The present invention relates to methods of producing pancreatic endocrine cells and uses of the cells obtained using the methods. The method utilises inhibitors or combinations of factors to provide increased quantities of endocrine material, for example for transplantation purposes.

The present invention pertains to a method for the generation of neurotoxin-sensitive, neuronal differentiated cells comprising the steps of: a) cultivating tumor cells which are able to differentiate into neuronal cells in a culture medium under conditions and for a time which primes said tumor cells for neuronal differentiation; and b) cultivating the tumor cells primed for neuronal differentiation of a) in a differentiation medium having an osmolality of 100 to 270 mOsm/kg, and comprising (i) B27 supplement and/or (ii) N2 supplement, for at least 3 days, thereby obtaining neurotoxin-sensitive, neuronal differentiated cells. The invention further relates to neurotoxin-sensitive, neuronal differentiated cells obtainable by the method of the invention. In addition, the invention encompasses a method for determining the activity of a neurotoxin polypeptide comprising the steps of: a) contacting the neurotoxin-sensitive, neuronal differentiated cells obtainable by the method of the invention with a neurotoxin polypeptide; b) cultivating the neurotoxin-sensitive, neuronal differentiated cells of step a) for 3 to 74 hours or 72 hours under conditions which allow for the neurotoxin polypeptide to exert its biological activity; and c) determining the activity of the neurotoxin polypeptide in the said cells after cultivation according to step b). Finally, the invention provides for a medium comprising OptiMEM, FBS, B27 supplement, and N2 supplement.

The present invention relates to temozolomide resistant glioblastoma cells lines. Further, the present invention relates to a method for identifying, screening and characterizing temozolomide resistant cells derived from glioblastoma cells lines in patients diagnosed with glioblastoma and undergoing treatment with temozolomide and/or in patients on the part to recovery to avoid or treat relapse. The issue of temozolomide resistance at the level of diagnosis and treatment of glioblastoma is undertaken by the present invention to be solved by the present invention.

A method of obtaining a pluripotent-like multipotent cell, including providing a cell of a first type which is not a pluripotent-like multipotent cell; contacting the cell of a first type with an agent capable of remodeling the chromatin and/or DNA of the cell; transiently increasing expression of at least one pluripotent gene regulator in the cell of a first type, to a level at which the at least one pluripotent gene regulator is capable of driving transformation of the cell of a first type into the pluripotent-like multipotent cell; and placing or maintaining the cell in a differentiation medium and maintaining intracellular levels of the at least one pluripotent gene regulator for a sufficient period of time to allow a stable pluripotent-like multipotent cell to be obtained; wherein the pluripotent-like multipotent cell so obtained does not exhibit teratoma formation in vivo.

The invention provides cellular compositions that contain CD34.sup.+ cells derived from bone marrow of a decease donor and CD3.sup.+ cells derived from non-bone marrow of the deceased donor. The compositions are useful to promote mixed chimerism in recipients of solid organ transplants. The invention also provides methods of making and using such compositions. In certain embodiments, the invention further provides methods of analyzing and preparing blood and blood components from a deceased donor for use in compositions of the invention to promote mixed chimerism in solid organ transplant recipients.

There is provided according to the invention a method of treating a mammal suffering from or susceptible to an immune reaction to drug treatment comprising the raising of anti-drug antibodies which method comprises (a) ex-vivo treating antigen presenting cells obtained from the mammal with an agent which induces IDO in said antigen presenting cells in the presence of said drug or an epitope containing fragment thereof and (b) after IDO has been induced in said antigen presenting cells, transferring said cells back to the mammal thereby to establish immune tolerance to the drug.

Described herein are tissue cultures and methods for culturing stem-cell derived neurons in three-dimensional culture. Also provided are methods for screening therapeutic agents, developing cell line models, identifying genes associated with a neurological disease, and identifying genes associated with neuronal cell phenotypes.

Vacuole- or exosome-inducing indole-based chalcone and substituted triazole-hydrazone compounds that induce endosomal vacuolization and increase exosome yield, but do not trigger growth arrest or cell death, and methods of making and using are described.

Implantable scaffolds that treat solid tumors and escape variants and that provide effective vaccinations against cancer recurrence are described. The scaffolds include genetically-reprogrammed lymphocytes and a lymphocyte-activating moiety.

Disclosed are methods for the isolation of tumor-specific immune cells from subjects that have a malignant tumor and have received local administration of a composition comprising taxane particles to the malignant tumor, and use of such isolated immune cells in compositions for adoptive cell therapy and cancer vaccines.