The present invention discloses a process for manufacturing a formulation comprising a drug substance, said drug substance comprising a recombinant Listeria comprising a human papilloma virus (HPV) antigen fused to a Listeriolysin O (LLO) protein fragment. The invention further discloses methods of using treating, protecting against, and inducing an immune response against cervical cancer comprising administration of the recombinant Listeria strain. The present invention also provides methods for inducing an anti-E7 CTL response in a human subject and treating HPV-mediated diseases, disorders, and symptoms, comprising administration of the recombinant Listeria strain.

The present invention relates generally to non-integrating viral delivery system and methods of using the same. The viral delivery systems includes a viral carrier, a heterologous viral episomal origin of replication, a sequence encoding at least one initiator protein specific for the heterologous viral episomal origin of replication, and at least one gene, shRNA, siRNA, miRNA, or other gene-silencing RNA of interest. In certain embodiments, the disclosed system can be used for gene therapy.

The present invention relates to the field of vaccines. In particular, the present invention provides compositions and methods relating to virus-like particle (VLP) vaccines. In one embodiment, a chimeric papillomavirus virus-like particle (VLP) comprises the L1 protein, wherein the HI loop of the L1 protein comprises negatively charged amino acids. In a more specific embodiment, a chimeric bovine papillomavirus VLP comprises the L1 protein, wherein the amino acid sequence EEEEEEEEC is inserted into the HI loop of the L1 protein.

GLP-2 analogues are disclosed which comprise one of more substitutions as compared to [hGly2]GLP-2 and which improved biological activity in vivo and/or improved chemical stability, e.g., as assessed in in vitro stability assays. More particularly, preferred GLP-2 analogues disclosed herein comprise substitutions at one or more of positions 8, 16, 24 and/or 28 of the wild-type GLP-2 sequence, optionally in combination with further substitutions at position 2 (as mentioned in the introduction) and one or more of positions 3, 5, 7, 10 and 11, and/or a deletion of one or more of amino acids 31 to 33 and/or the addition of a N-terminal or C-terminal stabilizing peptide sequence. The analogues are particularly useful for the prophylaxis or treatment of stomach and bowel-related disorders and for ameliorating side effects of chemotherapy. Also disclosed are methods and kits for selecting a patient from populations suited for treatment with GLP-2 analogues.

GLP-2 analogs are disclosed which comprise one of more substitutions as compared to [hGly2]GLP-2 and which improved biological activity in vivo and/or improved chemical stability, e.g., as assessed in in vitro stability assays. More particularly, preferred GLP-2 analogs disclosed herein comprise substitutions at one or more of positions 8, 16, 24 and/or 28 of the wild-type GLP-2 sequence, optionally in combination with further substitutions at position 2 (as mentioned in the introduction) and one or more of positions 3, 5, 7, 10 and 11, and/or a deletion of one or more of amino acids 31 to 33 and/or the addition of a N-terminal or C-terminal stabilizing peptide sequence. The analogs are particularly useful for the prophylaxis or treatment of stomach and bowel-related disorders and for ameliorating side effects of chemotherapy. Also disclosed are methods and kits for selecting a patient from populations suited for treatment with GLP-2 analogs.

The present invention relates to the field of vaccines. In particular, the present invention provides compositions and methods relating to virus-like particle (VLP) vaccines. In one embodiment, a chimeric papillomavirus virus-like particle (VLP) comprises the L1 protein, wherein the HI loop of the L1 protein comprises negatively charged amino acids. In a more specific embodiment, a chimeric bovine papillomavirus VLP comprises the L1 protein, wherein the amino acid sequence EEEEEEEEC is inserted into the HI loop of the L1 protein.

GLP-2 analogues are disclosed which comprise one of more substitutions as compared to [hGly2]GLP-2 and which improved biological activity in vivo and/or improved chemical stability, e.g., as assessed in in vitro stability assays. More particularly, preferred GLP-2 analogues disclosed herein comprise substitutions at one or more of positions 8, 16, 24 and/or 28 of the wild-type GLP-2 sequence, optionally in combination with further substitutions at position 2 (as mentioned in the introduction) and one or more of positions 3, 5, 7, 10 and 11, and/or a deletion of one or more of amino acids 31 to 33 and/or the addition of a N-terminal or C-terminal stabilizing peptide sequence. The analogues are particularly useful for the prophylaxis or treatment of stomach and bowel-related disorders and for ameliorating side effects of chemotherapy. Also disclosed are methods and kits for selecting a patient from populations suited for treatment with GLP-2 analogues.

The present invention is in the field of viral immunotherapy. The invention provides new pseudocowpox (PCPV) viruses, in particular recombinant PCPV, composition thereof as well as their therapeutic use for preventing or treating diseases, and, notably, proliferative diseases like cancers and restenosis and infectious diseases such as chronic ones. The present invention also provides methods for generating and amplifying such a PCPV and a method for eliciting or stimulating and/or re-orienting an immune response using such a PCPV. More specifically, the invention provides an alternative to the existing poxvirus vectors such as MVA (Modified Virus Ankara) and may be largely used for the therapeutic vaccination.