The disclosure provides nucleic acidvectors containing a high expression promoter, such as a high expression, supporting cell-specific promoter, operably linked to a polynucleotide encoding Atoh1. Such vectors and compositions containing the same can be used to induce robust regeneration of mature hair cells (e.g., cochlear and/or vestibular hair cell regeneration). Accordingly, the nucleic acid vectors and compositions described herein can be used to treat subjects having or at risk of developing hearing loss or vestibular dysfunction.

Disclosed herein are compounds of Formula (I), Formula (III) or Formula (IIIa), or pharmaceutically acceptable salts thereof, wherein A, L, X.sup.1, X.sup.2, a, b, R.sup.1 and R.sup.2 are as defined herein. Also disclosed are lipid nanoparticles comprising a compound of Formula (I), Formula (III) or Formula (IIIa), or a pharmaceutically acceptable salt thereof; pharmaceutical compositions comprising a plurality of lipid nanoparticles comprising a compound of Formula (I), Formula (III) or Formula (IIIa), or a pharmaceutically acceptable salt thereof and a nucleic acid segment; as well as methods for delivering a nucleic acid segment comprising administering a plurality of lipid nanoparticles comprising a compound of Formula (I), Formula (III) or Formula (IIIa), or a pharmaceutically acceptable salt thereof, and a nucleic acid segment.

The disclosure features LNP compositions and systems comprising a therapeutic payload or prophylactic payload, a binding element, a tether molecule and/or an effector molecule and uses thereof. The LNP compositions or systems of the present disclosure comprise: (a) a first polynucleotide (e.g., mRNA) comprising: (1) a sequence encoding a therapeutic payload or prophylactic payload, and (2) a binding element; and (b) a second polynucleotide (e.g., mRNA) comprising a sequence encoding: (1) an effector molecule, and/or (2) a polypeptide that recognizes the binding element (a tether molecule). Such compositions or systems can: increase the level and/or activity of the therapeutic payload or prophylactic payload, e.g., increase the level, stability and/or activity of the mRNA encoding the therapeutic payload or prophylactic payload. Also disclosed herein are methods of treating a disorder, or for modulating an immune response in a subject using the disclosed LNP compositions or systems.

Described herein are functionalizing nanocomplexes comprising one or more polyphenol molecules; and one or more biomolecules. Further described herein are functionalized cells comprising one or more of the nanocomplexes. In some embodiments, the biomolecules can be therapeutic agents and the functionalized cells can be administered to patients to provide improved delivery (e.g., dosing and specificity) of the therapeutic agent.

A chimeric molecule of one or more proteins or peptides fused, complexed or linked to one or more anionic molecules. Efficient in vitro and in vivo delivery is attained by encapsulating these molecules in cationic lipids or cationic liposomes. Methods of treatment include the intracellular delivery of these molecules to a specific therapeutic target.

The invention provides a class of sucrose ester based cationic lipids and preparation method thereof. The vector prepared using the cationic lipid can be used to deliver nucleic acid. The sucrose ester based cationic lipid is prepared by using a chemical synthesis method in the invention, wherein the synthesis method is simple, and has a relatively high product yield. A composition, including suspension, emulsion, micelle and liposome and the like, can be prepared by mixing the sucrose ester based cationic lipid compound of the invention with a co-lipid. Sucrose ester based cationic lipid complex can be prepared by using the said composition and nucleic acid, which has advantages such as simple preparation, low toxicity and high transfection efficiency, and is a novel and highly efficient gene vector.

Lipopeptide compounds having a central peptide HHHHHKHHHKKKHKHKKK (SEQ ID NO:15) and a lipophilic group attached to each terminus of the peptide, and salts thereof. The lipopeptides are useful for forming pharmaceutical compositions for delivery of nucleic acid agents, such as siRNA and mdRNA agents, as well as in methods for treating the signs and symptoms of disease.

Disclosed herein are compositions and pharmaceutical formulations that comprise a binding moiety conjugated to a polynucleic acid molecule and a polymer. Also described herein include methods for treating a cancer which utilize a composition or a pharmaceutical formulation comprising a binding moiety conjugated to a polynucleic acid molecule and a polymer.

Methods of preparing lyophilized lipid nanoparticle-nucleic acid compositions are provided. The methods comprise preparing a suspension of lipid nanoparticles with a monosaccharide and one or more excipients selected from thiosulfate, potassium sorbate, sodium benzoate, and iodixanol. Lyophilized lipid nanoparticle-nucleic acid compositions and methods of reconstituting and administering the same are further provided.

The present invention provides, in part, a biodegradable compound of formula I, and sub-formulas thereof: Formula (I) or a pharmaceutically acceptable salt thereof, where each X independently is O or S, each Y independently is O or S, and each R.sup.1 independently is defined herein; and a liposome composition comprising the cationic lipid of formula I or a sub-formula thereof, and methods of delivering agents, such as nucleic acids including mRNA, in vivo, by administering to a subject the liposome comprising the cationic lipid of formula I or a sub-formula thereof, where the agent is encapsulated within the liposome.

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