Compositions and methods for inducing and isolating virus-like particles (VLPs), and for allowing real-time assessment of VLP-captured analytes obtained from targeted living mammalian cells, are provided.

Disclosed herein are virus-like particle (VLP)-based bivalent vaccine compositions. The compositions may comprise a spherical retroviral Group-specific Antigen (“Gag”) protein core and at least two Ebola glycoproteins. The at least two Ebola glycoproteins may be located at the exterior surface of the spherical Gag protein core, such that the VLP-based vaccine presents at least two Ebola glycoprotein antigens. In one aspect, the at least two Ebola glycoproteins are a Zaire (EBOV) glycoprotein, and a Sudan (SUDV) glycoprotein.

The present disclosure provides compositions and methods useful for treating HCMV infection. As described herein, the compositions and methods are based on development of immunogenic compositions that include virus-like particles (VLPs) which comprise one or more Moloney Murine leukemia virus (MMLV) core proteins and include one or more HCMV epitopes, such as, for example, from HCMV envelope glycoproteins gB and/or gH and/or tegument protein pp65. Among other things, the present invention encompasses the recognition that a combination of antigens (e.g., envelope glycoproteins and structural proteins) can lead to beneficial immune responses, for example that include both a humoral response (e.g., production of neutralizing antibodies) and a cellular response (e.g., T-cell activation).

A method for ex vivo transduction of biomolecules from viruses, viral vectors or virus-like particles into target cells and microbubbles for use in this method. A quantity of viruses, viral vectors or virus-like particles and target cells are bound to flexible lipid shell microbubbles, bringing these into close proximity to each other that allows viral transduction, transferring biomolecules from the viruses, viral vectors or virus-like particles into the target cells while the viruses, viral vectors or virus-like particles and the target cells are bound to the microbubbles.

The invention relates to a virus-like particle comprising an autoantigen and an immunoregulatory molecule exposed on its surface. The invention also relates to the use of said particle in the treatment of an autoimmune disease.

The present disclosure provides compositions and methods useful for preventing and/or treating coronavirus infection. As described herein, the compositions and methods are based on development of immunogenic compositions that include virus-like particles (VLPs) which comprise one or more Moloney Murine leukemia virus (MMLV) core proteins and include one or more coronavirus epitopes, such as, for example, from SARS-Cov-2 spike protein.

The present invention relates to a virus-derived particle comprising one or more Cas protein(s), as well as to kits and methods using the same for altering a target nucleic acid.

Provided herein are vaccines including coronavirus antigens and E6020, as well as methods of mitigation of coronavirus infection by administering those vaccines.

The present invention provides a virus-like particle (VLP) having a viral envelope which comprises: (i) a membrane protein comprising the extracellular domain of CD86; and (ii) a CD3-binding membrane protein. The VLP may be used to activate T cells prior to viral transduction.

The present invention relates to a virus-derived particle comprising one or more Cas protein(s), as well as to kits and methods using the same for altering a target nucleic acid.