The application provides biocompatible carriers comprising bone forming and/or cartilage forming cells and methods for making them. The application further provides pharmaceutical compositions comprising said ATMPs and method of treatments using said ATMPs. The application further relates to said ATMPS for use in the treatment of bone disorders, cartilage disorders and joint disorders. The current invention further relates to method of treatments of bone disorders, cartilage disorders and joint disorders.

Well-defined, xeno-free culture media which comprise a TGF-beta isoform or the chimera formed between IL6 and the soluble IL6 receptor (IL6RIL6), which are capable of maintaining stem cells, and particularly, human embryonic stem cells, in an undifferentiated state are provided. Also provided are cell cultures comprising the culture media and the stem cells and methods of expanding and deriving embryonic stem cells in such well-defined, xeno-free culture media. In addition, the present invention provides methods of differentiating ESCs or EBs formed therefrom for the generation of lineage specific cells.

The present disclosure relates to methods for culturing human epidermal keratinocytes. When keratinocytes are cultured on plates coated with a laminin containing an alpha-4 chain or an alpha-5 chain, in a xeno-free, chemically defined cell culture medium, they expand efficiently in vitro. Useful cell culture kits for culturing keratinocytes are also described herein, as are methods of using such cells for treatment of burns or chronic wounds.

The production of high quality retinal pigmented epithelium (RPE) cells is necessary for research and potential therapeutic uses. Especially desirable are methods for the production of RPE cells using xeno-free culture conditions. Disclosed herein are novel methods for the production of RPE cells from pluripotent cells with high yields, including xeno-free production methods. Also provided are methods of efficiently isolating RPE cells from cultures containing heterogeneous cell types, allowing for substantially pure RPE cell cultures to be established. Additionally, novel methods for the cryopreservation of RPE cells are provided.

The current invention relates to a process for the manufacturing of extracellular vesicles (EVs) associated with proteins, derived from mesenchymal stromal cells (MSCs), said process comprises the steps of: - Purifying EVs from a cell medium comprising MSCs, wherein said purifying occurs via at least one filtration step of said medium; followed by - a concentration step of the filtrate of said at least one filtration step, wherein said EVs are concentrated by means of tangential flow filtration in a TFF device; and - wherein during said TFF step the EVs are associated with one or more exogenous proteins inside of said TFF device, or in a vessel fluidly connected to said TFF device to which said EVs are transferred from said TFF. The current invention also relates to a pharmaceutical composition comprising a therapeutically effective amount of EVs associated with proteins, and the use thereof.

A method for stably amplifying a pluripotent stem cell comprises the following steps: (a) a cell implantation step: implanting pluripotent stem cells directly into a porous scaffold such that the porous scaffold contains 1×10.sup.4 or more of the pluripotent stem cells; and (b) a cell amplification step: immersing the porous scaffold in a specific culture medium which is xeno-free (XF) and performing amplification culture at an ambient temperature of 35.5-39.5° C. and a CO.sub.2 concentration of 5% to obtain the amplified pluripotent stem cells, wherein the amplified pluripotent stem cells aggregate to present an embryoid body state. The amplification method of the present disclosure can easily obtain an excellent effect of increasing an amplification multiple of the pluripotent stem cells to about 3 times or more.

Methods for generating human arterial endothelial cells under defined conditions in the absence of insulin are described. In particular, provided herein are efficient, defined, and scalable methods for generating human arterial endothelial cells from human pluripotent stem cells. Also provided herein are uses of human arterial endothelial cells obtained according to these methods. For example, methods of treating peripheral arterial disease and methods of screening agents for that effect adhesion of leukocytes to arterial endothelial cells are also provided.

Methods for generating serum-free and/or xenogen-free cardiac explant-derived stem cells (EDC) are provided. These methods may include providing an initial cardiac explant, which has been minced and digested; plating the initial cardiac explant; culturing the plated cardic explant in serum-free and xenogen-free medium; harvesting EDC cells surrounding or emerging from the plated cardiac explant; and optionally performing static expansion of harvested EDC cells in serum-free and xenogen-free media. Serum-free and/or xenogen-free cardiac EDC cells produced by these methods, as well as methods and uses thereof for the treatment of heart failure in a subject in need thereof, are also provided.

One or more type 7 long terminal repeat (LTR7) nucleic acid sequences of type H human endogenous retroviruses (HERVH) (“LTR7/HERVH nucleic acid sequences”) can be used for identifying primate naïve pluripotent stem cells. LTR7/HERVH-associated transcription can be used as a marker for primate naive pluripotent stem cells. A reporter construct that includes LTR7/HERVH nucleic acid sequences can be used for optimizing culture conditions for naïve primate pluripotent stem cells. A cell growth medium can be used for cultivation of primate naive pluripotent stem cells, which can exhibit elevated levels of LTR7/HERVH-associated transcription in comparison to control cells.

Provided is an isolated population of human pluripotent stem cells comprising at least 50% human pluripotent stem cells characterized by an OCT4+/TRA1-60−/TRA1-81−/SSEA1+/SSEA4− expression signature, and novel methods of generating and maintaining same in a pluripotent, undifferentiated state a suspension culture devoid of cell clumps. Also provided are novel culture media, cell cultures and methods for culturing pluripotent stem cells in a suspension culture or a two-dimensional culture system while maintaining the cells in a proliferative, pluripotent and undifferentiated state. The novel culture media comprise interleukin 11 (IL11) and Ciliary Neurotrophic Factor (CNTF); bFGF at a concentration of at least 50 ng/ml and an IL6RIL6 chimera; or an animal contaminant-free serum replacement and an IL6RIL6 chimera. Also provided are methods for generating lineage-specific cells from the pluripotent stem cells.