An expression cassette for gene silencing and replacement, including, in operable communication, a promoter, an expression attenuator, a nucleotide sequence encoding a gene for a replacement target protein, and an shRNA sequence for knockdown of an endogenous variant of the target protein, wherein the promoter, the expression attenuator, the nucleotide sequence encoding the gene for the replacement target protein, and the shRNA are expressed as a single transcript. Also included are expression vectors and cells. Also included are methods of silencing and replacement of a target gene in a cell in culture by transforming the cells with the expression vectors described herein. Also included are minimal expression cassettes suitable for therapeutic methods.

A method of dosing multiple drugs for an individual patient, by collecting data from the individual patient including drugs to be taken by the patient and genetic testing information, analyzing the individual patient data in view of dosing criteria established based on outside patient data, and determining doses of multiple drugs for each drug taken by the individual patient. A logic engine for dosing multiple drugs, including an algorithm stored on non-transitory computer readable media for collecting outside data to establish criteria for dosing multiple drugs to an individual patient and storing the outside data and individual patient data in a database, analyzing the individual patient data in view of criteria established from the outside data, and determining a dose for each drug to be taken.

Vesicles, including exosomes, having a coating of a hydrophilic, neutral polymer such as PEG have an increased ability to form a suspension or colloid compared to uncoated vesicles. This enables the coated vesicles to be used to form aerosol droplets such that a liquid formulation containing vesicles can be used in a nebulizer for inhaled administration thereof. Such coated vesicles are also able to pass through mucus and can deliver their cargo into lung cells. Exosomes from mesenchymal stem cells can deliver additional proteins, miRs, mRNAs and other nucleic acid sequences to lung cells providing a regenerative gene therapy for CF, COPD lung cancer and other lung diseases.

Disclosed herein are compositions and methods for modulating the production of a protein in a target cell. The compositions and methods disclosed herein are capable of ameliorating diseases associated with protein or enzyme deficiencies.

Compositions and regimens useful in reducing one or more of: LDL-cholesterol, total cholesterol, and/or fasting triglycerides in a subject, and/or modifying fractional catabolic rate (FCR) of LDL apolipoprotein B (apoB) from baseline to a selected time point after rAAV administration are provided. The method involves administering to the human subject via a peripheral vein by infusion of a suspension of replication deficient recombinant adeno-associated virus (rAAV).

The present invention provides circularized RNA and methods of making and using same.

The invention is directed to the field of gene therapy, i.e. gene delivery into target cells, tissue, organ and organism, and more particularly to gene delivery via viral vectors. The inventors showed that it is possible by chemical coupling to modulate the coupling of a ligand in the surface of the capsid of AAV, for example AAV2 and AAV3b. In particular, the present invention relates to a recombinant Adeno-Associated Virus (rAAV) vector particle having at least one primary amino group contained in the capsid proteins, chemically coupled with at least one ligand L, wherein coupling of said ligand L is implemented through a bond comprising a —CSNH— bond and an optionally substituted aromatic moiety.

Particularly, the inventors tested the chemical coupling of mannose ligand on AAV2 for subretinally injection to rats. The present invention further relates to a method for chemically coupling an Adeno-Associated Virus (AAV) vector particle with at least one ligand L and to a Recombinant Adeno-Associated Virus (rAAV) vector particle obtained by said method as well as a pharmaceutical composition comprising it and their corresponding medical use.

The present disclosure provides adeno-associated virus (AAV) virions with altered capsid protein, where the AAV virions exhibit greater infectivity of retinal cells compared to wild-type AAV. The present disclosure further provides methods of delivering a gene product to a retinal cell in an individual, and methods of treating ocular disease.

The present invention relates to nucleic acid molecules containing spacers that can be packaged into viral particles and methods of producing them. In a first aspect, the invention features a nucleic acid molecule including a first spacer (SSI); a first inverted terminal repeat (ITR1); a cloning site (CS); a second inverted terminal repeat (ITR2); and a second spacer (SS2), such as a eukaryotic spacer; operably linked to each other in a 5′-to-3′ direction as: SS1-ITR1-CS-ITR2-SS2. In an embodiment, the invention features a vector comprising any of the above-described nucleic acid molecules. In another aspect, the invention features a plurality of viral particles including the nucleic acid molecule. The invention further includes a host cell including any of the above-described vectors.

The present invention provides a process for recovering a viral product from a composition comprising said product and product-related impurities, which process comprises contacting the composition with a functionalised chromatography medium comprising one or more polymer nanofibres, wherein the viral product comprises a plurality of viruses, virus particles/virions, viral cores, membrane-stripped viruses, viral cores with outer membrane(s) removed and/or capsids removed, or proviruses, each of which contains one or more polynucleotides, and wherein the product-related impurities comprise a plurality of viruses, virus particles/virions, virus-like particles, viral cores, membrane-stripped viruses, viral cores with outer membrane(s) removed and/or capsids removed or proviruses, each of which is substantially devoid of polynucleotides.