Methods of protein production in continuous perfusion mammalian cell culture bioreactors are provided. Methods for continuous perfusion culture by allowing cells to self-regulate the rate of addition of perfusion medium to the bioreactor via a pH change are presented. Compositions comprising the perfusion medium as well as the process advantages of using hi-end pH control of perfusion or HIPCOP are also presented.

The present invention relates to cell culture media compositions comprising deep eutectic solvents and/or ionic liquids.

The invention provides tissue culture system for primary cells (e.g. normal mammalian primary epithelial progenitors). This system includes: a) a serum-free, chemically defined cell culture media; and, b) methods for isolation and in vitro long-term propagation of primary cells (e.g. primary epithelial cells). Primary cells so isolated and cultured can be kept undifferentiated and proliferate for many weeks (>15 weeks) or population doubling (>35 PD) without senescence, or any detectable genetic alterations. Upon changing media/culture conditions, these cells can be induced to differentiate.

The invention also provides methods to transform normal primary cells so cultured into cancer stem cells. The genetically defined cancer stem cell tumor model mimics the behavior of the disease closely, e.g., the cells are invasive, hormone responsive and metastatic when injected into mice. The tumor cells express genes that are specific to cancer stem cells identified in patient samples.

A medium is described for the protein-free and serum-free cultivation of cells, especially mammalian cells, whereby the medium contains a proportion of soy hydrolysate.

The present invention is directed generally to dry cell culture media or feeds in pellet formats which can be reconstituted into liquid media for culturing cells in vitro. Each pellet composition may comprise the same or a different composition; for example, different vitamins, amino acids, buffers, trace salts, pH, iron chelators, etc. The invention also relates to methods of making dry cell culture media by altering ratios of different pellet compositions, or, methods of making modular dry cell culture media, or customizing media formulations for growing a cell type using pellets. According to the invention, media pellets may be easier to handle either before reconstitution, during shipping and handling; and/or during reconstitution. Media pellets may be used in any container like bags including sterile, single use bags for preparing media formulations. The invention also relates to kits and culture systems using media pellets.

Disclosed are methods, protocols, and compositions of matter useful for treatment of cancer by elicitation of immunity towards tumor blood vessels. In one embodiment, the invention teaches the stimulation of expression of tumor blood vessel associated antigens in cells derived from endothelial progenitor cells, through culture of cells in conditions resembling the tumor microenvironment. In another embodiment, the invention teaches increasing immunogenicity of endothelial progenitor cells or progeny thereof through treatment with agents such as interferon gamma, which are capable of upregulating histocompatibility antigens, which allow for allogeneic rejection upon administration. In another embodiment, the invention teaches immunization with endothelial progenitor cells or progeny thereof treated under conditions to resemble tumor blood vessels, in which administered cells are purposely mismatched with recipient HLA in order to provide for enhanced allogenicity. In one embodiment, purposeful mismatching is accomplished through transfection or cell painting of molecules capable of eliciting an immunological response.

A method for growing polarized endometrial cells, said method comprising: (a) disposing endometrial cells on a scaffold, said scaffold comprising a silica-based glass composition, characterized by multi-modal porosity, said scaffold being to define a top side and a bottom side; (b) providing nutrients to said top and bottom sides of said scaffold and an environment to grow polarized endometrial cells on said scaffold.

The specification provides an improved media formulation to enhance the viability of chondrocytes in stored biological samples. The formulation includes Dulbecco's Modified Eagle Medium (DMEM), doxycycline, and hyaluronic acid, in concentrations sufficient to maintain the chondrocytes' viability significantly longer than DMEM alone. This formulation allows biological samples containing chondrocytes to retain high viability rates for extended periods to be suitable for transplant purposes, such as in osteochondral tissue transplantation.

This disclosure generally relates to cell-based therapies for treatment of visual disorders, including disorders of the cornea. Methods are exemplified for directed differentiation of corneal cells from stem cells. Compositions of corneal endothelial cells and uses thereof are also provided. Exemplary compositions exhibit improved cell density and/or more youthful gene expression relative to cells obtained from donated tissue.

Methods and compositions are provided for generating targeted genetic modifications on the Y chromosome or a challenging target locus. Compositions include an in vitro culture comprising an XY pluripotent and/or totipotent animal cell (i.e., XY ES cells or XY iPS cells) having a modification that decreases the level and/or activity of an Sry protein; and, culturing these cells in a medium that promotes development of XY F0 fertile females. Such compositions find use in various methods for making a fertile female XY non-human mammal in an F0 generation.