The present invention provides, among other things, methods for producing platelets including the steps of providing a silk membrane about 2 μm and 100 μm thick, inclusive, contacting the silk membrane with a porogen to form a porous silk membrane comprising at least one silk wall defining a lumen, associating the porous silk membrane with stromal derived factor-1? and at least one functionalizing agent, forming a three dimensional silk matrix comprising interconnected pores wherein the pores have a diameter of between about 5 and 500 μm, inclusive, wherein the silk matrix is formed around at least a portion of the porous silk membrane, introducing a plurality of megakaryocytes to the silk matrix such that the megakaryocytes are located at least partially within the porous silk matrix, and stimulating the plurality of megakaryocytes to produce platelets. Also provided are various new compositions and methods of making those compositions.

Methods of using human airway stem cells in lung epithelial engineering, optionally wherein the cells are contacted with a gamma secretase inhibitor, bioartificial airway organs produced thereby, and the use thereof, e.g., for transplantation. Also methods of treating a bio-artificial matrix with Tenascin-C and/or fibrillin 2.

A method of assessing an anti-cancer drug including culturing a cell structure including cancer cells and stromal cells in a presence of at least one anti-cancer drug, and assessing an anti-cancer effect of the at least one anti-cancer drug based on a number of viable cancer cells in the cell structure after the culturing.

Thus, provided herein are pericyte progenitor cells (e.g., isolated pericyte progenitor cells), methods for generating pericyte progenitors in clinically relevant numbers for various applications applying macromolecular crowding during cell culture, and methods of using the pericyte progenitor cells.

The present invention provides: a method for producing mixed cells comprising cardiomyocytes, endothelial cells and mural cells from induced pluripotent stem cells, the method comprising (a) a step of producing cardiomyocytes from induced pluripotent stem cells and (b) a step of culturing the cardiomyocytes in the presence of VEGF; and a therapeutic agent for heart diseases, comprising the mixed cells produced by the method.

Disclosed herein are methods and compositions for stimulating angiogenesis, using cells descended from marrow adherent stromal cells that have been transfected with sequences encoding a Notch intracellular domain. Applications of these methods and compositions include treatment of ischemic disorders such as stroke.

The invention provides a combination of compositions comprising in a first composition 17β-estradiol as the active ingredient and, as a second composition, a suspension of cells for use in the treatment of functional defects of an epithelium, e.g. of an epithelium of a tissue, which tissue may be part of an organ.

Engineered, living, three-dimensional liver tissue constructs comprising: one or more layers, wherein each layer contains one or more liver cell types, the one or more layers cohered to form a living, three-dimensional liver tissue construct. In some embodiments, the constructs are characterized by having at least one of: at least one layer comprising a plurality of cell types, the cell types spatially arranged relative to each other to create a planar geometry; and a plurality of layers, at least one layer compositionally or architecturally distinct from at least one other layer to create a laminar geometry. Also disclosed are arrays and methods of making the same. Also disclosed are engineered, living, three-dimensional liver tissue constructs for use in the augmentation or restoration of one or more liver functions, by in vivo delivery of tissue or utilization of tissue in an extracorporeal device.

Maintenance of adult tissues depends on stem cell self-renewal in local niches. Spermatogonial stem cells (SSC) are germline adult stem cells necessary for spermatogenesis and fertility. The present invention relates utilization of testicular endothelial cells (TECs) in the SSC niche producing glial cell line-derived neurotrophic factor (GDNF) and other factors to support human and mammal SSCs in long-term culture. The present invention also relates to utilization of five factors sufficient for long-term maintenance of human and mammal SSC colonies in feeder-free cultures. Male cancer survivors after chemotherapy are often infertile since SSCs are highly susceptible to cytotoxic injury. Transplantation of TECs alone is used to restore spermatogenesis in mice after chemotherapy-induced depletion of SSCs.

The present disclosure relates to a method for obtaining human brain-like endothelial cells by contacting a population of cells isolated from stem cells with a differentiation medium to obtain endothelial cells and co-culturing said endothelial cells with pericytes, with cells of the neurovascular unit or with a pericytes conditioned medium, to obtain brain-like endothelial cells. The present disclosure also relates to the use of the brain-like endothelial cells as an in vitro model of human blood-brain barrier and a kit for measuring blood-brain barrier permeability of a substance, comprising in vitro human endothelial cells.