Producing adenovirus gene therapy vector in producer cells that express or over-express adenoviral polypeptide IX enables one to produce pIX-deleted adenovirus in suspension cell culture. Using producer cells that express or over-express adenoviral polypeptide IX also increases the yield of adenovirus vector, regardless of whether that adenovirus is pIX-deleted. Using producer cells that express or over-express adenoviral polypeptide IX also improves the resulting vector's transduction kinetics, reducing the number of pfu/target cell required to achieve a given level of transduction/infection, shortening the time the vector requires to transduce or infect a target cell, and shortening the time an infected target cell produces progeny virus.

Disclosed in the present application are: a method for preparing in vitro/ex vivo antigen-specific cytotoxic T-cells by using B cells treated with biological response modifier; and a use thereof. The cytotoxic T-cells prepared by the method of the present application can be used advantageously for treating infectious disease and cancer and the like.

The present invention relates to methods and compositions for use in inducing tumor-specific antibody mediated complement-dependent cytotoxic response in an animal having a tumor comprising administering to said animal a composition comprising a replication competent oncolytic virus wherein administration of the composition induces in the animal production of antibodies that mediate a CDC response specific to said tumor.

The present invention relates to a method for preparing viral vector-based compositions wherein the viral vector-based particles present in the composition have a particle size distribution with a polydispersity index (PDI) of less than 0.5, the method comprising the steps: (a) providing replication-deficient viral vectors; (b) providing a solution comprising at least one sugar and at least three different excipients selected from hydrophilic and amphiphilic excipients, wherein the excipients are characterized by polar, aliphatic, aromatic, negatively charged, and/or positively charged functional groups, and wherein the solution is further characterized by an excipient-sugar ratio of at least 1:2 (w/w); and (c) mixing the replication deficient viral vectors of step (a) with the solution of step (b). The present invention further relates to a viral vector-based composition obtainable by the method of the invention as well as to the viral vector-based composition of the invention for use as a prime-boost vaccine.

This disclosure provides pharmaceutical adenovirus formulations, in particular, liquid pharmaceutical formulations comprising adenoviruses.

Provided are means and methods for generating safe immune responses in humans against multiple clades of human immunodeficiency virus (HIV). The observed immune responses were improved over earlier reported immune responses in clinical trials.

The present disclosure provides an immunogenic composition comprising: a) a hepatitis C virus (HCV) heterodimeric polypeptide that includes HCV E1 and E2 polypeptides; b) a T-cell epitope polypeptide comprising a T-cell epitope present in an HCV protein other than E1 and E2; and c) a pharmaceutically acceptable excipient. The present disclosure provides a method of inducing an immune response, in an individual, to an HCV polypeptide. The present disclosure provides an immunogenic composition comprising: a) a polypeptide that comprises one or more T-cell epitopes present in an HCV protein other than E1 and E2; and b) a pharmaceutically acceptable excipient.

The present invention shows that intranasal administration of E1/E3-defective adenovirus particles may confer rapid and broad protection against viral and bacterial pathogens in a variety of disease settings. Protective responses lasted for many weeks in a single-dose regimen in animal models. When a pathogen-derived antigen gene was inserted into the E1/E3-defective adenovirus genome, the antigen-induced protective immunity against the specific pathogen was elicited before the adenovirus-mediated protective response declined away, thus conferring rapid, prolonged, and seamless protection against pathogens. In addition to E1/E3-defective adenovirus, other bioengineered non-replicating vectors encoding pathogen-derived antigens may also be developed into a new generation of rapid and prolonged immunologic-therapeutic (RAPIT).

An in vitro expansion process for rapid expansion of antigen specific T cells, such as allogeneic antigen specific T cells comprising the steps culturing in a gas permeable vessel a population of PBMCs (such as allogeneic PBMCs) in the presence of antigen, for example a peptide or peptide mix relevant to a target antigen(s), in the presence of an exogenous cytokine characterized in that the expansion to provide the desired population of T cells is 14 days or less, for example 9, 10, 11 or 12 days, such as 10 days. The disclosure also extends to T cell populations generated by and obtained from the method and the use of same in therapy.

The present invention encompasses FMDV vaccines or compositions. The invention encompasses recombinant vectors encoding and expressing FMDV antigens, epitopes or immunogens which can be used to protect animals, in particular ovines, bovines, caprines, or swines, against FMDV.