An aluminoborate glass composition, including B.sub.2O.sub.3, Al.sub.2O.sub.3, P.sub.2O.sub.5, Na.sub.2O, and CaO, as defined herein. Also disclosed are bioactive compositions including the disclosed aluminoborate glass composition, a suitable fluid, and at least one live cell. Also disclosed is method of limiting the amount of boron released into an aqueous solution from a disclosed aluminoborate-containing glass composition as defined herein. Also disclosed is a method of proliferating cells on a bioactive substrate as defined herein.

The present invention relates to endothelial cells and methods of generating endothelial cells from pluripotent stem cells.

A method for inducing differentiation into pancreatic α cells includes: a step (a) of culturing endodermal cells, which have been induced to differentiate from pluripotent stem cells, in the presence of a bone morphogenetic protein (BMP) signaling inhibitor, and retinoic acid or a retinoic acid analog to induce differentiation into primitive gut tube (PGT) cells; a step (b) of culturing the primitive gut tube (PGT) cells to induce differentiation into pancreatic endocrine precursor (EP) cells; and a step (c) of culturing the pancreatic endocrine precursor (EP) cells to induce differentiation into pancreatic α cells, in which the step (b) and the step (c) are performed in the absence of ascorbic acid.

The present invention relates to the development and manufacturing of viral vaccines. In particular, the invention relates to the field of industrial production of viral vectors and vaccines, more in particular to the use of avian embryonic stem cells, preferably the EBx® cell line derived from duck embryonic stem cells, for the production of viral vectors and viruses. The invention is particularly useful for the industrial production of viral vaccines to prevent viral infection of humans and animals.

A method for making an at least double layered cell aggregate and/or an artificial blastocyst, and/or a further-developed blastoid termed blastoid, by forming a double layered cell aggregate from at least one trophoblast cell and at least one pluripotent and/or totipotent cell, and culturing the aggregate to obtain an artificial blastocyst having a trophectoderm-like tissue that surrounds a blastocoel and an inner cell mass-like tissue. The cell aggregate can be formed from toti- or pluripotent stem cell types, or induced pluripotent stem cell types, in combination with trophoblast stem cells. Formation of a blastoid can be achieved by culturing the cell aggregate in a medium preferably comprising one or more of a Rho/ROCK inhibitor, a Wnt pathway modulator, a PKA pathway modulator, a PKC pathway modulator, a MAPK pathway modulator, a STAT pathway modulator, an Akt pathway modulator, a Tgf pathway modulator and a Hippo pathway modulator. Also, a method for growing an at least double layered cell aggregate into an artificial blastocyst, and into a further-developed blastoid, a foetus or a live animal and an in vitro cell culture comprising the mentioned compounds and/or cell aggregates.

The present invention relates to cell culture media supplements or complete media compositions comprising plant-produced heterologous recombinant human albumin, as well as methods of making the cell culture media, and methods of using the supplemented cell culture media to improve viability, productivity, and growth characteristics of cultured cells.

This invention provides populations of neural progenitor cells, differentiated neurons, glial cells, and astrocytes. The populations are obtained by culturing stem cell populations (such as embryonic stem cells) in a cocktail of growth conditions that initiates differentiation, and establishes the neural progenitor population. The progenitors can be further differentiated in culture into a variety of different neural phenotypes, including dopaminergic neurons. The differentiated cell populations or the neural progenitors can be generated in large quantities for use in drug screening and the treatment of neurological disorders.

To provide a method for serum-free culture of human cartilage cells and a serum-free culture medium. A method for serum-free culture of cartilage cells, said method comprising: an enzymatic treatment step for treating a human cartilage cell-containing tissue with a protease; an inhibitor-treatment step for, after the enzymatic treatment step, treating the tissue with an inhibitor for the aforesaid protease; and a culture step for, after the inhibitor-treatment step, culturing the tissue in a serum-free culture medium that contains kartogenin and/or SAG, ITS, FGF2 and hydrocortisone. A serum-free culture medium for culturing cartilage cells, said serum-free culture medium containing kartogenin and/or SAG, ITS, FGF2 and hydrocortisone.

Disclosed are methods for conditionally immortalizing stem cells, including adult and embryonic stem cells, the cells produced by such methods, therapeutic and laboratory or research methods of using such cells, and methods to identify compounds related to cell differentiation and development or to treat diseases, using such cells. A mouse model of acute myeloid leukemia (AML) and cells and methods related to such mouse model are also described.

The invention provides isolated stem cells of non-embryonic origin that can be maintained in culture in the undifferentiated state or differentiated to form cells of multiple tissue types. Also provided are methods of isolation and culture, as well as therapeutic uses for the isolated cells.