A pig intestinal tract epithelium cell line with METTL3 gene knocked out and a construction method therefor. A gene interference vector for METTL3 form a pig is also provided.

Described herein are methods for providing an in vitro intestinal model system, e.g., using primary cells instead of cell lines and/or cancerous cells.

In vitro equine organ model systems, and methods of making and using such systems, are provided and can include an organoid prepared using equine tissue associated with the organ of interest; or equine primary cells, wherein the equine primary cells are derived from equine tissue associated with an organ of interest, or derived from an organoid prepared using equine tissue associated with the organ of interest.

Organs-on-chips are microfluidic devices for culturing living cells in micrometer sized chambers in order to model physiological functions of tissues and organs. Engineered patterning and continuous fluid flow in these devices has allowed culturing of intestinal cells bearing physiologically relevant features and sustained exposure to bacteria while maintaining cellular viability, thereby allowing study of inflammatory bowl diseases. However, existing intestinal cells do not possess all physiologically relevant subtypes, do not possess the repertoire of genetic variations, or allow for study of other important cellular actors such as immune cells. Use of iPSC-derived epithelium, including IBD patient-specific cells, allows for superior disease modeling by capturing the multi-faceted nature of the disease.

The present invention features, in some embodiments, compositions comprising ex vivo or in vitro generated functional enteroendocrine (EE) cells, or enteroids, rectoids, or organoids comprising functional enteroendocrine cells, and methods of obtaining and using such cells for treating metabolic and gastrointestinal diseases, disorders, or conditions.

It is an object to provide a culture method which is capable of maintaining and/or culturing iPS cell-derived intestinal stem cells, while maintaining the properties of intestinal stem cells. The induced pluripotent stem cell-derived intestinal stem cell-like cells are cultured in the presence of a GSK-3β inhibitor, a histone deacetylation inhibitor, and a serum replacement, or in the presence of a GSK-3β inhibitor and a serum replacement. Preferably, the culture is carried out under conditions in which one or more compounds selected from the group consisting of an epidermal growth factor, a TGFβ receptor inhibitor and a fibroblast growth factor are further present.

The present invention relates to a method for preparing a human intestinal epithelial model. The human intestinal epithelial model, prepared by the method according to the present invention, has all characteristics of goblet cells, enteroendocrine cells, and Paneth cells, and thus can highly mimic the function of actual human intestinal cells, so that the human intestinal epithelial model can be effectively used for development of new drugs, evaluation of drug absorption and toxicity, or evaluation of engraftment of intestinal microorganisms, or as a composition for in vivo transplantation.

The present invention relates to a method for preparing a human intestinal epithelial model. The human intestinal epithelial model, prepared by the method according to the present invention, has all characteristics of goblet cells, enteroendocrine cells, and Paneth cells, and thus can highly mimic the function of actual human intestinal cells, so that the human intestinal epithelial model can be effectively used for development of new drugs, evaluation of drug absorption and toxicity, or evaluation of engraftment of intestinal microorganisms, or as a composition for in vivo transplantation.

It is provided a method for manufacturing viruses in an in vitro cell culture. The method comprising the following steps: providing a cell culture of avian epithelial cells chosen from at least one of the cell cultures deposited under deposition numbers DSM ACC3345, DSM ACC3346, DSM ACC3347, DSM ACC3348, DSM ACC3349 at Leibniz-Institut DSMZ-Deutsche Sammlung von Mikroorganismen and Zellkulturen GmbH on Dec. 12, 2018; infecting at least some of the cells in the cell culture with virus particles; incubating the cells for a first period of time; and recovering viruses produced by the cell culture from a supernatant of the cell culture.

Described herein are methods for treating a malabsorptive disorder. The malabsorptive disorder may be, in certain aspects, characterized by malabsorption of macronutrients in the intestine, and may include, for example, a disease selected from one or more of enteric anendocrinosis, short gut syndrome, enteric pathogen infection, malnutrition, genetic causes of malabsorption, Celiac disease, malabsorptive diarrhea, and inflammatory bowel. Such methods may include administration of peptide YY (PYY) to an individual in need thereof. Also described are medicaments for carrying out the disclosed methods.