The invention in relates in part to a method for rejuvenating hair follicles, the method comprising the steps of: (1) obtaining androgen non-inhibited cells from hair follicle tissue; (2) culturing the androgen non-inhibited cells to produce an expanded population of androgen-non-inhibited cells; and (3) implanting the expanded population of androgen non-inhibited cells proximal to miniaturised and/or miniaturising hair follicles.

The present disclosure provides methods for producing cell populations enriched for induced regulatory T cells (iTregs). In particular, the disclosure relates to methods for culturing T cells such that the final culture is enriched for induced regulatory T cells. The disclosure also relates to methods for inducing regulatory T cells. Also provided are compositions enriched for induced regulatory T cells, which are useful for treating individuals in need of such treatment. The methods and compositions disclosed herein can also be used to treat individuals suffering from immune-mediated diseases.

Cell culture media are provided herein as are methods of using the media for cell culture and protein production from cells.

An agent for use in reducing T cell exhaustion and/or increasing T cell function, and/or boosting immunity, wherein the agent is selected from the group consisting of nicotinamide riboside, vitamin B12, a urolithin, manganese, serine, glycine, arginine, asparagine, and a combination of two or more thereof.

Described herein are compositions and methods to cryopreserve sporozoites. In some aspects, the method can include the step of placing harvested salivary glands containing sporozoites into an insect-based medium.

Disclosed herein are cell cultures and enriched cell populations of endocrine precursor cells, immature pancreatic hormone-expressing cells and mature pancreatic hormone-expressing cells. Also disclosed herein are methods of producing such cell cultures and cell populations.

The present invention relates in part to nucleic acids encoding proteins, nucleic acids containing non-canonical nucleotides, therapeutics comprising nucleic acids, methods, kits, and devices for inducing cells to express proteins, methods, kits, and devices for transfecting, gene editing, and reprogramming cells, and cells, organisms, and therapeutics produced using these methods, kits, and devices. Methods for inducing cells to express proteins and for reprogramming and gene-editing cells using RNA are disclosed. Methods for producing cells from patient samples, cells produced using these methods, and therapeutics comprising cells produced using these methods are also disclosed.

The present invention relates in part to nucleic acids encoding proteins, nucleic acids containing non-canonical nucleotides, therapeutics comprising nucleic acids, methods, kits, and devices for inducing cells to express proteins, methods, kits, and devices for transfecting, gene editing, and reprogramming cells, and cells, organisms, and therapeutics produced using these methods, kits, and devices. Methods for inducing cells to express proteins and for reprogramming and gene-editing cells using RNA are disclosed. Methods for producing cells from patient samples, cells produced using these methods, and therapeutics comprising cells produced using these methods are also disclosed.

The present invention relates generally to immunotherapy, in particular immunotherapy for treating cancer, infectious diseases or autoimmune diseases. More specifically, the invention relates to Mucosal-Associated Invariant T (MAIT) cells expressing Chimeric Antigen Receptors (CARs), wherein the MAIT cell is allogenic with respect to the subject to be treated.

The present invention provides a method for preparing 3D brain organoids, comprising the following steps: neurospheres obtained by the RONA method are dissociated into single cells by accutase, plated on a cell culture plate after being counted, cultured in medium A until day 7; neurospheres are cultured in medium B until day 25˜35, and then they are encapsulated by Matrigel; neurospheres are further cultured in media B until day 55˜65, and then they are encapsulated by Matrigel for the second time and cultured continually afterwards. The present invention also provides a medium for culturing 3D brain organoids. The present invention begins with highly purified neurospheres obtained by the RONA method, and neuronal stem cells can be controlled and cultured to achieve true 3D brain organoids with uniform size and structure by this relatively simple method. The 3D brain organoids have six-layered cortical structure of the brain and various subtypes of inhibitory interneuron cells, which are suitable for disease research in vitro, drug screening, etc., and are of great significance in industrialization.