The disclosure discloses a kind of new NKT-like cell subpopulation, a therapeutical composition comprising the NKT-like cell subpopulation, and the medical use thereof. The disclosure also provides a preparation method of the NKT-like cell subpopulation. The disclosed NKT-like cell subpopulation has a strong antitumor effect, and can be adoptive transferred into a subject to treat the tumor in the subject after in vitro cultured and amplified.

Provided are a culture medium and a culture method for human primary acute myeloid leukemia cells. The culture medium for human primary acute myeloid leukemia cells contains a glutamine additive, non-essential amino acids, human interleukin-6, human interleukin-7, human interleukin-3, recombinant human FLT3 Ligand, a recombinant human macrophage colony stimulating factor and a human stem cell factor. Acute myeloid leukemia cells can be cultured with higher amplification efficiency and longer in-vitro culture time by using the culture medium and culture method. Also provided are human primary acute myeloid leukemia cells cultured in vitro by using the culture medium, and the use thereof for curative effect evaluation and screening of drugs.

This disclosure relates to growth media and environments for in vitro culturing of cells that produce or are capable of producing antibodies. In certain embodiments, the media comprises IL-6, fibronectin, and typically a saccharide. In certain embodiments, the disclosure contemplates cell culture compositions comprising IL-6 and fibronectin that are derived from proteins secreted from mesenchymal stromal/stem cells (MSCs). In certain embodiments, the disclosure contemplates enclosures comprising culture compositions disclosed herein that are in ambient air or optionally in an environment wherein oxygen is absent or at a low concentration.

The invention provides methods of making immune effector cells (e.g., T cells, NK cells) that can be engineered to express a chimeric antigen receptor (CAR), compositions and reaction mixtures comprising the same, and methods of treatment using the same.

This disclosure relates to growth media and environments for in vitro culturing of cells that produce or are capable of producing antibodies. In certain embodiments, the media comprises IL-6, fibronectin, and typically a saccharide. In certain embodiments, the disclosure contemplates cell culture compositions comprising IL-6 and fibronectin that are derived from proteins secreted from mesenchymal stromal/stem cells (MSCs). In certain embodiments, the disclosure contemplates enclosures comprising culture compositions disclosed herein that are in ambient air or optionally in an environment wherein oxygen is absent or at a low concentration.

The invention provides methods of making immune effector cells (e.g., T cells, NK cells) that can be engineered to express a chimeric antigen receptor (CAR), compositions and reaction mixtures comprising the same, and methods of treatment using the same.

The disclosure discloses a kind of new NKT-like cell subpopulation, a therapeutical composition comprising the NKT-like cell subpopulation, and the medical use thereof. The disclosure also provides a preparation method of the NKT-like cell subpopulation. The disclosed NKT-like cell subpopulation has a strong antitumor effect, and can be adoptive transferred into a subject to treat the tumor in the subject after in vitro cultured and amplified.

A medium combination and a method for inducing iPSC differentiation to obtain macrophages and use thereof are provided. The medium combination includes a first stage medium to a sixth stage medium. The first stage medium is an E8 complete medium containing a ROCK pathway inhibitor and polyvinyl alcohol, the second stage medium is an E8 complete medium containing a GSK-3 inhibitor, the third stage medium includes an M1 medium and an M2 medium, the fourth stage medium is an M3 medium, the fifth stage medium is an M4 medium, and the sixth stage medium is an M5 medium.

A medium combination and a method for inducing iPSC differentiation to obtain macrophages and use thereof are provided. The medium combination includes a first stage medium to a sixth stage medium. The first stage medium is an E8 complete medium containing a ROCK pathway inhibitor and polyvinyl alcohol, the second stage medium is an E8 complete medium containing a GSK-3 inhibitor, the third stage medium includes an M1 medium and an M2 medium, the fourth stage medium is an M3 medium, the fifth stage medium is an M4 medium, and the sixth stage medium is an M5 medium.

The present invention provides a method for producing recombinant growth factors using an algal expression system, which offers advantages over traditional platforms, and the algae-derived growth factors can be used to formulate cell culture media for mammalian cells without the risk of pathogen contamination or endotoxins.