The present invention provides transgenic, large non-human animal models of cancer, as well as methods of using such animal models in the identification and characterization of therapies for cancer.

Described are DNA molecules which can be transcribed into an mRNA harbouring novel UTR sequences combining the advantages of being extremely short and at the same time allowing for high translation efficiencies of RNA molecules containing them. Further, described are vectors comprising such a DNA molecule and to host cells comprising such a vector. Moreover, described are corresponding RNA molecules containing such UTRs. Further, described is a pharmaceutical composition comprising the described RNA molecule and optionally a pharmaceutically acceptable carrier as well as to the use of the described UTRs for translating a coding region of an RNA molecule into a polypeptide or a protein encoded by said coding region.

Described are DNA molecules which can be transcribed into an mRNA harbouring novel UTR sequences combining the advantages of being extremely short and at the same time allowing for high translation efficiencies of RNA molecules containing them. Further, described are vectors comprising such a DNA molecule and to host cells comprising such a vector. Moreover, described are corresponding RNA molecules containing such UTRs. Further, described in a pharmaceutical composition comprising the described RNA molecule are optionally a pharmaceutically acceptable carrier as well as to the use of the described UTRs for translating a coding region of an RNA molecule into a polypeptide or a protein encoded by said coding region.

Genetically modified non-human animals and methods and compositions for making and using the same are provided, wherein the genetic modification comprises a humanization of an endogenous signal-regulatory protein gene, in particular a humanization of a SIRP? gene. Genetically modified mice are described, including mice that express a human or humanized SIRP? protein from an endogenous SIRP? locus.

The present disclosure relates to isolated polypeptides that inhibit Wnt signaling, pharmaceutical compositions comprising the isolated polypeptides, and methods of use thereof. Nucleic acids, cells, and methods of production related to the isolated polypeptides and compositions are also disclosed.

The present invention relates to a transduced cancer cell line stably expressing a leukemia tumor antigen, wherein the cancer cell line is cervical cancer cells, breast cancer cells, ovarian cancer cells, pancreatic cancer cells, lung cancer cells, or glioblastoma cells. The transduced adherent cell line of the present invention is useful for many pre-clinical applications such as real time cytotoxicity assay or to test the effects of CAR-T cells that target the tumor antigen. The present invention is exemplified by Hela cell line stably expressing CD19.

The invention relates to improved methods for treating a human subject diagnosed with cancer using combination drug regimens tailored to the genome/proteome/phenome of the subject's turn or/cancer. The treatment regimens are selected and/or their efficacy is confirmed using an animal model avatar, preferably a transgenic Drosophila avatar, of the genome/proteome/phenome of the subject. In certain embodiments, avatar armies representing the genomes/proteomes/phenomes of a population of patients diagnosed with a disease or disorder can be used to screen and select therapeutic regimens for treatment and/or to screen for new lead compounds and identify new therapeutics for the disease or disorder.

The present invention provides transgenic, large non-human animal models of cancer, as well as methods of using such animal models in the identification and characterization of therapies for cancer.

The present invention provides a method for producing platelets, including the step of culturing megakaryocyte cells in a culture solution in a culture vessel, wherein in the culturing step, the culture solution is stirred by a stirring blade moving reciprocally.

The present disclosure is directed, in some embodiments, to compositions and methods for inducible modification of a cell genome.