C12N2795/14171

M13 PHAGE BASED GENE THERAPY PLATFORM

An engineered phage-derived particle (PDP) for expressing a transgene in a target cell transduced with a bacteriophage, the PDP includes (i) less than about 500 bp of DNA from the bacteriophage genome, (ii) an ITR-flanked therapeutic gene up to 20 kb, (iii) an endosomal escape sequence, (iv) a nuclear localization sequence, and (v) a cell-specific targeting moiety. The PDP may escape lysosomal degradation, traffic across the nuclear envelope and expressed a therapeutic gene in a mammalian cell.

METHODS OF TREATING OR PREVENTING A VIRAL INFECTION USING BACTERIOPHAGES
20230059521 · 2023-02-23 ·

Described herein are compositions for treating or preventing a viral infection comprising bacteriophages that bind to the virus and block or inhibit viral entry into a host cell. Bacteriophage libraries may be screened to identify bacteriophages that bind to a virus of interest, and the identified bacteriophages may be used to treat or prevent an infection caused by the virus of interest. Also described herein are methods of treating or preventing a viral infection by administering a bacteriophage composition to a subject in vivo or to a surface in vitro. The bacteriophages in the composition may bind to the virus and inhibit viral entry into a host cell, thereby reducing the infectivity of the virus. Reducing the infectivity of the virus may treat or prevent the viral infection.

PHAGE-MEDIATED DELIVERY OF GENES TO GUT MICROBIOME
20230181659 · 2023-06-15 ·

The present disclosure provides materials and methods for selectively engineering at least one bacterial strain among a mixed population of bacterial strains in the gut of a subject. In some embodiments, a bacteriophage comprising at least one nucleic acid is administered which selectively infects a bacterial strain under conditions that allow expression of the nucleic acid. The present disclosure thus provides compositions and methods for precisely modifying or reducing a population of bacteria in a mixed population in the gut microbiome.

FUNCTIONALIZATION OF ENDOGENOUS BACTERIA

Various aspects and embodiments of the present disclosure are directed to methods and compositions for functionalizing endogenous bacteria in vivo. The methods include delivering to endogenous bacterial cells a recombinant bacteriophage or phagemid that is engineered to contain at least one genetic circuit.

Anti-angiogenin peptides, compositions, and methods of use

Carrier compositions, including human-safe phages, equipped with one or more angiogenin-binding peptides, and optionally with tumor-homing peptides for use in anti-tumor therapies, are described. The angiogenin-binding peptides bind to and inactivate angiogenin molecules thereby blocking their angiogenic activity thus inhibiting angiogenesis in the tissue in which the compositions are localized.

Functionalization of endogenous bacteria

Various aspects and embodiments of the present disclosure are directed to methods and compositions for functionalizing endogenous bacteria in vivo. The methods include delivering to endogenous bacterial cells a recombinant bacteriophage or phagemid that is engineered to contain at least one genetic circuit.

ANTI-ANGIOGENIN PEPTIDES, COMPOSITIONS, AND METHODS OF USE
20200384066 · 2020-12-10 ·

Carrier compositions, including human-safe phages, equipped with one or more angiogenin-binding peptides, and optionally with tumor-homing peptides for use in anti-tumor therapies, are described. The angiogenin-binding peptides bind to and inactivate angiogenin molecules thereby blocking their angiogenic activity thus inhibiting angiogenesis in the tissue in which the compositions are localized.

FUNCTIONALIZATION OF ENDOGENOUS BACTERIA

Various aspects and embodiments of the present disclosure are directed to methods and compositions for functionalizing endogenous bacteria in vivo. The methods include delivering to endogenous bacterial cells a recombinant bacteriophage or phagemid that is engineered to contain at least one genetic circuit.

Functionalization of endogenous bacteria

Various aspects and embodiments of the present disclosure are directed to methods and compositions for functionalizing endogenous bacteria in vivo. The methods include delivering to endogenous bacterial cells a recombinant bacteriophage or phagemid that is engineered to contain at least one genetic circuit.

Filamentous bacteriophage as an angiogenesis modulator

The invention relates to a filamentous bacteriophage, carrying bacterial Lipopolysaccharide (LPS) endotoxin on its surface, for use in treating cancer and in inhibiting angiogenesis, and in a different context, for use in promoting angiogenesis in diseases or conditions in which there is insufficient angiogenesis.