Synthetic surfaces suitable for culturing stem cell derived cardiomyocytes contain acrylate polymers formed from one or more acrylate monomers. The acrylate surfaces, in many cases, are suitable for culturing stem cell derived cardiomyocytes in chemically defined media.

The present invention has an object to solve the problem in a method for separating nucleated cells from a cell-containing fluid using a cell separation filter. Specifically, the present invention provides a cell separation filter and a method for preparing cells using a cell separation filter, which are capable of reducing unnecessary cell contamination in a nucleated cell fraction without needs of designing non-woven fabrics to suit cell species to be recovered. The present invention also provides a cell separation filter and a method for preparing cells using the filter capable of improving the recovery yield of nucleated cells. The present invention provides a cell separation filter comprising: a container having an inlet and an outlet, an adsorbent filled in the container, and a partition having an opening, the partition separating the adsorbent. The present invention also provides a method for preparing nucleated cells including the steps of: introducing a cell-containing fluid through the inlet of the cell separation filter to contact the cell-containing fluid with the adsorbent; and recovering a nucleated cell fraction from the filter.

The Present invention relates to antibodies that immunospecifically bind to phospho-Akt and certain p-Akt substrates. The invention encompasses human and humanized forms of the antibodies and their use in treating cancers and other proliferative disorders. The invention also relates to p-Akt derived peptides useful for preparing the antibodies. Methods and compositions for detecting, diagnosing, treating or ameliorating a disease or disorder, especially cancer and other proliferative disorders using the present antibodies also are disclosed.

The present invention provides HIV-derived lentivectors which are safe, highly efficient, and very potent for expressing transgenes for human gene therapy, especially, in human hematopoietic progenitor cells as well as in all other blood cell derivatives. The lentiviral vectors comprise a self-inactivating configuration for biosafety and promoters such as the EF1α promoter as one example. Additional promoters are also described. The vectors can also comprise additional transcription enhancing elements such as the wood chuck hepatitis virus post-transcriptional regulatory element. These vectors therefore provide useful tools for genetic treatments such as inherited and acquired lympho-hematological disorders, gene-therapies for cancers especially the hematological cancers, as well as for the study of hematopoiesis via lentivector-mediated modification of human HSCs.

The present invention provides, inter alia, methods for identifying a candidate agent that may be effective to treat or ameliorate an effect of a neurodegenerative disease in a subject. These methods include: (a) contacting a wildtype neuron and a mutant neuron with a stressor which is effective to accelerate the degeneration of the mutant neuron; (b) further contacting the wildtype neuron and the mutant neuron from step (a) with a candidate agent; and (c) determining whether the candidate agent lowers a wildtype to mutant survival ratio or increases both wildtype and mutant neuron survival.

This invention relates to a method for producing a protein of interest, comprising introducing a protein expression vector which comprises a gene fragment a gene fragment comprising a DNA encoding a protein of interest and a selectable marker gene and transposon sequences at both terminals of the gene fragment, into a suspension mammalian cell; integrating the gene fragment inserted between a pair of the transposon sequences, into a chromosome of the mammalian cell to obtain a mammalian cell capable of expressing the protein of interest; and suspension-culturing the mammalian cell; and a suspension mammalian cell capable of expressing the protein of interest.

The invention provides a defined low protein culture medium for maintaining cells in an undifferentiated state, the medium comprising: a basal medium, an organic acid from the tricarboxylic acid cycle, nonessential amino acids, a combination of growth factors selected from the group consisting of FGF-2 protein, an IGF-1 protein or insulin, a Transferrin protein, and a TGF beta 1 protein, wherein the medium is essentially feeder-free, essentially xeno-free, essentially free of beta-mercaptoethanol, and essentially free of animal-derived or human-derived proteins.

A composition comprising microcapsules, the microcapsules containing both live mammalian ovarian granulosa cells and live mammalian ovarian theca cells, is described. In some embodiments, the granulosa cells and the theca cells are contained in separate microcapsules in the composition; in some embodiments, the granulosa cells and the theca cells are contained together in the same microcapsules in the composition The composition is can be used for estrogen, and optionally also progesterone, delivery, and hence is preferably free or essentially free of oocytes. Methods of using the same and pharmaceutical formulations containing the same are also described.

The present invention is based in part the discovery of methods for the generation of neural crest stem cells (NCSCs) from human pluripotent stem cells (hPSCs). Specifically, the present invention discloses methods for the use of a combination of rho-associated protein kinase (ROCK) inhibitors, glycogen synthase kinase 3 (GSK-3) inhibitors, activing receptor like kinase (ALK) receptor inhibitors and bone morphogenic protein (BMP) receptor inhibitors to derive NCSCs from hPSCs. The present invention also discloses methods to treat neurocristopathic diseases and disorders using NCSCs derived from hPSCs.

The invention provides means and methods for producing one or more Ig-like molecules in a single host cell. Novel CH3 mutations enabling the production of monospecific and/or bispecific Ig-like molecules of interest are also provided.