The invention provides methods of treating a cancer in a subject, comprising administering to the subject a combination of (a) an anti-neoplastic agent and (b) an agent that induces iron-dependent cellular disassembly, thereby treating the cancer in the subject. In some embodiments, the cancer is resistant to the anti-neoplastic agent.

Methods for treating bestrophinopathies are provided herein. The method includes, administering to an eye of the subject a dose of a recombinant adeno-associated virus (rAAV) vector comprising a nucleic acid sequence encoding a human BEST1 protein, wherein the subject has two mutant BEST1 alleles. Also provided are methods for evaluating treatments for retinal degeneration.

The present invention relates to nucleic acid constructs capable of encoding antigenic peptides or polypeptides derived from multiple Human Papilloma Virus (HPV) early proteins, and to immunogenic compositions comprising such nucleic acid constructs and a pharmaceutically acceptable carrier. Such nucleic acid constructs and immunogenic compositions are useful in the treatment of persistent HPV infection and low-grade HPV lesions, particularly infections and lesions of human anogenital epithelial tissue, such as cervical epithelia.

The present invention relates to nucleic acid constructs capable of encoding antigenic peptides or polypeptides derived from multiple Human Papilloma Virus (HPV) early proteins, and to immunogenic compositions comprising such nucleic acid constructs and a pharmaceutically acceptable carrier. Such nucleic acid constructs and immunogenic compositions are useful in the treatment of persistent HPV infection and low-grade HPV lesions, particularly infections and lesions of human anogenital epithelial tissue, such as cervical epithelia.

Compounds, compositions, and methods for use in inhibiting the E3 enzyme Cbl-b in the ubiquitin proteasome pathway are disclosed. The compounds, compositions, and methods can be used to modulate the immune system, to treat diseases amenable to immune system modulation, and for treatment of cells in vivo, in vitro, or ex vivo. Also disclosed are pharmaceutical compositions comprising a Cbl-b inhibitor and a cancer vaccine, as well as methods for treating cancer using a Cbl-b inhibitor and a cancer vaccine; and pharmaceutical compositions comprising a Cbl-b inhibitor and an oncolytic virus, as well as methods for treating cancer using a Cbl-b inhibitor and an oncolytic virus.

Compounds, compositions, and methods for use in inhibiting the E3 enzyme Cbl-b in the ubiquitin proteasome pathway are disclosed. The compounds, compositions, and methods can be used to modulate the immune system, to treat diseases amenable to immune system modulation, and for treatment of cells in vivo, in vitro, or ex vivo. Also disclosed are pharmaceutical compositions comprising a Cbl-b inhibitor and a cancer vaccine, as well as methods for treating cancer using a Cbl-b inhibitor and a cancer vaccine; and pharmaceutical compositions comprising a Cbl-b inhibitor and an oncolytic virus, as well as methods for treating cancer using a Cbl-b inhibitor and an oncolytic virus.

The presently disclosed subject matter provides compositions, methods, and kits for transfecting adipose-derived mesenchymal stem cells (AMSCs) in freshly extracted adipose tissue using nanoparticles comprising biodegradable polymers self-assembled with nucleic acid molecules. The presently disclosed subject matter also provides methods for treating a neurological disease in a patient in need thereof, the method comprising administering the AMSCs transfected with the nucleic acid molecules to the patient, wherein the nucleic acid molecules encode one or more bioactive molecules functional in the treatment of a neurological disease, particularly wherein the neurological disease is a brain tumor.

The presently disclosed subject matter provides compositions, methods, and kits for transfecting adipose-derived mesenchymal stem cells (AMSCs) in freshly extracted adipose tissue using nanoparticles comprising biodegradable polymers self-assembled with nucleic acid molecules. The presently disclosed subject matter also provides methods for treating a neurological disease in a patient in need thereof, the method comprising administering the AMSCs transfected with the nucleic acid molecules to the patient, wherein the nucleic acid molecules encode one or more bioactive molecules functional in the treatment of a neurological disease, particularly wherein the neurological disease is a brain tumor.

Some embodiments of the present disclosure are directed to methods that include delivering to a subject a nucleic acid encoding an antigen, wherein the nucleic acid is delivered via a tumor-selective vehicle or via intratumoral injection, and delivering to the subject an immune cell expressing a receptor that binds to the antigen.

Some embodiments of the present disclosure are directed to methods that include delivering to a subject a nucleic acid encoding an antigen, wherein the nucleic acid is delivered via a tumor-selective vehicle or via intratumoral injection, and delivering to the subject an immune cell expressing a receptor that binds to the antigen.