Provided are compositions for long-term maintenance of functional hepatocytes in culture, a method for improved maintenance of functional hepatocytes in vitro, and functional hepatocytes cultures according to the methods. The culture compositions include at least: one activator of adenylate cyclase, one TGFβ inhibitor, one Notch inhibitor, one Wnt inhibitor, and/or one BMP inhibitor. The combinations of compounds are added to any hepatocyte cell culture medium in an effective amount to maintain functional hepatocyte function in vitro, long term. The hepatocytes can be used for in vitro drug research and to model liver disease.

As a method for producing enterocytes derived from pluripotent stem cells and having functions corresponding to those of actual enterocytes, a method for producing enterocytes using an enterocyte differentiation medium containing a GSK3 inhibitor, and at least one selected from the group consisting of an activator of a hepatocyte growth factor receptor, an adrenal cortex hormone, calcitriol, and dimethyl sulfoxide is provided.

The present invention it was determined that dendritic cells could be derived from various sources including peripheral blood monocytes in the presence of only GM-CSF without other cytokines if the monocytes were not activated. By preventing activation, such as by preventing binding of the cells to the surface of the culture vessel, the monocytes do not require the presence of additional cytokines, such as IL-4 or IL-13, to prevent differentiation into a non-dendritic cell lineage. The immature DCs generated and maintained in this manner were CD14.sup.− and expressed high levels of CD1a. Upon maturation by contact with an agent such as, for example, BCG and IFNγ, the cells were determined to express surface molecules typical of mature dendritic cells purified by prior methods and cultured in the presence of GM-CSF and IL-4. The mature dendritic cells produced from monocytes without activation and cultured in GM-CSF alone are suitable for use in dendritic cell-based immunotherapy methods, such as for use in the treatment of disease, including cancer.

Cultivation and/or test-system comprising at least two cultivation spaces combined in a microparticle, wherein the sperically shaped microparticle comprises, (i) a first cultivation space in the center core of said spherically shaped microparticle, (ii) a second cultivation space in the wall surrounding the core of said microparticle, (iii) wherein the wall surrounding the core allows for the exchange of molecules as, salts, nutrients, peptides, chemicals and other compounds in order for the cells in the first cultivation space to interact with the cells in second cultivation space and vice versa. In the test system, the cells are co-cultivated and the microparticles are then selected based on the phenotype of the cells in the first or second cultivation space.

A culture container for culturing epithelial cells, includes an upper container, a lid member configured to airtightly fit with an opening portion of the upper container, and a lower container configured to accommodate the upper container and a cell culture medium, in which at least a part of an area of the upper container in contact with the cell culture medium is formed of a membrane that is permeable to at least a part of components of the cell culture medium and impermeable to a cell, and a material of the lid member has an oxygen permeability coefficient of 1.0×10.sup.−6 cm.sup.3 cm/(cm.sup.2.Math.sec.Math.atm) or less.

An inhibiting or alleviating agent for inflammation in the brain comprising an extract from inflamed tissue inoculated with vaccinia virus as the active ingredient. In another aspect, the invention relates to a determination or evaluation method of an extract from inflamed tissue inoculated with vaccinia virus or an agent comprising the extract, characterized in that the inhibition of the expression of pro-inflammatory cytokines and/or NF-κB pathway related proteins induced by the promotion of expression of BDNF in cultivated glial cells is used as an indicator. In still another aspect, the invention also relates to a use of an extract from inflamed tissue inoculated with vaccinia virus in the production of the inhibiting or alleviating agent for inflammation in the brain.

A tumor immunotherapy composition based on modified cells, in particular antigen-presenting cells activated by means of attenuated Listeria monocytogenes, a preparation method therefor and an application thereof. Attenuated Listeria monocytogenes carrying a specific antigen plasmid is used to activate antigen-presenting cells, thereby activating WIC antigen presenting properties and a series of cellular immune responses in vivo so as to achieve the purpose of anti-tumor therapy. The described technical solution may specifically activate macrophages and/or dendritic cells, thereby eliciting a series of specific anti-tumor immune responses. The operation process does not require genetic modification of autologous cells, is not limited by tumor type, and operations of the overall process are simple, easy-to-implement and reproducible. The tumor immunotherapy composition of the present disclosure may activate a series of anti-tumor immune responses in vivo, thereby greatly shortening the treatment process and significantly improving targeting ability and safety.

Numerous plant microbes, including the vascular-limited Candidatus spp.—causal agents of citrus greening and potato zebra chip diseases—are non-culturable. The present disclosure relates, according to some embodiments, to compositions, methods and systems for culturing such organisms. For example, the present disclosure relates to methods for culturing, propagating, and characterizing fastidious vascular-colonizing microbes using a hairy root system (e.g., in vitro, in planta). The present disclosure relates, in some embodiments, to methods for cultivating a fastidious plant microbe including: contacting a plant (e.g., a tomato plant, a potato plant, a citrus plant) colonized by a fastidious plant microbe (e.g., Xylella fastidiosa, Candidatus Liberibacter spp.) with a suspension of R. rhizogenes under conditions that permit induction of hairy roots colonized with the fastidious plant microbe, and propagating the colonized microbial hairy roots.

The present invention it was determined that dendritic cells could be derived from various sources including peripheral blood monocytes in the presence of only GM-CSF without other cytokines if the monocytes were not activated. By preventing activation, such as by preventing binding of the cells to the surface of the culture vessel, the monocytes do not require the presence of additional cytokines, such as IL-4 or IL-13, to prevent differentiation into a non-dendritic cell lineage. The immature DCs generated and maintained in this manner were CD14.sup.− and expressed high levels of CD1a. Upon maturation by contact with an agent such as, for example, BCG and IFNγ, the cells were determined to express surface molecules typical of mature dendritic cells purified by prior methods and cultured in the presence of GM-CSF and IL-4. The mature dendritic cells produced from monocytes without activation and cultured in GM-CSF alone are suitable for use in dendritic cell-based immunotherapy methods, such as for use in the treatment of disease, including cancer.

The present invention relates to a combination of microbes, cell culture systems and microfluidic fluidic systems for use in providing a human Intestine On-Chip with optimal intestinal motility. More specifically, in some embodiments, a microfluidic chip containing intestinal epithelial cells co-cultured with intestinal endothelial cells in the presence of bacteria, such as probiotic bacteria, may find use in providing an Intestine-On-Chip for testing intestinal motility function. In some embodiments, an Intestine On-Chip may be used for identifying (testing) therapeutic compounds continuing probiotic microbes or compounds for inducing intestinal motility for use in treating gastrointestinal disorders or diseases related to intestinal function.