The invention provides a process for generating parvovirus VP1/VP2 virus like particles (VLPs). The invention further provides methods for purification of the parvovirus VLPs and immunogenic compositions that contain the VLPs. The invention also includes recombinant nucleic acid molecules that encode parvovirus VP1 and VP2, and host cells that contain the recombinant nucleic acids.

Described herein are compositions and methods for stimulating an immune response to one or more proteins derived from one or more respiratory pathogens. In particular, the invention relates to alphavirus replicons, alphavirus vector constructs, alphavirus replicon particles expressing one or more antigens derived from one or more respiratory pathogens as well as to method of making and using these immunogenic compositions.

The present invention relates generally to a population of cells genetically modified to produce insulin in a glucose responsive manner and uses thereof. More particularly, the present invention relates to a population of cells genetically modified to produce insulin in response to physiologically relevant levels of glucose and uses thereof. The cells of the present invention are useful in a wide variety of applications, in particular in the context of therapeutic and prophylactic regimes directed to the treatment of diabetes and/or the amelioration of symptoms associated with diabetes, based on the transplantation of the cells of the present invention into mammals requiring treatment. Also facilitated is the design of in vitro based screening systems for testing the therapeutic effectiveness and/or toxicity of potential adjunctive treatment regimes.

Methods and compositions relating to the production of induced pluripotent stem cells (iPS cells) are disclosed. For example, induced pluripotent stem cells may be generated from CD34.sup.+ hematopoietic cells, such as human CD34.sup.+ blood progenitor cells, or T cells. Various iPS cell lines are also provided. In certain embodiments, the invention provides novel induced pluripotent stem cells with a genome comprising genetic rearrangement of T cell receptors.

The present disclosure relates to RNA interference (RNAi) reagents for treatment of oculopharyngeal muscular dystrophy (OPMD), compositions comprising same, and use thereof to treat individuals suffering from OPMD or which are predisposed thereto.

An expression vector, comprising a first reporter nucleic acid sequence operably linked to a first expression control sequence comprising a promoter; and a second reporter nucleic acid sequence operably linked to a second expression control sequence that comprises a response element that is activated or inactivated as one or more of the cells differentiate or dedifferentiate. Methods and kits for imaging and monitoring stem cells comprising the expression vector are also provided.

The present application discloses a lentiviral transfer system which includes: (i) a self-inactivating transfer vector comprising: multiple gene units, wherein each gene unit includes a heterologous nucleic acid sequence operably linked to a regulatory nucleic acid sequence; and (ii) a helper construct which lacks a 5′ LTR, wherein the 5′ LTR has been replaced with a heterologous promoter, in which the helper construct further comprises: a lentiviral env nucleic acid sequence containing a deletion, wherein the deleted env nucleic acid sequence does not produce functional env protein; and a packaging signal contains a deletion, wherein the deleted packaging signal is nonfunctional.

Disclosed herein are improved methods for treatment of brain cancer (such as glioma/glioblastoma) via ligand-inducible gene-switch controlled in vivo expression of an immunomodulator (i.e., IL-12) in combination with one or more other immunomodulators (i.e., an immune cell check point inhibitor; e.g., such as a PD-1 inhibitor or a PD-1 binder.

The present invention provides two-gene retroviral vector compositions comprising polynucleotides encoding an anti-CD7 chimeric activating receptor (CAR) and polynucleotides encoding an anti-CD7 protein expression blocker. Also provided are methods of producing and methods of using such compositions in cancer therapy.

Disclosed herein are contiguous DNA sequences encoding highly compact multi-input genetic logic gates for precise in vivo cell targeting, and methods of treating disease using a combination of in vivo delivery and such contiguous DNA sequences.