Described herein, are Bovine immunodeficiency virus gag protein (“Bgag”) recombinant virus like particles (“VLPs”) including one or more different types of target pathogen proteins. Also described, are compositions including the Bgag VLPs and the methods of making and using the novel Bgag VLP.

The present invention provides a retroviral or lentiviral vector having a viral envelope which comprises a mitogenic T-cell activating transmembrane protein which comprises: (i) a mitogenic domain which binds a mitogenic tetraspanin, and (ii) a transmembrane domain; wherein the mitogenic T-cell activating transmembrane protein is not part of a viral envelope glycoprotein. When cells such as T-cells or Natural Killer cells are transduced by such a viral vector, they are activated by the mitogenic T-cell activating transmembrane protein.

The present disclosure provides methods and compositions for genetically modifying lymphocytes, for example T cells and/or NK cells. In some embodiments, the methods include reaction mixtures, and resulting cell formulations, that are created using whole blood, or a component thereof that is not a PBMC, and additionally comprise T cells and recombinant retroviral particles having polynucleotides that encode a CAR. In some embodiments, modified lymphocytes are reintroduced into a subject subcutaneously. In some embodiments, polynucleotides that provide T cells the ability to regulate cell survival and proliferation in response to binding to a CAR, are provided.

Disclosed herein are compositions of retroviruses and methods of using the same for gene delivery to a hematopoietic stem cell (HSC), wherein the retroviruses comprise a viral envelope protein comprising at least one mutation that diminishes its native function, a non-viral membrane-bound protein comprising a membrane-bound domain and an extracellular targeting domain.

Provided herein are non-cell particles, e.g. virus particles or virus-like particles, such as pseudotyped lentiviral-like particles, containing an exogenous CD24 or a biologically active portion of CD24. In some embodiments, the non-cell particles, e.g. virus particles or virus-like particles, such as pseudotyped lentiviral-like particles, can further contain an exogenous CD47 or a biologically active portion of CD47. Also provided herein are compositions containing such non-cell particles and methods of making and using the non-cell particles.

The present invention provides an in-vitro method of reducing the efficiency of transducing malignant cells of the blood system of a subject that are not derived from T cells with lentiviral vector particles without reducing the efficiency of transducing T cells in a sample comprising T cells and said malignant cells. A combination of compositions comprising a first composition and a second composition is also disclosed, wherein said first composition comprises i) transduced T cells of a subject, wherein said transduced T cells express a CAR comprising an antigen binding domain, wherein the antigen binding domain of said CAR binds specifically to a tag of a tagged polypeptide, and ii) non-transduced malignant cells of the blood system of said subject, and wherein said second composition comprises said tagged polypeptide, wherein said tagged polypeptide binds specifically to an antigen expressed on the surface of said malignant cells. Alternatively, the transduced T cells of said first composition may comprise a nucleic acid encoding a CAR and an inducible gene expression system, and said second composition may comprise an induction agent inducing said gene system.

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.

Viral vectors, lentiviral particles, and modified cells are disclosed. They encode or express a small RNA capable of targeting the KIF11 gene. In embodiments, the viral vectors and lentiviral particles further comprise and a KIF11 gene whose non-coding region has been modified such that it is resistant to activity by the small RNA.

The invention relates to lentiviral vector particles pseudotyped with a determined heterologous viral envelope protein or viral envelope proteins originating from a RNA virus and which comprise in its genome at least one recombinant polynucleotide encoding at least one polypeptide(s) carrying epitope(s) of an antigen of a Plasmodium parasite capable of infecting a mammalian host. The lentiviral vector particles are used in order to elicit an immunological response against malaria parasites.

The present invention includes composition and methods for making multivalent vaccines for immunization against Flavivirus and/or arboviruses including a multivalent Virus Like Particles (VLP) and mixtures thereof, the method comprising: method of making a Flavivirus and/or arboviruses Virus Like Particles (VLP) comprising: inserting two or more nucleic acids that encode at least one Flavivirus protein into a lentiviral backbone vector; generating a lentivirus by transfecting a first cell line with the lentiviral backbone vector and isolating the lentivirus therefrom; transducing a second cell line with the lentivirus; culturing the transduced cell line under conditions in which the multivalent Flavivirus Virus Like Particles (VLP) are released from the cell line; and isolating the Flavivirus Virus Like Particles (VLP) from a culture supernatant, wherein a cell line makes a virus-specific VLP, and the VLPs are purified and then mixed in different combinations to make the multivalent vaccine.