The present invention relates to an ovarian-derived hydrogel material, which can be useful for three-dimensional in vitro culturing of cells, cell therapy, fertility preservation, drug delivery, site-specific remodeling and repair of damaged tissue, and/or diagnostic kits.

The invention relates to methods of improving protein production, e.g., large-scale commercial protein production, e.g., antibody production, utilizing a modified fed-batch cell culture method comprising a cell growth phase and a polypeptide production phase. The modified fed-batch cell culture method combines both cell culture perfusion and fed-batch methods to achieve higher titers of polypeptide products. Because the modified fed-batch cell culture method of the invention produces higher polypeptide product titers than fed-batch culture alone, it will substantially improve commercial-scale protein production. The invention also relates to a perfusion bioreactor apparatus comprising a fresh medium reservoir connected to a bioreactor by a feed pump, a recirculation loop connected to the bioreactor, wherein the recirculation loop comprises a filtration device, e.g., ultrafiltration or microfiltration, and a permeate pump connecting the filtration device to a permeate collection container.

An object of the present invention is to provide a method for selecting cells, an apparatus for selecting cells, and an apparatus system for selecting cells, which enables evaluation of a damage resistance of the cells in a suspension culture system. According to the present invention, provided is a method for selecting cells including introducing cells into a micro flow passage and allowing the cells to pass through the micro flow passage, evaluating a damage resistance of the cells to damage received by the cells due to passing through the micro flow passage, and selecting the cells based on the evaluation of the damage resistance.

Described are antagonistic TNFR2 polypeptides, such as antibodies and antigen-binding fragments thereof, and the use of these polypeptides to inhibit the proliferation of regulatory T cells (T-regs) and/or myeloid-derived suppressor cells (MDSCs), to expand T effector cell populations or function, and to reduce the proliferation of, or directly kill, tumor cells, such as tumor cells that express TNFR2 antigen. The polypeptides, such as antibodies and antigen-binding fragments thereof, are TNFR2 antagonists, such as dominant TNFR2 antagonists. The polypeptides can be used to suppress the T-reg- or MDSC-mediated deactivation of tumor reactive T lymphocytes, expand populations of tumor-reactive cytotoxic T cells, and/or to directly kill TNFR2+ tumor cells. The antagonistic TNFR2 polypeptides described herein can be used to treat a wide variety of cancers and infectious diseases.

The invention provides inducible promoter systems and their components incorporating components of a tetracycline operon. By coordinating expression of different transcriptional units in these systems as a result of selection of promoters and/or linking the units into the same DNA molecule, these systems can achieve higher levels of expression of coding segments of interest, increased differential levels of expression between on- and off-states, and/or greater responsiveness to inducing agents than conventional systems.

The present disclosure features methods and compositions for modulating lipid metabolism to achieve improved production and quality of recombinant products, such as next generation biologics. Modulation of lipid metabolism as described herein includes, for example, introducing a lipid metabolism modulator described herein to a cell or a cell-free system. Also encompassed by the present disclosure are engineered cells with improved production capacity and improved product quality, methods for engineering such cells, and preparations and mixtures comprising the products from such cells.

Disclosed herein is a cell culture media containing L-glutamine from a set of N-acylated dipeptides Acyl-X-Q, and L-glutamine from a set of other glutamine-sources Qsource in a defined molar ratio R=n(Acyl-X-Q)/n(Qsource), wherein the variables X, Q, Acyl, R, n(Acyl-X-Q) and n(Qsource) are defined in the general disclosure. Processes of using the cell culture media are also described herein.

The present invention relates to an ovarian-derived hydrogel material, which can be useful for three-dimensional in vitro culturing of cells, cell therapy, fertility preservation, drug delivery, site-specific remodeling and repair of damaged tissue, and/or diagnostic kits.

The invention provides a group of anti-VHH domain antibodies and use thereof. The present invention further provides use of the described antibodies in the development, screening and purification of nano-antibodies, and use of the described antibodies in the field of immunotherapy.

Various cells, stem cells, and stem cell components, including associated methods of generating and using such cells are provided. In one aspect, for example, an isolated cell that is capable of self-renewal and culture expansion and is obtained from a subepithelial layer of a mammalian umbilical cord tissue. Such an isolated cell expresses at least three cell markers selected from CD29, CD73, CD90, CD166, SSEA4, CD9, CD44, CD146, or CD105, and does not express at least three cell markers selected from CD45, CD34, CD14, CD79, CD106, CD86, CD80, CD19, CD117, Stro-1, or HLA-DR.