Disclosed are methods of producing poxvirus-based vectors or recombinant poxvirus-based vectors from naturally derived, chemically synthesized DNA fragments, or a combination of naturally derived and chemically synthesized DNA fragments. One or more DNA sequences encoding one or more antigens, subunits or fragments thereof or other heterologous gene sequences are inserted in one or more poxvirus insertion sites in one or more DNA fragments. The methods include transfecting a host cell with one or more circular or linear DNA fragments such that a poxvirus or recombinant poxvirus is reconstituted in the host cell, the reconstituted poxvirus or recombinant poxvirus comprising the genome of a desired poxvirus. Also disclosed are poxviruses or recombinant poxviruses produced by the technology and uses thereof.

The present invention relates to a method for mass-producing vaccinia virus using suspended cells. Although methods for producing vaccinia virus using adherent cells in the related art have limitations that are not suitable for mass production of viruses due to the characteristics of adherent cells, the present inventors have developed a technique capable of producing viruses even in a bioreactor using a low appropriate cell number, MOI, culture FBS concentration, and a medium while using suspended cells, and it was also confirmed that the present invention has high virus productivity similar to that in the case of using adherent cells. Accordingly, the technique of producing vaccinia virus using suspended cells according to the present invention enables mass production of vaccinia virus with high productivity. Since it is possible to reduce production costs and time, manpower, and the like using suspended cells, it is expected that the technique will be effectively used in clinical and commercial production fields that require mass production of vaccinia virus.

This present invention relates to a modified mammalian cell in which the genome of the cell is modified to comprise a sequence encoding CP77 under the control of a promoter such that the modified cell line sustains propagation of a poxvirus that is less able or unable to propagate in the unmodified cell.

The pesent invention relates to new insertion sites useful for the integration exogenous sequence into an intergenic region (IGR) of a vaccinia virus genome, where the IGR is located between or is flanked by two adjacent open reading frames (ORFs) of the vaccinia virus genome, and wherein the ORFs correspond to conserved genes, and to related plasmid vectors useful to insert exogenous DNA into the genome of a vaccinia virus, and further to recombinant vaccinia viruses comprising an exogenous sequence inserted into said new insertion site as a medicine or vaccine.

This present invention relates to a modified mammalian cell in which the genome of the cell is modified to comprise a sequence encoding CP77 under the control of a promoter such that the modified cell line sustains propagation of a poxvirus that is less able or unable to propagate in the unmodified cell.

The present invention has an object to provide a vaccinia virus expressing a foreign gene and capable of killing cancer cells, and a cancer therapy drug comprising the vaccinia virus. The present invention relates to a vaccinia virus, wherein a suicide gene as a foreign gene selected from the group consisting of cytosine deaminase (CD) gene, uracil phosphoribosyltransferase (UPRT) gene, and herpes simplex virus thymidine kinase (HSV-tk) gene is introduced.

The present invention relates to an oncolytic virus encoding a cytidine deaminase (CDAse) polypeptide, a composition comprising it, as well as their use for prophylactic or therapeutic purposes, and more particularly for the treatment of cancer. The present invention also provides a method for treating a disease or a pathologic condition comprising the administration of such an oncolytic virus or composition thereof and a process for preparing such an oncolytic virus.

Disclosed are means, methods, and compositions of matter useful for generation of viruses that selectively grow in the tumor endothelium and causes lysis or augmentation of tumor immunity. In one embodiment an oncolytic virus is selectively maintained in cells resembling tumor endothelium under conditions allowing for the oncolytic virus to capture immunogenic entities found on the cells resembling tumor endothelial cells. In another embodiment, the endothelial cells resembling tumor endothelial cells are utilized as a Trojan horse for selective delivery of virus into a tumor or tumor microenvironment.

A mammalian cell co-transfect with an expression plasmid comprising T7 promoter and an open reading frame (ORF) of target antigen, and a vT7 recombinant vaccinia virus expressing T7 polymerase. The entire antigen expressing cell is used as a carrier of the target antigen for preparing a vaccine or diagnostic agent, and screening monoclonal antibodies.

The present invention relates to a vaccine composition for preventing and/or treating a respiratory system infection such as a human metapneumovirus infection of the respiratory system. This vaccine composition comprises two or more modified human metapneumovirus (hMPV) F proteins or variants thereof provided in a pre-fusion and/or post-fusion conformation form.