The present disclosure provides a virus composition. The efficacy of a variety of virus compositions loaded with different functional genes was detected, and several virus compositions with excellent antitumor effect were confirmed.

The invention relates to the field of virology and tumor therapy. In particular, the present invention provides a recombinant herpes simplex virus (HSV) capable of specifically replicating at a high level in a tumor cell and effectively killing the tumor cell, but replicating at low levels in normal cells, thereby the recombinant herpes simplex virus of the present invention not only has high lethality against tumor cells, but also has significantly decreased side effects (especially neurotoxicity). Further, the present invention relates to a viral vector constructed based on the recombinant herpes simplex virus, a pharmaceutical composition comprising the recombinant herpes simplex virus or the viral vector, and the use of the recombinant herpes simplex virus or the viral vector. The recombinant herpes simplex virus of the present invention can be used to infect and kill tumor cells, and can be used for gene drug delivery into tumor cells for gene therapy.

The present disclosure provides a bispecific single-chain antibody, recombinant oncolytic virus for expressing same and virus composition. The antibody named BiTEs-PD-L1 is a bispecific antibody capable of simultaneously binding CD3 and PD-L1 on the surfaces of tumor cells, and it can effectively activate T cells and guide T cells to kill tumor cells. The oncolytic virus oHSV2-BiTEs-PD-L1 is further developed by utilizing the BiTEs-PD-L1, it can reduce frequency and dosage of the administration. The present disclosure also confirmed several virus compositions with excellent antitumor effect.

A modified Herpes Simplex Virus (HSV), which has a portion of gD (glycoprotein D) of the glycoproteic envelope deleted and a heterologous single chain antibody inserted in place of such deleted portion; the modified HSV is capable of infecting cells through receptor HER2/ErbB2 but not through receptors HVEM/HveA and nectin1/HveC; uses of the modified HSV and a process of the preparation thereof are also disclosed.

The present invention relates to an oncolytic virus comprising: (i) a fusogenic protein-encoding gene; and (ii) an immune stimulatory molecule-encoding gene.

Proposed are a recombinant herpes simplex virus having a modified glycoprotein gH for retargeting and the use thereof. Particularly, the recombinant herpes simplex virus is capable of infecting a target cell having a target molecule to which a cell-targeting domain specifically recognizes and binds due to the presence of the cell-targeting domain in the glycoprotein gH thereof, and is thus useful for anticancer therapy or gene therapy.

The present disclosure relates to recombinant viral vectors for the treatment and prevention of cancer. Oncolytic viral vectors incorporate one or more of the following features: viral replication restriction by insertion of tumor-suppressive microRNA (miRNA) target sequences into the viral genome; disruption of oncogenic miRNA function; cancer microenvironment remodeling; and cancer cell targeting by incorporation of protease-activated antibodies into the viral particle.

A method of treating cancer in a subject is disclosed, the method comprising administration of an oncolytic herpes simplex virus and administration of lymphocyte cells modified to express a chimeric antigen receptor (CAR) or modified to express a T cell receptor (TCR).

Modified and improved oncolytic viruses (and methods of use thereof) are disclosed. More particularly, modified and oncolytic human herpesviruses (and methods of use thereof) are disclosed, which include a modified amino acid sequence that includes a deletion in a region that represents the amino terminus of glycoprotein K. The modified and oncolytic human herpesviruses include a deletion of amino acid residues 31-68, relative to the wild type amino acid sequence of glycoprotein K in human herpesviruses. Isolated vector constructs that encode such oncolytic viruses are also disclosed. In addition, methods for using such oncolytic viruses to treat cancers are disclosed.

It is an object of the present invention to develop a virus preparation comprising an oncolytic HSV having, in vivo, more effective cancer cell-killing activity than the antitumor effects of existing oncolytic HSVs. Specifically, the present invention relates to a virus preparation for the treatment of a cancer, comprising an HSV (herpes simplex virus) having a receptor-retargeted gD mutation and at least one membrane fusion activity-promoting region on the genome, and a method for treating cancer using the aforementioned virus preparation.