Provided herein are delivery particle systems (XDP) useful for the delivery of payloads of any type. In some embodiments, a XDP particle system with tropism for target cells of interest is used to deliver CRISPR/Cas polypeptides (e.g., CasX proteins) and guide nucleic acids (gNA), for the modification of nucleic acids in target cells. Also provided are methods of making and using such XDP to modify the nucleic acids in such cells.

This invention relates to a rabies virus G protein epitope and a rabies-virus-neutralizing binding molecule that binds specifically thereto, wherein different epitope sites of rabies virus G protein are identified and binding molecules that bind thereto and a cocktail thereof can be found to retain neutralizing activity against various rabies viruses.

In one aspect, the invention provides methods and compositions for the expression of small RNA molecules within a cell using a retroviral vector (FIG. 1A). Small interfering RNA (siRNA) can be expressed using the methods of the invention within a cell. In a further aspect, the invention provides methods for producing siRNA encoding lentivirus where the siRNA activity may interfere with the lentiviral life cycle. In yet a further aspect, the invention provides methods for expression of a small RNA molecule within a cell, such as an siRNA capable of downregulating CCR5, wherein expression of the small RNA molecule is relatively non-cytotoxic to the cell. The invention also includes small RNA molecules, such as an siRNA capable of downregulating CCR5, that are relatively non-cytotoxic to cells.

In one aspect, the invention provides methods and compositions for the expression of small RNA molecules within a cell using a retroviral vector (FIG. 1A). Small interfering RNA (siRNA) can be expressed using the methods of the invention within a cell. In a further aspect, the invention provides methods for producing siRNA encoding lentivirus where the siRNA activity may interfere with the lentiviral life cycle. In yet a further aspect, the invention provides methods for expression of a small RNA molecule within a cell, such as an siRNA capable of downregulating CCR5, wherein expression of the small RNA molecule is relatively non-cytotoxic to the cell. The invention also includes small RNA molecules, such as an siRNA capable of downregulating CCR5, that are relatively non-cytotoxic to cells.

An immune response in a subject is elicited by a regiment comprising immunization with an attenuated recombinant rabies virus encoding at least one foreign protein antigen, and booster immunization with the at least one foreign protein antigen in a vehicle that does not contain adjuvant. The foreign protein antigen may comprise a prion protein antigen, a cancer-associated antigens, a viral antigen, a bacterial antigens, or a protozoal antigen. The prime/boost regimen produces predominantly IgG 2A/C and IgG 2B antibodies against the foreign protein antigen, indicating a TH1 response. Rabies virus attenuation may be provided, for example, by one or more mutations in the rabies glycoprotein gene which confers attenuation of pathogenicity.

The invention relates to short RVG derived peptides for use in delivering therapeutic agents across the blood brain barrier and to target cells, for example those cells in the central nervous system. The invention provides method and compositions to treat diseases, such as neurodegenerative diseases, with therapeutic agents associated with targeting peptides.

Provided herein are, inter alia, methods and compositions for treating and preventing rhabdoviridae infection, including rabies virus. Compositions include recombinant rabies virus glycoproteins that are able to form glycoprotein trimers. The glycoprotein trimers are contemplated to be effective for preventing and/or treating rabies virus infections, including for use in the formulation of rabies virus vaccine compositions.

The present disclosure relates to the field of molecular virology, including nucleic acid molecules comprising modified viral genomes or replicons (e.g., self-replicating RNAs), pharmaceutical compositions containing the same, and the use of such nucleic acid molecules and compositions for production of desired products in cell cultures or in a living body. Also provided are methods for eliciting an immune response in a subject in need thereof, as well as methods for preventing and/or treating various health conditions.

Provided are a self-replicating RNA molecule and uses thereof. The self-replicating RNA molecule includes: a first RNA sequence encoding an N protein or a functional fragment of the N protein, a second RNA sequence encoding a P protein or a functional fragment of the P protein, and a third RNA sequence encoding an L protein or a functional fragment of the L protein. The self-replicating RNA molecule is suitable for producing the N protein, the P protein, the L protein, or the functional fragments thereof in animal cells.

Methods for expressing a polypeptide of interest in an astroglial cell. The methods permit the localization and transport of nucleic acids in microglial exosomes, the reprogramming of astroglial cells to neuronal cells, and the treatment of ischemic stroke or traumatic brain injury patients.