A lentiviral vector was used to produce non-human animals that express human sFLT1 specifically in the murine placenta, to provide model animals of diseases such as pregnancy-induced hypertension syndrome that are close to the clinical conditions, methods for producing the model animals, methods of screening for candidate compounds as therapeutic agents for diseases such as pregnancy-induced hypertension syndrome by using the model animals, and therapeutic agents for diseases such as pregnancy-induced hypertension syndrome. As a result, the model animals were found to exhibit symptoms that are very close to the clinical conditions in human, which are presentation of hypertension as well as placental insufficiency, intrauterine growth retardation, glomerulosclerosis, and proteinuria during pregnancy, and improvement of those symptoms postpartum. Furthermore, when pravastatin was administered to this model animal, it was found that diseases such as pregnancy-induced hypertension syndrome were improved by the activation of placenta-derived growth factor (PIGF) which antagonizes sFLT1.

The invention provides functional mutants of activation-induced cytidine deaminase (AID) protein that have increased activity as compared to a wild-type AID protein. The invention also provides nucleic acids encoding the functional AID mutants, and vectors and cells comprising the nucleic acids. The invention further provides methods of using the functional mutant AID proteins.

The invention relates to the regulated expression of a chimeric antigen receptor (CAR) within a lentiviral vector. The CAR comprises a hook-binding domain that interacts with a hook, preferably encoded by the same lentiviral vector, which prevents proper processing and release of the CAR to the cell membrane. The invention encompasses vectors, methods of making the vectors, and methods of using them, including medicinal uses. The vectors can be used for administration to humans to induce immune responses and to treat cancers and tumors.

The present invention provides PiggyBac transposase proteins, nucleic acids encoding the same, compositions comprising the same, kits comprising the same, non-human transgenic animals comprising the same, and methods of using the same.

Aspects of the present disclosure are directed to methods and compositions for the production of heterogeneous tissue from human induced pluripotent stem (hiPS) cells.

Provided are methods and compositions useful for detecting viral infection or contamination in a biological sample.

In one aspect, the invention provides methods and compositions for the expression of small RNA molecules within a cell using a retroviral vector (FIG. 1A). Small interfering RNA (siRNA) can be expressed using the methods of the invention within a cell. In a further aspect, the invention provides methods for producing siRNA encoding lentivirus where the siRNA activity may interfere with the lentiviral life cycle. In yet a further aspect, the invention provides methods for expression of a small RNA molecule within a cell, such as an siRNA capable of downregulating CCR5, wherein expression of the small RNA molecule is relatively non-cytotoxic to the cell. The invention also includes small RNA molecules, such as an siRNA capable of downregulating CCR5, that are relatively non-cytotoxic to cells.

The present invention relates to nucleic acid regulatory elements that are able to enhance liver-specific expression of genes, methods employing these regulatory elements and uses of these elements. Expression cassettes and vectors containing these nucleic acid regulatory elements are also disclosed. The present invention is particularly useful for applications using gene therapy.

The present invention relates to a method of generating an induced pluripotent stem (iPS) cell comprising the step of introducing into a target cell one or two coding sequences each giving rise upon transcription to a factor that contributes to the reprogramming of said target cell into an induced pluripotent stem cell and selected from Oct3/4 or a factor belonging to the Myc, Klf and Sox families of factors, wherein the target cell endogenously expresses at least the factors that are not encoded by the coding sequences to be introduced and selected from Oct3/4 or factors belonging to the Myc, Klf and Sox families of factors, and wherein the cell resulting from the introduction of the one or two coding sequences expresses the combination of factor Oct3/4 and at least one factor of each family of factors selected from the group of Myc, Klf and Sox. Furthermore, the present invention relates to an induced pluripotent stem cell generated by the method of the invention and a method of identifying a compound that contributes to the reprogramming of a target cell into an induced pluripotent stem cell. Also, a method of generating a transgenic non-human animal and a composition comprising an iPS cell generated by the method of the present invention for gene therapy, regenerative medicine, cell therapy or drug screening are envisaged.

The invention relates to a method for rapid immunogen selection (RIS) based on the binding a library of recombinant viruses containing randomized HIV gp120 variants of a surface polypeptide displayed to said neutralizing antibodies. The invention relates as well to the use of the HIV gp120 immunogens isolated according to the RIS method of the invention in medicine for the treatment of diseases caused by a virus and in diagnosis for the identification of neutralizing antibodies in a patient.