Provided herein are variant adeno-associated virus (AAV) capsid proteins having one or more modifications in amino acid sequence relative to a parental AAV capsid protein, which, when present in an AAV virion, confer increased infectivity of one or more types of retinal cells as compared to the infectivity of the retinal cells by an AAV virion comprising the unmodified parental AAV capsid protein. Also provided are recombinant AAV virions and pharmaceutical compositions thereof comprising a variant AAV capsid protein as described herein, methods of making these rAAV capsid proteins and virions, and methods for using these rAAV capsid proteins and virions in research and in clinical practice, for example in, e.g., the delivery of nucleic acid sequences to one or more cells of the retina for the treatment of retinal disorders and diseases.

Non-viral nucleic acid delivery agents and methods for the delivery or transfer of nucleic acid molecules to target cells are disclosed. The agents comprise a complex of a nucleic acid cargo for delivery, one or more lipopeptide compound, and one or more polymeric charge-neutralising agent, and the complex is in the form of a particle with substantially neutral or negative surface charge. The agents and methods may be useful in a variety of applications such as therapies (including gene therapies and nucleic acid vaccinations) for diseases and medical disorders.

The disclosure provides compositions and methods for delivering a payload to cells or tissues that express GLUT4. In some embodiments, the compositions comprise an antibody, or fragment or derivative thereof, that specifically binds to glucose transporter 4 (“GLUT4”) protein, and a therapeutic payload conjugated thereto. In some exemplary embodiments, the compositions are useful for methods of treating a disease or condition in a subject with a genetic mutation in a gene encoding dystrophin protein, wherein the payload comprises a nucleic acid encoding a functional dystrophin protein or functional fragment thereof to ameliorate aspects of the disease.

Methods and constructs for engineering circular RNA are disclosed. In some embodiments, the methods and constructs comprise a vector for making circular RNA, the vector comprising the following elements operably connected to each other and arranged in the following sequence: a.) a 5′ homology arm, b.) a 3′ group I intron fragment containing a 3′ splice site dinucleotide, c.) optionally, a 5′ spacer sequence, d.) a protein coding or noncoding region, e.) optionally, a 3′ spacer sequence, f) a 5′ Group I intron fragment containing a 5′ splice site dinucleotide, and g.) a 3′ homology arm, the vector allowing production of a circular RNA that is translatable or biologically active inside eukaryotic cells. Methods for purifying the circular RNA produced by the vector and the use of nucleoside modifications in circular RNA produced by the vector are also disclosed.

Disclosed herein are RNA polynucleotides comprising a 5′ Cap, a 5′ UTR comprising a cap proximal sequence disclosed herein, and a sequence encoding a payload. Also disclosed herein are compositions and medical preparations comprising the same, and methods of making and using the same.

The present disclosure provides adeno-associated virus (AAV) virions with altered capsid protein, where the AAV virions exhibit greater infectivity of retinal cells, when administered via intravitreal injection, 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.

Aminoalcohol lipidoids are prepared by reacting an amine with an epoxide-terminated compound are described. Methods of preparing aminoalcohol lipidoids from commercially available starting materials are also provided. Aminoalcohol lipidoids may be prepared from racemic or stereochemically pure epoxides. Aminoalcohol lipidoids or salts forms thereof are preferably biodegradable and biocompatible and may be used in a variety of drug delivery systems. Given the amino moiety of these aminoalcohol lipidoid compounds, they are particularly suited for the delivery of polynucleotides. Complexes, micelles, liposomes or particles containing the inventive lipidoids and polynucleotide have been prepared. The inventive lipidoids may also be used in preparing microparticles for drug delivery. They are particularly useful in delivering labile agents given their ability to buffer the pH of their surroundings.

Provided herein, inter alia, are compositions and kits comprising a bacterial cell and a tumor penetrating agent. Also provided are methods of treating cancer in a subject including the step of administering to the subject an effective amount of a bacterial cell and a tumor penetrating agent. Provided are methods of stimulating an immune system in a subject. The methods include administering to the subject an effective amount of a bacterial cell and a tumor penetrating agent. Also provided are methods of enhancing delivery of an anti-cancer agent to a tumor cell including the step of contacting the tumor cell with a bacterial cell, a tumor penetrating agent and an anti-cancer agent.

Methods of preparing tissues for treatment or imaging and for treating or imaging tissues in a subject in which therapeutic or imageable molecules operably associated with a heat-inducible promoter and an HSP-inducing molecule are administered to the subject.

Provided herein are methods, systems, and related vectors and compositions allowing for noninvasive control of neural circuits. In particular, the methods and systems herein described utilize acoustically targeted chemogenetics to achieve a noninvasive neuromodulation in specifically selected cell-types among spatially selected brain regions.