Materials and methods for treating a patient with a hemoglobinopathy, both ex vivo and in vivo, and materials and methods for creating permanent changes to the genome that can result in at least one deletion, insertion, modulation, or inactivation of a transcriptional control sequence of a BCL11A gene in a cell by genome editing.

The application describes ceDNA vectors having linear and continuous structure for delivery and expression of a transgene. ceDNA vectors comprise an expression cassette flanked by two ITR sequences, where the expression cassette encodes a transgene encoding PAH protein. Some ceDNA vectors further comprise cis-regulatory elements, including regulatory switches. Further provided herein are methods and cell lines for reliable gene expression of PAH protein in vitro, ex vivo and in vivo using the ceDNA vectors. Provided herein are method and compositions comprising ceDNA vectors useful for the expression of PAH protein in a cell, tissue or subject, and methods of treatment of diseases with said ceDNA vectors expressing PAH protein. Such PAH protein can be expressed for treating disease, e.g., Phenylketonuria (PKU).

The present disclosure provides, among other aspects, codon-altered polynucleotides encoding Factor VIII variants for expression in mammalian cells. In some embodiments, the disclosure also provides mammalian gene therapy vectors and methods for treating hemophilia A. In some embodiments, the present disclosure provides methods for dosing a hemophilia A patient with a polynucleotide, e.g., a codon-altered polynucleotide, encoding a Factor VIII polypeptide.

The present invention relates to a polynucleotide comprising a Complement Factor I (CFI) nucleotide sequence encoding a CFI polypeptide or a fragment thereof. The invention further relates to a viral particle comprising a recombinant genome comprising the polynucleotide of the invention, and a composition comprising the polynucleotide or viral particle of the invention. The invention also relates to methods of using, and uses of, the polynucleotide, viral particle and/or composition of the invention. The invention also relates to methods of using, and uses of, a polynucleotide comprising a CFI nucleotide sequence, a viral particle comprising a recombinant genome comprising the polynucleotide, or a composition comprising the polynucleotide or viral particle.

A novel class of fusion proteins to recruit a cell's innate chaperone mechanism, specifically the Hsp70-mediated system, to specifically reduce polyglutamine-mediated protein aggregation is disclosed.

In alternative embodiments, provided are peptides and peptide-comprising compositions, including products of manufacture and kits, and methods, for modulating myosin subfragment-2 coiled coil stability. In alternative embodiments, a peptide modulator of myosin subfragment-2 coiled coil stability as provided herein is administered to an individual in need thereof for: increasing exercise tolerance in a subject with heart failure; reducing hospitalization in a subject with heart failure; improving quality of life in a subject with heart failure; decreasing morbidity in a subject with heart failure; decreasing mortality in a subject with heart failure; modulating skeletal muscle activity for purposes of impacting patient weight; and/or, modulating skeletal muscle activity for purposes of ameliorating consequences of skeletal muscle diseases such as sarcopenia, muscular dystrophies, muscle cramps, and nemaline myopathies.

Compositions and methods are provided for inhibiting T cell mediated destruction of virally transduced, trangene containing cells.

This invention relates generally to compositions and methods for administering an anellovector (e.g., a synthetic anellovector) that can be used as a delivery vehicle, e.g., for delivering genetic material, for delivering an effector, e.g., a payload, or for delivering a therapeutic agent or a therapeutic effector to a eukaryotic cell (e.g., a human cell or a human tissue). Also provided are methods for amplifying circular nucleic acids comprising Anellovirus sequences.

Described herein is a method for treating Alzheimer's disease (AD) by selective silencing of the amyloid precursor protein (APP) using Cas9 nuclease gene editing. Methods of making and using genetic constructs comprising a Cas9 nuclease and a sequence encoding guide RNA (gRNA) specific to APP capable of truncating the C-terminus of APP, as well as compositions comprising these constructs, are provided.

The present invention relates in part to nucleic acids, including nucleic acids encoding proteins, therapeutics and cosmetics comprising nucleic acids, methods for delivering nucleic acids to cells, tissues, organs, and patients, methods for inducing cells to express proteins using nucleic acids, methods, kits and devices for transfecting, gene editing, and reprogramming cells, and cells, organisms, therapeutics, and cosmetics produced using these methods, kits, and devices.