The present invention relates to an oncolytic virus and the use thereof, specifically, an oncolytic virus having suppressed thymidine kinase (TK) gene expression and comprising genes encoding granulocyte-macrophage colony-stimulating factor (GM-CSF) and a complement regulatory protein; and the use of such an oncolytic virus. The oncolytic virus of the present invention maintains its efficacy even when administered intravenously, and thus, it may also be applied to the treatment of various solid cancers and metastatic cancers in addition to superficial solid cancers. In addition, the oncolytic virus of the present invention acquires resistance to complement attack by expressing a complement regulatory protein on the surface of the virus, and thus, it is stable in the blood, and it maintains stable oncolytic activity when intravenous injection, and thus, it may reduce effective viral dosage to minimize the side effects of anti-cancer drugs.

This disclosure relates to modified viruses, e.g., oncolytic vaccinia viruses, which have been modified to contain an exogenous nucleic acid that expresses a protein that modulates STAT3 activity. It is based, at least in part, on the discovery that vaccinia viruses modified to contain nucleic acid encoding PIAS3 and that express PIAS3 or a fragment thereof can inhibit STAT3 activity and enhance the anti-cancer activity of the vaccinia virus. Accordingly, this disclosure provides for oncolytic vaccinia viruses and methods of using them in the treatment of cancers.

This disclosure relates to modified viruses, e.g., oncolytic vaccinia viruses, which have been modified to contain an exogenous nucleic acid that expresses a protein that modulates STAT3 activity. It is based, at least in part, on the discovery that vaccinia viruses modified to contain nucleic acid encoding PIAS3 and that express PIAS3 or a fragment thereof can inhibit STAT3 activity and enhance the anti-cancer activity of the vaccinia virus. Accordingly, this disclosure provides for oncolytic vaccinia viruses and methods of using them in the treatment of cancers.

This invention relates to soluble forms of G glycoprotein from Hendra and Nipah virus. In particular, this invention relates to compositions comprising soluble forms of G glycoprotein from Hendra and Nipah virus and also to diagnostic and therapeutic methods using the soluble forms of G glycoprotein from Hendra and Nipah virus. Further, the invention relates to therapeutic antibodies including neutralizing antibodies, and vaccines for the prevention and treatment of infection by Hendra and Nipah viruses.

This invention relates to soluble forms of G glycoprotein from Hendra and Nipah virus. In particular, this invention relates to compositions comprising soluble forms of G glycoprotein from Hendra and Nipah virus and also to diagnostic and therapeutic methods using the soluble forms of G glycoprotein from Hendra and Nipah virus. Further, the invention relates to therapeutic antibodies including neutralizing antibodies, and vaccines for the prevention and treatment of infection by Hendra and Nipah viruses.

Several embodiments of the present disclosure relate to glycotargeting therapeutics that are useful in the treatment of transplant rejection, autoimmune disease, food allergy, and immune response against a therapeutic agent. In several embodiments, the compositions are configured to target the liver and deliver antigens to which tolerance is desired. Methods and uses of the compositions for induction of immune tolerance are also disclosed herein.

This invention relates to soluble forms of G glycoprotein from Hendra and Nipah virus. In particular, this invention relates to compositions comprising soluble forms of G glycoprotein from Hendra and Nipah virus and also to diagnostic and therapeutic methods using the soluble forms of G glycoprotein from Hendra and Nipah virus. Further, the invention relates to therapeutic antibodies including neutralizing antibodies, and vaccines for the prevention and treatment of infection by Hendra and Nipah viruses.

This invention relates to soluble forms of G glycoprotein from Hendra and Nipah virus. In particular, this invention relates to compositions comprising soluble forms of G glycoprotein from Hendra and Nipah virus and also to diagnostic and therapeutic methods using the soluble forms of G glycoprotein from Hendra and Nipah virus. Further, the invention relates to therapeutic antibodies including neutralizing antibodies, and vaccines for the prevention and treatment of infection by Hendra and Nipah viruses.

Peptides for the treatment of inflammation, and therapeutic uses and methods of using the same are disclosed. Peptides including a transducing sequence are effective for inhibiting cytokine activity and TNF- secretion through interaction with toll-like receptors. Experiments are described illustrating the efficacy of the compounds in treating otitis media.

Peptides for the treatment of inflammation, and therapeutic uses and methods of using the same are disclosed. Peptides including a transducing sequence are effective for inhibiting cytokine activity and TNF- secretion through interaction with toll-like receptors. Experiments are described illustrating the efficacy of the compounds in treating otitis media.