The present disclosure provides a nucleic acid sequence for regulating the transcription of a nucleic acid fragment of interest, wherein the nucleic acid sequence comprises at least 2 copies of TetO-operator sequences capable of binding to a transactivator rtTA regulatable by tetracycline or a derivative thereof, and 1 copy of minimal promoter sequence containing a TATA box sequence, and at least 1 copy of a CuO-operator sequence capable of binding to a transcription repressor CymR regulatable by cumate. The present disclosure also provides a vector and a host cell containing the nucleic acid sequence, and a method for inducing the expression of a nucleic acid fragment of interest in a host cell.

The present invention relates to a targeting module comprising at least one PD-L1 and/or PD-L2 binding domain, and a tag-binding domain or a tag for use in a method for stimulating a chimeric antigen receptor mediated immune response in a mammal, a nucleic acid, a vector or a cell comprising a nucleotide sequence encoding the targeting module, a pharmaceutical composition and a kit comprising the targeting module and a vector or a cell comprising a nucleotide sequence encoding a switchable chimeric antigen receptor.

Disclosed are yeast expression constructs encoding a polypeptide containing a signal sequence, a Golgi-directing pro sequence, and a human amyloid beta protein, and mammalian expression constructs encoding a polypeptide containing a selected signal sequence and a human amyloid beta protein. Also disclosed are methods of screening cells to identify compounds that prevent or suppress amyloid beta-induced toxicity and genetic suppressors or enhancers of amyloid beta-induced toxicity. Compounds identified by such screens can be used to treat or prevent neurodegenerative disorders such as Alzheimer's disease.

Recombinant expression vectors are disclosed that include a control sequence for recombinant expression of proteins of interest; the control sequence combines a mCMV enhancer sequence with a rat EF-1alpha intron sequence. Some of the vectors are useful for tetracycline-inducible expression. Some of the vectors contain a 5′ PiggyBac ITR and a 3′ PiggyBac ITR to promote genomic integration into a host cell chromosome. A method of selecting a stable production cell line for manufacturing a protein of interest is also disclosed. Also disclosed are mammalian host cells comprising the inventive recombinant expression vectors and a method of producing a protein of interest, in vitro, involving the mammalian host cell.

Provided is a multicistronic retroviral vector genome having a first nucleic acid sequence upstream of at least one internal regulatory element, such that the level of genomic RNA available for packaging in the absence of rev, or a functional equivalent thereof, is increased.

The invention provides inducible promoter systems and their components incorporating components of a tetracycline operon. By coordinating expression of different transcriptional units in these systems as a result of selection of promoters and/or linking the units into the same DNA molecule, these systems can achieve higher levels of expression of coding segments of interest, increased differential levels of expression between on- and off-states, and/or greater responsiveness to inducing agents than conventional systems.

The invention relates generally to methods of generating induced pluripotent stem cells (iPSCs) that do not contain the reprogramming vector. In some embodiments, the invention relates to inducing pluripotency in somatic cells by introducing an episomal vector(s) comprising at least one expression cassette containing reprogramming factors and/or synthetic transcription factors and a suicide gene. In some embodiments, the invention relates to inducing pluripotency in somatic cells by introducing episomal vector(s) comprising expression cassettes containing reprogramming factors and/or synthetic transcription factors and a transcriptionally regulated EBNA-1 gene. In some embodiments, the invention relates to inducing pluripotency in somatic cells by introducing episomal vector(s) comprising expression cassettes containing reprogramming factors and/or synthetic transcription factors and both a suicide gene and a transcriptionally regulated EBNA-1 gene.

Provided herein are mutant reverse tetracycline transactivator (rtTA) proteins and engineered nucleic acids (e.g., viral vectors, including lentiviral vectors, adenoviral vectors, AAV vectors, herpes viral vectors, and retroviral vectors, and non-viral vectors, including RNA and plasmid DNA) that encode a mutant rtTA that are useful, for example, in regulating gene expression, inducing cellular reprogramming, tissue repair, tissue regeneration, organ regeneration, reversing aging, treating a disease (e.g., acute injuries, neurodegenerative disease, chronic diseases, proliferative diseases, cardiovascular diseases, genetic diseases, inflammatory diseases, autoimmune diseases, neurological diseases, hematological diseases, painful conditions, psychiatric disorders, metabolic disorders, cancers, aging, age-related diseases, and diseases affecting any tissue in a subject), or any combination thereof. Also provided herein are recombinant viruses (e.g., lentiviruses, adenoviruses, alphaviruses, vaccinia viruses, retroviruses, herpes viruses, or AAVs) comprising the engineered nucleic acids and methods of regulating (e.g., inhibiting or inducing) cellular reprogramming, tissue repair, tissue regeneration, or any combination thereof by administering an engineered nucleic acid or recombinant virus comprising the same in a cell, tissue or subject (e.g., a cell or tissue of a subject with a condition, which includes any disease (e.g., ocular disease), aging, neurodegenerative diseases, cancer, and age-related diseases) comprising administering a mutant rtTA and an inducible nucleic acid (e.g., an engineered nucleic acid, including an expression vector) encoding a transgene.

The present disclosure relates to polynucleotides comprising a nucleic acid sequence encoding a replication competent viral genome, wherein the polynucleotide is capable of producing a replication competent virus when introduced into a cell by a non-viral delivery vehicle. The present disclosure further relates to the encapsulation of the polynucleotides and the use of the polynucleotides and/or particles for the treatment and prevention of cancer.

The present disclosure relates to a DNA construct, and a strain into which a recombinant vector comprising the DNA construct has been introduced. The DNA construct according to the present disclosure allows the expression levels of genes, operably linked downstream of first and second promoters, in a host strain or cell, to be balanced, so that cancer diagnosis and treatment may be performed simultaneously. In addition, the DNA construct of the present disclosure completely does not allow the anticancer protein and the reporter protein to be expressed at all in the absence of doxycycline, and thus it allows the anticancer protein to be expressed at an appropriate dose for cancer treatment by controlling whether or not treatment with doxycycline is performed, and at the same time, enables the size of the cancer to be monitored in real time depending on the expression level of the reporter protein.