The present disclosure provides methods for genetically modifying lymphocytes and methods for performing adoptive cellular therapy that include transducing T cells and/or NK cells without prior ex vivo stimulation. The methods typically include engineered signaling polypeptides that can include a lymphoproliferative element, and/or a chimeric antigen receptor (CAR), for example a microenvironment restricted CAR. Additional elements of such engineered signaling polypeptides are provided herein, as well as vectors, such as retroviral vectors, packaging cell lines and methods of making the same. Furthermore, recombinant retroviruses and methods of making the same are provided. Numerous controls are provided, including riboswitches that are controlled, for example in vivo, by nucleoside analogues.

The present invention provides HIV-derived lentivectors which are safe, highly efficient, and very potent for expressing transgenes for human gene therapy, especially, in human hematopoietic progenitor cells as well as in all other blood cell derivatives. The lentiviral vectors comprise a self-inactivating configuration for biosafety and promoters such as the EF1α promoter as one example. Additional promoters are also described. The vectors can also comprise additional transcription enhancing elements such as the wood chuck hepatitis virus post-transcriptional regulatory element. These vectors therefore provide useful tools for genetic treatments such as inherited and acquired lympho-hematological disorders, gene-therapies for cancers especially the hematological cancers, as well as for the study of hematopoiesis via lentivector-mediated modification of human HSCs.

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 lenti viral 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.

Hematopoeitic stem/progenitor cells (HSPC) and/or non-T effector cells are modified to express an extracellular component including a tag cassette. The tag cassette can be used to activate, promote proliferation of, detect, enrich, isolate, track, deplete and/or eliminate modified cells. The cells can also be modified to express a binding domain.

The present invention describes the development of a modified envelope glycoproteins to pseudo-type viruses of the retroviridae family. These are derived from Murine leukaemia virus amphotropic, Gibbon Ape leukaemia virus and feline endogenous virus envelopes.

The improved envelope glycoproteins contain, among other modifications, newly introduced alternative cleavable sequences.

The viral vectors pseudo-typed with these modified envelopes may be suitably employed for cargo delivery such as in gene and cell therapy applications, for the ex vivo and in vivo delivery of gene(s), protein(s), or molecule(s) of interest to a variety of target 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 lenti viral 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.

Methods of using viruses labeled with alkyne-modified biomolecules, such as fatty acids, carbohydrates and lipids, to treat a plant, an insect or an animal infected with a virus or to increase the infectivity of a virus, such as the human immunodeficiency virus, are provided. Also provided are methods of labeling a virus, such as human immunodeficiency virus, with an alkyne-modified biomolecule, such as a fatty acid, a carbohydrate, or an isoprenoid lipid. The viruses labeled with alkyne-modified biomolecules may be combined with a pharmaceutically acceptable excipient to produce a pharmaceutical composition, optionally containing another anti-viral agent and/or a delivery agent, such as a liposome.

Provided for herein are fusogenic rhabdovirus glycoproteins and uses thereof, compositions comprising the same, and methods of using the same. Also provided for herein are pseudotyped viral particles comprising rhabdovirus glycoproteins as provided for herein and targeting moieties as provided for herein. Also provided are methods of generating and using the pseudotyped viral particles as provided for herein.

Described is a targeting construct encoding a modified Sindbis virus envelope protein, comprising mutations in the E1, E2 and/or E3 proteins, fused with a monomeric biotin-binding molecule. Lentiviral vectors pseudotyped with the novel envelope proteins, such as E2 71 eMA and E2 71 mSAH, can be conjugated with biotinylated targeting ligands The conjugated ligands mediate specific binding and transduction of the target cell types. This lentiviral transduction system can be used to selectively deliver transgenes into specific cell types in vivo, which increases the numbers of vectors reaching the targeted cells and tissues and decreases adverse effects in non-targeted cells and tissues. The vectors transduce B cells without conjugation of targeting ligands. The B cell type most efficiently transduced in this manner is long-lived plasma cells, and thus can be used for long-term transgene expression.

The disclosure relates generally to nucleic acid vectors and packaging cell lines for in vivo expansion of T-cells. More particularly, the disclosure relates to intravenous or intratumoral injection of a lentiviral particle adapted for transduction and expansion of tumor-infiltrating lymphocytes in vivo.