Abstract: Provided, herein, in certain embodiments are virus-like particles such as synthetic enveloped VLPs or synthetic membrane VLPs. In some embodiments, the VLPs comprise a lipid bilayer. In some embodiments, the VLPs comprise a purified antigen anchored to the lipid bilayer. Some embodiments relate to vaccines comprising the VLP, methods of using the vaccine, and methods of making the vaccine or VLP.

Abstract: Provided, herein, in certain embodiments are virus-like particles such as synthetic enveloped VLPs or synthetic membrane VLPs. In some embodiments, the VLPs comprise a lipid bilayer. In some embodiments, the VLPs comprise a purified antigen anchored to the lipid bilayer. Some embodiments relate to vaccines comprising the VLP, methods of using the vaccine, and methods of making the vaccine or VLP.

Abstract: Described herein, are microneedle devices comprising a recombinant alphavirus replicon encoding an exogenous polypeptide, wherein the recombinant alphavirus replicon is coated onto or embedded into a plurality of microneedles. Also described herein are methods of preparing a microneedle device comprising a recombinant alphavirus replicon encoding an exogenous polypeptide. Also disclosed herein are methods of inducing an immune response in an individual comprising contacting the individual with a microneedle device comprising a recombinant alphavirus replicon encoding an exogenous polypeptide.

Abstract: The present disclosure describes microtips, MicroArrays, MicroArray Patches comprising MicroArrays, delivery devices, and methods of manufacturing and methods of using same. In some embodiments, a substance-loaded MicroArray is prepared by photochemically etching MicroArray outlines in a substrate sheet, the MicroArrays comprising a plurality of microtips, configuring reservoirs in each microtip such as by photochemical half etching, filling each reservoir with a substance to be delivered, and then bending each of the microtips out of planarity such that each microtip comprises a substance-loaded projection disposed an angle relative to the generally planar substrate sheet.

Abstract: Described herein, are microneedle devices comprising a recombinant alphavirus replicon encoding an exogenous polypeptide, wherein the recombinant alphavirus replicon is coated onto or embedded into a plurality of microneedles. Also described herein are methods of preparing a microneedle device comprising a recombinant alphavirus replicon encoding an exogenous polypeptide. Also disclosed herein are methods of inducing an immune response in an individual comprising contacting the individual with a microneedle device comprising a recombinant alphavirus replicon encoding an exogenous polypeptide.

Abstract: Described herein, are microneedle devices comprising a recombinant alphavirus replicon encoding an exogenous polypeptide, wherein the recombinant alphavirus replicon is coated onto or embedded into a plurality of microneedles. Also described herein are methods of preparing a microneedle device comprising a recombinant alphavirus replicon encoding an exogenous polypeptide. Also disclosed herein are methods of inducing an immune response in an individual comprising contacting the individual with a microneedle device comprising a recombinant alphavirus replicon encoding an exogenous polypeptide.

Abstract: Described herein, are microneedle devices comprising a recombinant alphavirus replicon encoding an exogenous polypeptide, wherein the recombinant alphavirus replicon is coated onto or embedded into a plurality of microneedles. Also described herein are methods of preparing a microneedle device comprising a recombinant alphavirus replicon encoding an exogenous polypeptide. Also disclosed herein are methods of inducing an immune response in an individual comprising contacting the individual with a microneedle device comprising a recombinant alphavirus replicon encoding an exogenous polypeptide.

Abstract: The present invention provides adenoviral vectors comprising cell status-specific transcriptional regulatory elements which confer cell status-specific transcriptional regulation on an adenoviral gene. A “cell status” is generally a reversible physiological and/or environmental state. The invention further provides compositions and host cells comprising the vectors, as well as methods of using the vectors.

Abstract: Replication-competent adenovirus vectors specific for cells which allow a probasin transcriptional response element (PB-TRE) to function, such as cells which express the androgen receptor (AR), and methods of use of such viruses are provided. These viruses comprise an adenoviral gene under control of a transcriptional regulatory portion of a PB-TRE, which is in turn dependent upon AR expression. The gene can be, for example, a gene required for viral replication or the adenovirus death protein gene (ADP). The viruses can also comprise at least one additional adenoviral gene under control of at least one additional prostate-specific transcriptional response element, such as that controlling prostate-specific antigen expression (PSA-TRE). Thus, virus replication can be restricted to target cells exhibiting prostate-specific gene expression, particularly prostate carcinoma cells.

