The invention provides a method for culturing mammalian cells. The method provides greater control over cell growth to achieve high product titer cell cultures.

The present invention provides a cell culture having a cartilage-like tissue forming property, including a cell population in which the expression intensity of at least one cell surface marker selected from the group consisting of CD166, CD165, CD99, GD2, STRO-1, CD108, CD164, CD6, CD106, and CD107b is not higher than the threshold for each cell surface marker, and/or, the expression intensity of at least one cell surface marker selected from the group consisting of CD26, CD73, CD105, CD44, CD120a, CD201, EGFR, CD146, CD140a, and CD90 is not lower than the threshold for each cell surface marker.

The invention provides a bioactive substance composition, a serum-free medium comprising the composition and the uses thereof. The bioactive substance composition is used for serum-free medium and/or composition and the preparation thereof; The serum-free medium and/or composition can be used for primary culture and secondary culture of cells and/or tissues. The cells are selected from any one or more of tendon and/or ligament derived cells, chondrocytes, meniscus stem cells, mesenchymal stem cells, skeleton stem cells, and muscle stem cells. The tissue is the musculoskeletal system tissue. The bioactive substance composition and/or serum-free medium and/or the composition can be used to prepare drugs for tissue and/or organ injury treatment; The tissue or organ injury is selected from the tissue or organ injury of the musculoskeletal system.

The present invention comprises a system and method for co-culturing glia cells and neurons in a combination of glia culture medium and neuron medium wherein the glia cells and neurons have cell morphology, cell reactions and/or cell interactions that exist in vivo after the co-culturing for up to about 21 days, up to about 30 days, up to about 40 days, up to about 45 days. Since the cell morphology, cell reaction and/or cell interaction of the co-culture are similar to those seen in vivo, the present system is capable of being configured as animal models for research, drug screening, testing and conducting clinical trials.

The method for producing a cell aggregate including glial progenitor cells according to the present invention comprises: (1) a step of subjecting pluripotent stem cells to suspension culture in an embryoid-body-forming culture medium containing one or more SMAD signaling inhibitors and one or more Wnt signaling activators in the absence of feeder cells for 5 days to 10 days, to form a cell aggregate; (2) a step of subjecting the cell aggregate obtained in (1) to suspension culture in an embryoid-body-forming culture medium containing retinoic acid; (3) a step of subjecting the cell aggregate obtained in (2) to suspension culture in an embryoid-body-forming culture medium or neuron-and-glia-proliferating culture medium containing retinoic acid and one or more SHH signaling activators; and (4) a step of subjecting the cell aggregate obtained in (3) to suspension culture in a neuron-and-glia-proliferating culture medium containing no retinoic acid and one or more SHH signaling activators.

Provided are engineered human immune cells, a preparation method, and an application thereof. The engineered human immune cells are immune killer lymphocytes induced by reprogramming human T cells, from which the BCL11B gene is deleted. The engineered human immune cells retain markers and functions of the T cells from which they are derived and have markers and functions of NK cells. The reprogrammed engineered human immune cells can be used to prepare drugs for treating tumors and infectious diseases.

Methods of culturing cells capable of producing desired proteins to obtain the proteins by use of a medium from which biological components are excluded as much as possible are provided. Specifically, a culture method characterized by culturing while maintaining a specific amino acid in a culture solution at a high concentration, and a cell culture fed-batch medium for use in the method are provided.

A process for preparing phenylacetic acid is provided. The process essentially includes the steps of providing one or more yeast strains belonging to the genus Yarrowia and mutants thereof, providing a culture medium including phenylalanine, transforming phenylalanine into phenylacetic acid by fermentation of the one or more yeast strains in the culture medium, the phenylacetic acid being contained in a fermentation broth obtained by the fermentation, and isolating the phenylacetic acid from the fermentation broth.

A medium-based method for inducing specific differentiation of dental stem cells into dopaminergic neurons is provided. The method includes seeding the dental stem cells at a concentration of 5000 cells/cm.sup.2, following 24-hour incubation, introducing the cells into first part neurogenic induction medium and continuing the medium application for 4 days; subsequently, introducing the cells into the second part neurogenic induction medium and continuing the medium application for 2 days; and terminating the differentiation at the end of 6 days. The objective of the present invention is to develop cellular applications for use in treatment of neurodegenerative diseases and medications related to the said diseases.

In accordance with the present invention, CHO cells expressing a recombinant polypeptide of interest are grown in media where the amino acids, vitamins, phosphate, lipids and/or antioxidant optimization is utilized to manipulate and/or control the protein quality attributes of the polypeptides. Polypeptides expressed in accordance with the present invention may be advantageously used in the preparation of pharmaceutical compositions.