The present invention relates to the field of disease therapy. More specifically, it relates to a retargeted herpesvirus having a heterologous polypeptide fused to glycoprotein H, wherein the polypeptide targets diseased cells. It also relates to a nucleic acid comprising the genome of the herpesvirus of the invention, a vector comprising this nucleic acid and a cell comprising the nucleic acid or the vector. It further relates to killing cells using the herpesvirus of the invention and to methods for growing it in vitro.

Malignant tumors that are resistant to conventional therapies represent significant therapeutic challenges. An embodiment of the present invention provides a new generation regulatable fusogenic oncolytic herpes simplex virus-1 that is more effective at selective killing target cells, such as tumor cells. In various embodiments presented herein, the oncolytic virus described herein is suitable for treatment of solid tumors, as well as other cancers.

Provided herein, inter alia, are compositions and methods including recombinant oncolytic viruses expressing CD47 antibody for the treatment of diseases including cancer, immune disorders, and infectious disease.

Provided are methods of making and delivering vaccine compositions using an enucleated cell-based platform. Methods of clearing pathogenic infections in a subject using the enucleated cell-based platform is also provided. Such enucleated cell-based platform reduces the vaccine development timeline as compared with conventional biological vaccines, and improves vaccine efficacy.

The present invention relates to oncolytic virus comprising: (i) a GM-CSF-encoding gene; and (ii) an immune co-stimulatory pathway activating molecule or an immune co-stimulatory pathway activating molecule-encoding gene.

Malignant tumors that are resistant to conventional therapies represent significant therapeutic challenges. An embodiment of the present invention provides a codon optimized new generation regulatable fusogenic oncolytic herpes simplex virus-1 that is more effective at selective killing target cells, such as tumor cells. In various embodiments presented herein, the oncolytic virus described herein is suitable for treatment of solid tumors, as well as other cancers.

The present disclosure provides dual viruses capable of producing a primary virus and a secondary virus, and dual oncolytic viruses capable of producing a primary oncolytic virus and a secondary oncolytic virus.

Disclosed is a process of making a nanoparticle comprising an inner core comprising a virus and an outer surface comprising a cellular membrane derived from a cell via extrusion.

A monocyte, monocyte derived cell or macrophage infected with an oncolytic herpes simplex virus is disclosed together with uses of such infected cells in the treatment of diseases such as cancer.

Oncolytic viral vectors that incorporate one or more of the following features: viral replication restriction by insertion of 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. Such viral vectors can be used for the treatment and prevention of cancer.