Provided are a method for establishing a lentiviral vector system capable of directly reflecting type I interferon response, and applications thereof. The method for establishing the lentiviral vector system comprises: cutting a Gaussia luciferase at the position of amino acid 109, removing 16 amino acids from N-terminus, and cloning the two polypeptides into a lentiviral vector to form a lentiviral BiLC expression vector; and cloning a shuttle plasmid of pEntry-IRF3 or pEntry-IRF5 or pEntry-IRF7 by homologous recombination into the lentiviral BiLC expression vector, so as to construct a lentiviral vector IRF3-BiLC or IRF5-BiLC or IRF7-BiLC capable of directly reflecting type I interferon response.

Compositions and methods are provided for treating ocular disorders in a subject are provided. In one aspect, an adeno-associated viral vector is provided which includes a nucleic acid molecule comprising a sequence encoding CNGA3. In another aspect, an adeno-associated viral vector is provided which includes a nucleic acid molecule comprising a sequence encoding CNGB3. In another aspect, an adeno-associated viral vector is provided which includes a nucleic acid molecule comprising a sequence encoding REP-1. In desired embodiments, the subject is human, cat, dog, sheep, or non-human primate.

Aspects of the present disclosure provide synthetic promoters that are differentially modulated between certain diseased cells (e.g., cancer cells) and normal cells (e.g., non-cancer cells). These synthetic promoters are useful, for example, for targeted expression of therapeutic molecules in diseased cells.

The present invention comprises a method to diminish and/or eliminate atherosclerotic plaques, in mammals, through direct and indirect treatment of these plaques, in situ, using suitable substances which are capable of lipid removal, primarily through hydrolysis, either by a catalytic or stoichiometric process, wherein the substance targets receptors in and/or on the cell which lead to uptake into the lysosome. Such substances used to diminish and/or eliminate atherosclerotic plaques are generally comprised of lipid hydrolyzing proteins and/or polypeptides.

The present invention relates to improved constructs comprising the short and long Rod-Derived Cone Viability Factors and to methods for treating retinal degenerative diseases.

New gene therapy constructions and compositions are the subject of present invention. The gene therapy compositions consist in adeno-associated vectors which jointly express insulin (Ins) and glucokinase (Gck) genes. The new gene therapy constructions are useful for treatment of diabetes either in dosgs or human beings.

The disclosure relates to optimized polynucleotide sequences for LAMP-2B, expression cassettes, vectors, and methods of use thereof in treating disease, e.g. Danon disease.

The disclosure relates to optimized polynucleotide sequences for LAMP-2B, expression cassettes, vectors, and methods of use thereof in treating disease, e.g. Danon disease.

Compositions and methods are provided for treating ocular disorders in a subject are provided. In one aspect, an adeno-associated viral vector is provided which includes a nucleic acid molecule comprising a sequence encoding CNGA3. In another aspect, an adeno-associated viral vector is provided which includes a nucleic acid molecule comprising a sequence encoding CNGB3. In another aspect, an adeno-associated viral vector is provided which includes a nucleic acid molecule comprising a sequence encoding REP-1. In desired embodiments, the subject is human, cat, dog, sheep, or non-human primate.

Disclosed herein are recombinant baculoviruses suitable for introducing an exogenous gene into a pest insect, particularly, disease-transmitting mosquitos. The recombinant baculovirus is characterized in having a promotor that is any of a HzNV-1 viral early expressing gene pag1, a ceropin gene b1, a defensin gene a4, or hp70 gene; and an exogenous gene operably linked thereto the promoter. Also disclosed herein is a method of introducing an exogenous gene into a pest insect. The method includes transducing the pest insect with a recombinant baculovirus without suppressing the production of microRNAs (miRNAs) in the pest insect, wherein the recombinant baculovirus comprises a promoter of pag1, cecropin b1, defensin gene a, or hp70.