Abstract: The present invention provides adenoviral vectors comprising cell status-specific transcriptional regulatory elements which confer cell status-specific transcriptional regulation on an adenoviral gene. A “cell status” is generally a reversible physiological and/or environmental state. The invention further provides compositions and host cells comprising the vectors, as well as methods of using the vectors.

Abstract: The present invention provides adenoviral vectors comprising cell status-specific transcriptional regulatory elements which confer cell status-specific transcriptional regulation on an adenoviral gene. A “cell status” is generally a reversible physiological and/or environmental state. The invention further provides compositions and host cells comprising the vectors, as well as methods of using the vectors.

Abstract: The invention provides methods of treating neoplasia using combinations of target cell-specific replication competent adenoviral vectors and chemotherapy, radiation therapy or combinations thereof. The adenoviral vectors are target cell-specific for the particular type of neoplasia for which treatment is necessary and the combination with the chemotherapy and/or radiation leads to synergistic treatment over existing adenoviral therapy or traditional chemotherapy and radiation therapy.

Abstract: The present invention provides adenoviral vectors comprising cell status-specific transcriptional regulatory elements which confer cell status-specific transcriptional regulation on an adenoviral gene. A “cell status” is generally a reversible physiological and/or environmental state. The invention further provides compositions and host cells comprising the vectors, as well as methods of using the vectors.

Abstract: The present invention provides adenoviral vectors comprising cell status-specific transcriptional regulatory elements which confer cell status-specific transcriptional regulation on an adenoviral gene. A “cell status” is generally a reversible physiological and/or environmental state. The invention further provides compositions and host cells comprising the vectors, as well as methods of using the vectors.

Abstract: Replication-competent adenovirus vectors specific for cells which allow a probasin transcriptional response element (PB-TRE) to function, such as cells which express the androgen receptor (AR), and methods of use of such viruses are provided. These viruses comprise an adenoviral gene under control of a transcriptional regulatory portion of a PB-TRE, which is in turn dependent upon AR expression. The gene can be, for example, a gene required for viral replication or the adenovirus death protein gene (ADP). The viruses can also comprise at least one additional adenoviral gene under control of at least one additional prostate-specific transcriptional response element, such as that controlling prostate-specific antigen expression (PSA-TRE). Thus, virus replication can be restricted to target cells exhibiting prostate-specific gene expression, particularly prostate carcinoma cells.

Abstract: The invention provides methods of treating neoplasia using combinations of target cell-specific replication competent adenoviral vectors and chemotherapy, radiation therapy or combinations thereof. The adenoviral vectors are target cell-specific for the particular type of neoplasia for which treatment is necessary and the combination with the chemotherapy and/or radiation leads to synergistic treatment over existing adenoviral therapy or traditional chemotherapy and radiation therapy.

Abstract: Replication competent adenoviral vectors specific for cells expressing alfa-fetoprotein (AFP) are provided. These replication-competetent adenoviral vectors comprise adenovirus genes essential for replication under the transcriptional control of an AFP-transcriptional regulatory element.

Abstract: Compositions comprising host cell specific adenovirus vehicles are provided for transfecting target host cells. The compositions comprise replication competent adenovirus having an adenovirus gene essential for replication under transcriptional control of a cell type specific transcriptional response element (TRE) and polyethylene glycol (PEG) as a masking agent.

Abstract: The invention provides adenoviral vectors (preferably replication competent) comprising both an E3 sequence and at least one adenoviral gene under transcriptional control of a target cell-specific transcriptional response element. These vectors display significantly improved cytotoxicity, which is especially useful in the cancer context, in which selective destruction of target cells is desirable. The invention further provides host cells comprising the vectors. The invention further provides methods of using the adenoviral vectors.

Abstract: The present invention provides adenoviral vectors comprising cell status-specific transcriptional regulatory elements which confer cell status-specific transcriptional regulation on an adenoviral gene. A “cell status” is generally a reversible physiological and/or environmental state. The invention further provides compositions and host cells comprising the vectors, as well as methods of using the vectors.