The invention features pancreatic islet and pancreatic organoids, and cell cultures and methods that are useful for the rapid and reliable generation of pancreatic islet and pancreatic islet organoids. The invention also features methods of treating pancreatic diseases and methods of identifying agents that are useful for treatment of pancreatic diseases, such as type 2 diabetes and pancreatic cancer, using the pancreatic islet and pancreatic organoids of the invention.

A cell or tissue embedding device having an aqueous gel serving as an immunoisolation layer, the aqueous gel containing, as components thereof, a denatured polyvinyl alcohol resin having an activated carbonyl group and a crosslinking agent is highly capable of supplying a physiologically active substance.

The invention provides for methods of differentiating pancreatic endocrine cells into pancreatic beta cells expressing PDX1, NKX6.1, MAFA, UCN3 and SLC2A. These pancreatic beta cells may be obtained by step-wise differentiation of pluripotent stem cells. The pancreatic beta cells exhibit glucose-dependent mitochondrial respiration and glucose-stimulated insulin secretion similar to islet cells.

Multiplanar microfluidic devices are provided that facilitate direct transverse fluid communication between a first microfluidic channel a plurality of adjacent microfluidic channels, where the adjacent microfluidic channels reside both laterally adjacent and vertically adjacent to the first microfluidic channel, thereby facilitating transverse diffusion to or from the adjacent microfluidic channels in both lateral and vertical directions. Geometrical meniscus-pinning features, such as meniscus-pinning ridge structures, are provided between adjacent microfluidic channels to restrict transverse flow between the microfluidic channels. Accordingly, a gel structure may be formed within the first microfluidic channel and one or more of the adjacent microfluidic channels can function as a perfusion channel, for example, for delivering media to cells residing withing the gel structure. Such devices may be extended and/or arrayed to include multiple channels with laterally and vertically adjacent perfusion microfluidic channels, optionally with shared lateral perfusion microfluidic channels among adjacent pairs of devices.

The present invention provides an improved encapsulated pancreatic islet. A formulation comprising a core covered with a five-layered membrane, wherein the core comprises one or more pancreatic islets; and the first, third, and fifth membranes from the inner side of the five-layered membrane contain alginic acid, and the second and fourth membranes from the inner side contain polyornithine.

Establishment of pancreatic islet-like insulin producing cells by inducing differentiation of ES/iPS cells has been reported. However, no technique has been developed so far for producing functional pancreatic islet insulin-positive cells in a large amount. In addition, there are concerns regarding rejection responses, accidental immune responses, etc. The present invention provides pancreatic islet-like cells having Mycl gene introduced thereinto and a method that comprises inducing proliferation of pancreatic islet-like cells by transient expression of Mycl gene and then inducing degradation thereof into insulin producing cells.

The present disclosure provides a method of manufacturing pancreas Islet of Langerhans (IOL) mimetics using induced human pluripotent stem cells (iPSc) and porous micro carrier scaffolds that allow for subsequent vascularization and/or innervation.

A masking member contains parallel through-holes, each of the through-holes contains a tilted wall structure; an upper end of the tilted wall structure of one of the through-holes abuts on an upper end of the tilted wall structure of an adjacent one of the through-holes thereby forming a knife-edge ridge at the upper ends. The masking member may in contact with a substrate. Formation in quantity of various different populations of a substance being studied with multiple combinations of distribution form and distribution density may be conducted by dripping a suspension of a single concentration of the substance onto the masking member.

Disclosed herein are cell cultures and enriched cell populations of endocrine precursor cells, immature pancreatic hormone-expressing cells and mature pancreatic hormone-expressing cells. Also disclosed herein are methods of producing such cell cultures and cell populations.

It is intended to develop a technique that can reproduce a microenvironment of cancer tissue and to construct a novel drug discovery screening system of high precision. It is also intended to provide a method for reconstituting human cancer tissue using primary human cancer cells that retain the properties of human tumor. The present invention provides a reconstituted cancer organoid reproducing a cancer microenvironment. The present invention also provides a method for preparing a cancer organoid from cancer tissue, a xenograft prepared from the cancer organoid, a method for preparing the xenograft, a method for evaluating treatment resistance of cancer, a method for evaluating invasion or metastasis of cancer, a method for evaluating recurrence of cancer, and a method for conducting prognostic prediction of cancer.