, (b) a signal peptide, and (c) a heat shock protein, are disclosed, as are methods for using such vectors to induce antigen-specific immune responses and to treat tumors.

The present invention relates to a method for the preparation of an immunogenic lysate from mesothelioma tumor cells, to such a lysate and to dendritic cells loaded with the lysate, the present invention further relates a pharmaceutical composition comprising such lysate or dendritic cells, to the use of the lysate, and to said loaded dendritic cells or said pharmaceutical composition for use in the prevention or treatment of mesothelioma.

The present invention claims an isolated nucleotide sequence characterized by encoding the PFR1 protein of Leishmania infantum or a fragment thereof. This PFR1 protein or a fragment thereof comprises at least a selected immunodominant epitope between the following group: SEQ ID No: 1, SEQ ID No: 2, SEQ ID No: 3, SEQ ID No: 4, SEQ ID No: 5, SEQ ID No: 6, SEQ ID No: 7 and SEQ ID No: 8, where the immunodominant epitope is able to induce an antigen-specific T cell cytotoxic immune response in an animal, against the kinetoplastids causing the leishmaniasis disease. The immunodominant epitopes are cytotoxic T-lymphocyte activators and they present a high binding affinity for A2 type MHC Class I molecule.

Anti-peptide antibodies (APAs) are extremely important tools for biomedical research. Many important techniques, such as immunoblots, ELISA immunoassays, immunocytochemistry, and protein microarrays are intrinsically linked to APA function and completely dependent on APA quality. Unfortunately, not all commercially-available APAs have good antigen binding characteristics; as a result, researchers are often unable to perform high quality protein analysis experiments. This disclosure describes a new method for the scalable production of polyclonal APAs using recombinant antigens. These recombinant peptide antigens have several advantages over traditional peptide antigens which improve the ease and speed of antibody production. The recombinant antigens can be scalably produced and purified much faster than traditional synthetic peptide-conjugates. These recombinant antigen-carriers are designed to specifically aggregate in vivo after administration into the host; this aggregation greatly enhances immunogenicity and may eliminate the need for the use of chemical adjuvants which cause physical irritation and discomfort to the host.