An object of the present invention is to provide a ventral hindgut organoid for producing a bladder organoid that comprises a layer structure of bladder epithelial cell types like the urinary bladder. An aspect of the present invention is to provide a method for producing a ventral hindgut organoid, comprising culturing a pluripotent stem cell with an inducer medium A containing activin A and GSK3β inhibitor to induce differentiation into definitive endoderm cells and culturing the definitive endoderm cells with an inducer medium B containing fibroblast growth factor, GSK3β inhibitor, and optionally further containing bone morphogenetic protein, and then culturing them in the presence of extracellular matrix with an inducer medium B containing fibroblast growth factor, GSK3β inhibitor, and optionally further containing bone morphogenetic protein to form a ventral hindgut organoid.

Genetically modified non-human animals expressing human EPO from the animal genome are provided. Also provided are methods for making non-human animals expressing human EPO from the non-human animal genome, and methods for using non-human animals expressing human EPO from the non-human animal genome. These animals and methods find many uses in the art, including, for example, in modeling human erythropoiesis and erythrocyte function; in modeling human pathogen infection of erythrocytes; in in vivo screens for agents that modulate erythropoiesis and/or erythrocyte function, e.g. in a healthy or a diseased state; in in vivo screens for agents that are toxic to erythrocytes or erythrocyte progenitors; in in vivo screens for agents that prevent against, mitigate, or reverse the toxic effects of toxic agents on erythrocytes or erythrocyte progenitors; in in vivo screens of erythrocytes or erythrocyte progenitors from an individual to predict the responsiveness of an individual to a disease therapy.

An isolated rat liver cancer stem cell line which is named as TW-1 is provided. A method for drug screening by using the isolated rat liver cancer stem cell line is also provided.

Provided is a method for developing a secondary organ by using a non-human animal in which organ formation is inhibited, for the purpose of establishing a process for producing a functional cell such as a β cell within the body of an animal such as a pig, the method including the step of raising a newborn or a fetus of the non-human animal in which organ formation is inhibited by complementing at least a part of the function of the organ whose formation is inhibited.

Described herein are methods and compositions for treating cancer. Various embodiments use engineered autologous or syngeneic cancer cells that home to tumors in vivo and deliver therapeutic polypeptides. Various embodiments further promote an anti-tumor immune response that can assist in treating existing tumors and provide protection against recurrent cancer.

The present invention provides an expression vector for preventing or inhibiting HIV entry, fusion or replication in mammalian cells. In particular, the invention provides a recombinant retroviral vector that encodes an inhibitor of a HIV co-receptor, such as CCR5 or CXCR4, and a protein that inhibits HIV fusion to target cells and/or HIV replication. Pharmaceutical compositions comprising such constructs and methods of use thereof to prevent or treat HIV infection in a patient are also disclosed.

The present invention relates to organoids derived from a single cell, such as a prostate cancer cell, and methods and compositions relating to the production and use thereof, including cell culture medium for producing organoids and methods of personalized treatment for prostate cancer. The invention further provides a humanized mouse comprising a prostate organoid derived from a patient's prostate cell.

The invention provides in vivo methods for identifying cancer-associated immunotherapy targets.

Disclosed herein are recombinant meganucleases engineered to recognize and cleave a recognition sequence present in the human mitochondrial DNA (mtDNA). The disclosure further relates to the use of such recombinant meganucleases in methods for producing genetically-modified eukaryotic cells, and to a population of genetically-modified eukaryotic cells wherein the mtDNA has been having modified or edited.

The invention describes a method and compounds for the prevention of immune responses towards allofactors, towards viral vectors used for gene therapy and gene vaccination, towards proteins to which subjects are naturally exposed, towards genetically-modified organisms and towards undesirable effects related to vaccine administration for allergic or infectious diseases.