Disclosed are compositions comprising an interferon-alpha binding protein and combined anti-retroviral therapy (cART). In some aspects, the interferon-alpha binding protein is B18R. In some aspects, the compositions further comprise a pharmaceutically acceptable carrier. Disclosed are methods of treating a subject with HIV associated neurogenerative disorder (HAND) comprising administering a therapeutically effective amount of B18R and cART. Disclosed are methods of reversing behavioral abnormalities in subjects having HAND comprising administering a therapeutically effective amount of B18R.

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 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.

Compositions, methods and uses of self-replicating RNA molecules that include a recombinant nucleic acid encoding a protein of interest such as a chimeric antigenic receptor or an antibody are presented. The self-replicating RNA molecule are introduced into an immune competent cell such that the chimeric antigenic receptor or the antibody are efficiently expressed in the immune competent cell while increasing the stability of the recombinant nucleic acid in the cell and reducing the potential integration of the recombinant nucleic acid into the genome of the immune competent cell.

Compositions, methods and uses of self-replicating RNA molecules that include a recombinant nucleic acid encoding a protein of interest such as a chimeric antigenic receptor or an antibody are presented. The self-replicating RNA molecule are introduced into an immune competent cell such that the chimeric antigenic receptor or the antibody are efficiently expressed in the immune competent cell while increasing the stability of the recombinant nucleic acid in the cell and reducing the potential integration of the recombinant nucleic acid into the genome of the immune competent cell.

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.

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 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.