Provided herein are methods for enhancing infection, growth, spread, or titer of an oncolytic RNA virus in a cancer or tumor cell; enhancing the oncolytic activity, cytokine-induced cell death activity, and/or cytotoxic activity of an oncolytic RNA virus in a cancer or tumor cell; upregulating cytokine response to, and/or enhancing the immunotherapeutic activity of an oncolytic RNA virus in a cancer or tumor cell; and/or treating a tumor or cancer in a subject in need thereof. Such methods employ a vanadium-containing compound, administered to the cancer or tumor cells before, after, or concurrently with infection of the cancer or tumor cells with the oncolytic RNA virus. Related compositions, uses, and kits therefor are also provided. Methods for producing RNA viruses, RNA virus-based cancer vaccines, and RNA virus-based cancer gene therapy vectors are also provided.

Provided herein are methods for enhancing infection, growth, spread, or titer of an oncolytic RNA virus in a cancer or tumor cell; enhancing the oncolytic activity, cytokine-induced cell death activity, and/or cytotoxic activity of an oncolytic RNA virus in a cancer or tumor cell; upregulating cytokine response to, and/or enhancing the immunotherapeutic activity of an oncolytic RNA virus in a cancer or tumor cell; and/or treating a tumor or cancer in a subject in need thereof. Such methods employ a vanadium-containing compound, administered to the cancer or tumor cells before, after, or concurrently with infection of the cancer or tumor cells with the oncolytic RNA virus. Related compositions, uses, and kits therefor are also provided. Methods for producing RNA viruses, RNA virus-based cancer vaccines, and RNA virus-based cancer gene therapy vectors are also provided.

Provided herein are DNA aptamers targeting AXL receptor kinase. The DNA aptamers may comprise a thiophosphate backbone and be chemically modified. Further provided herein are methods of use thereof for the treatment of a disease or disorder, such as cancer.

Provided herein are DNA aptamers targeting AXL receptor kinase. The DNA aptamers may comprise a thiophosphate backbone and be chemically modified. Further provided herein are methods of use thereof for the treatment of a disease or disorder, such as cancer.

Provided herein are DNA aptamers targeting AXL receptor kinase. The DNA aptamers may comprise a thiophosphate backbone and be chemically modified. Further provided herein are methods of use thereof for the treatment of a disease or disorder, such as cancer.

An antitumor formulation comprising a biphenyl compound having LSD1 inhibitory activity or a salt thereof and one or more other antitumor agents that are administered in combination, the compound being represented by Formula (I): ##STR00001##
wherein ring A, ring B, R1 to R6, l, m, and n are as defined in the specification.

An antitumor formulation comprising a biphenyl compound having LSD1 inhibitory activity or a salt thereof and one or more other antitumor agents that are administered in combination, the compound being represented by Formula (I): ##STR00001##
wherein ring A, ring B, R1 to R6, l, m, and n are as defined in the specification.

An antitumor formulation comprising a biphenyl compound having LSD1 inhibitory activity or a salt thereof and one or more other antitumor agents that are administered in combination, the compound being represented by Formula (I): ##STR00001##
wherein ring A, ring B, R1 to R6, l, m, and n are as defined in the specification.

Provided herein are nanoparticle-lipid composite carriers as theranostic agents, particularly for diagnosis and/or treatment of cancers and related diseases and conditions. In particular embodiments, the carrier composites comprise a lipid core and an outer shell of functionalized nanoparticles (fNPs).

Provided herein are nanoparticle-lipid composite carriers as theranostic agents, particularly for diagnosis and/or treatment of cancers and related diseases and conditions. In particular embodiments, the carrier composites comprise a lipid core and an outer shell of functionalized nanoparticles (fNPs).