Compositions, kits, and methods for preparing nutrient compositions are provided. A nutrient composition can be a food composition such as a dairy composition. A nutrient composition may be produced by an engineered cell composition. Compositions, kits, and methods for preparing engineered cell compositions for producing nutrient compositions are also provided. An engineered cell composition may comprise genetically engineered cells, such as genetically engineered mammary or mammary-like cells. An engineered cell composition can be derived from mammalian stem cells, such as non-mammary adult stem cells. Related methods of characterization, such as for characterizing the engineered cell compositions or the nutrient compositions, are also provided.

The invention provides methods and compositions for producing a multi-layered cellular structure or blastocyst-like structure from a cell population of reprogrammed somatic cells.

The present application provides a composition for inducing chondrogenesis comprising an Wnt antagonist and a pharmaceutically acceptable carrier. The present application also provides a method for inducing chondrogenesis comprising administering an Wnt antagonist and a pharmaceutically acceptable carrier to a subject. The present application further provides a method for treating a cartilage-related disease comprising administering a therapeutically effective amount of an Wnt antagonist and a pharmaceutically acceptable carrier to a subject.

The application describes a contractile cellular biomaterial that is particularly well suited to regenerative therapy of tissue affected by myocardial infraction. The biomaterial comprises a contractile tissue which is contained in an optionally porous solid substrate. The contractile tissue is formed by differentiating stem cells, in particular mesenchymal stem cells. In addition to being contractile, the biomaterial can have inducible paracrine activity. The biomaterial has, in particular, the advantage of not needing to be frozen in order to be conserved.

Materials and methods for treating a patient with hemoglobinopathy, both ex vivo and in vivo and materials and methods for deleting at least a portion of a human beta globin locus on chromosome 11 in a human cell by genome editing and thereby increasing the production of fetal hemoglobin (HbF).

Provided are fast relaxing hydrogels that are useful for regulating cell behavior and enhancing tissue regeneration, e.g., bone regeneration.

The present invention provides new protease resistant polypeptides, as well as compositions and methods for treating, ameliorating or preventing conditions related to joint damage, including acute joint injury and arthritis.

Compositions and methods of transplanting cells by grafting strategies into solid organs (especially internal organs) are provided. These methods and compositions can be used to repair diseased organs or to establish models of disease states in experimental hosts. The method involves attachment onto the surface of a tissue or organ, a patch graft, a “bandaid-like” covering, containing epithelial cells with supporting early lineage stage mesenchymal cells. The cells are incorporated into soft gel-forming biomaterials prepared under serum-free, defined conditions comprised of nutrients, lipids, vitamins, and regulatory signals that collectively support stemness of the donor cells. The graft is covered with a biodegradable, biocompatible, bioresorbable backing used to affix the graft to the target site. The cells in the graft migrate into and throughout the tissue such that within a couple of weeks they are uniformly dispersed within the recipient (host) tissue. The mechanisms by which engraftment and integration of donor cells into the organ or tissue involve multiple membrane-associated and secreted forms of MMPs.

Various embodiments of the invention provide methods of treating diabetes and other glucose regulation disorders. In one embodiment, the method comprises removing L-cells from a donor, obtaining stem cells from a patient, and culturing the L-cells in the presence of the stem cells under conditions such that the stem cells differentiate into stem cell-derived L-cells (SCDLC). An amount of the SCDLC is introduced into the patient sufficient to cause a lowering of the patient's blood glucose level after ingestion of food. In another embodiment, the method comprises removing K-cells from a donor, obtaining stem cells from a patient, and culturing the K-cells in the presence of the stem cells under conditions such that the stem cells differentiate into stem cell-derived K-cells (SCDKC). An amount of the SCDKC is introduced into the patient sufficient to cause a lowering of the patient's blood glucose level after ingestion of food.

Various embodiments of the invention provide methods of treating diabetes and other glucose regulation disorders. In one embodiment, the method comprises removing L-cells from a donor, obtaining stem cells from a patient, and culturing the L-cells in the presence of the stem cells under conditions such that the stem cells differentiate into stem cell-derived L-cells (SCDLC). An amount of the SCDLC is introduced into the patient sufficient to cause a lowering of the patient's blood glucose level after ingestion of food. In another embodiment, the method comprises removing K-cells from a donor, obtaining stem cells from a patient, and culturing the K-cells in the presence of the stem cells under conditions such that the stem cells differentiate into stem cell-derived K-cells (SCDKC). An amount of the SCDKC is introduced into the patient sufficient to cause a lowering of the patient's blood glucose level after ingestion of food.