The present invention relates to a method for producing a fibrosis-encapsulated tumoroid (FET), and the use of the fibrosis-encapsulated tumoroid. According to the present invention, an analogue that is close to real solid cancer tissue is produced using induced pluripotent stem cell-derived cell. The analogue has significant improvement over conventional tumoroids, which fail to perfectly reflect the characteristics of human solid cancer and have a very high probability of failure in the clinical validation stage. Thus, the present invention is expected to be widely used in the fields of new anticancer drug development and precision medicine.

Disclosed is a device for the culture of cells, which device is able to support and/or maintain the cells within an environment which mimics one or more in vivo environmental condition(s). Using these devices, cells can be cultured or maintained under conditions which ensure that the cells behave and respond substantially as they would in vivo. Further, the cells can be stimulated or exposed to exogenous agents (drugs and the like) and any response determined to be one which is indicative of an in vivo response.

The present disclosure provides, inter alia, compositions and methods for treating or ameliorating the effects of a tumor in a subject comprising a three-dimensional (3D) organoid system.

The invention relates to a new, spontaneous mouse lymphoma cell line displaying CD19, B220, MHC II, surface IgG2a/kappa chain and MAC-1, which is negative for CD5, animal models of B-cell lymphoma based on said cell line and methods for assessing lymphoma propagation and lymphoma expansion based on said cell line.

The present application relates to probiotic compositions, e.g., comprising at least one bacterial strain selected from: Streptococcus thermophiles, Bifidobacterium longum, Bifidobacterium breve, Bifidobacterium infantis, Lactobacillus acidophilus, Lactobacillus plantarum, Lactobacillus paracasei, KE99, and Lactobacillus bulgaricus, optionally wherein the at least one bacterial strain is either alive or sonicated.

The present invention relates to the fields of life sciences and cell and tissue cultures, especially 3D cultures. Specifically, the invention relates to a method of maintaining the presence or activity of a human or mouse estrogen receptor (ER) in a cell of an ex vivo mammary cell or tissue culture or in a cell of other hormone responsive cell or tissue culture. Also, the present invention relates to a method of maintaining a luminal epithelial phenotype and/or cell identity of a mammalian cell in an ex vivo cell or tissue culture. Still, the present invention relates to a 3D matrix or 3D medium comprising the matrix for ex vivo culture, wherein said 3D matrix or 3D medium comprises one or more mammalian cells or tissues embedded in said 3D matrix or 3D medium, and to a system for ex vivo culture, wherein the system comprises mammalian cells or tissues embedded in a 3D matrix or 3D medium comprising said matrix. Still furthermore, the present invention relates to use of the 3D matrix, 3D medium or system of the present invention e.g. for ex vivo culture of a mammalian cell, drug discovery methods, biomarker studies and/or estrogen receptor (ER) signaling studies.

The disclosure is generally related to nanoparticles have an oxidized tumor cell lysate encapsulated therein and oligonucleotides on the surface thereof. Methods of making and using the nanoparticles are also provided herein.

Provided are a genome engineering method and a genome engineering kit which can efficiently engineer two or more alleles and are capable of engineering a relatively large region. The present invention provides a genome engineering method for engineering two or more alleles, comprising the steps of: (a) introducing the following (i) and (ii) to a cell comprising the chromosome: (i) a genome engineering system comprising a sequence-specific nucleic acid cleaving molecule targeting a target region in the chromosomal genome, or a polynucleotide encoding the sequence-specific nucleic acid cleaving molecule, and (ii) two or more donor DNAs for selective markers respectively having different selective marker genes (the number of types of the donor DNAs for selective markers are equal to or more than the number of the alleles that are subject to genome engineering); and (b) selecting the cell on the basis of all the selective marker genes carried by the two or more donor DNAs for selective markers.

A hybridoma cell line of secreting cyproheptadine monoclonal antibodies with a preservation number of CGMCC No. 14699 belongs to the field of food safety immunological detection. BALB/c mice are immunized through one time immunization with complete freund's adjuvant, three times of booster immunization with incomplete freund's adjuvant and one time of rush immunization with cyproheptadine complete antigen without adjuvant; the spleen cells from BALB/C mice immunized with high potency and low value of IC50 are fused with murine myeloma cells; and then the hybridoma cell line is obtained through indirect competitive ELISA screening and three sub-clones. The monoclonal antibody secreted by this cell line has good specificity and detection sensitivity to cyproheptadine (value of IC50 is 0.37 ng/ml), being suitable for detection of cyproheptadine in food.

A cell culture method is a cell culture method for arranging cultured cells in a culture dish and continuously culturing the cultured cells by supplying a liquid required to grow or maintain the cultured cells to the culture dish and discharging the liquid from the culture dish. The cell culture method includes: providing a supply port of the liquid at one end of the culture dish and providing a discharge port of the liquid at other end of the culture dish so as to sandwich the cultured cells between the supply port and the discharge port, and discharging the liquid while supplying the liquid to the culture dish so that a moving linear velocity of the liquid from the supply port toward the discharge port is less than a maximum velocity at which shear stress is not applied to the cultured cells.