The present disclosure provides compositions and methods for making and using engineered killer phagocytic cells for immunotherapy in cancer or infection by expressing a chimeric antigen receptor having an enhanced phagocytic activity, the chimeric receptor is encoded by a recombinant nucleic acid.

The invention relates to mesodermal killer (MK) cells and their use in therapy, especially for the treatment of cancer.

Methods to form a surface coating and surface pattern, which are based on adsorption of hydrocarbon chains that can be used with imaging optics to visualize macrophage fusion and multinucleated giant cell formation with living specimens are described.

Therapeutic and diagnostic methods are provided, which methods relate to the induction of expression of calreticulin on phagocytic cells. Specifically, the methods relate to macrophage-mediated programmed cell removal (PrCR), the methods comprising increasing PrCR by contacting a phagocytic cell with a toll-like receptor (TLR) agonist; or down-regulating PrCR by contacting a phagocytic cell with an inhibitor of Bruton's tyrosine kinase (BTK). In some embodiments, an activator of TLR signaling or a BTK agonist is provided in combination with CD47 blockade.

The present invention relates to a method of culturing primitive-like macrophages from stem cells, a kit when used in the method thereof and uses of the primitive like macrophage for in-vitro disease models and for screening compounds for therapy. One embodied culture method comprises contacting and incubating embryonic stem cells or induced pluripotent stem cells with a serum-free culture media comprising a GSK3 inhibitor to differentiate stem cells into cells of the mesoderm lineage, followed by incubation with a culture media comprising Dickkopf-related protein 1 (DKK1) to differentiate the mesoderm into cells of hematopoietic lineage, maturing hematopoietic cells and incubating these cells with a culture media comprising M-CSF to drive differentiation into primitive-like macrophages. Another embodiment comprises incubating the stem cells with serum-free culture media comprising FGF2 and BMP4 to induce differentiation into cells of the mesoderm lineage, followed by incubating the cells with a culture media comprising FGF2, BMP4, Activin A and VEGF to differentiate the cells of the mesoderm lineage into cells of the hematopoietic cell lineage, maturing the cells of the hematopoietic cell lineage and lastly, incubating the matured hematopoietic cells with culture media comprising M-CSF to drive the differentiation of hematopoietic cells into primitive-like macrophages.

The present disclosure pertains to methods of modifying an immune cell by delivering a modified messenger RNA (mRNA) encoding a chimeric antigen receptor (CAR) and modified immune cells comprising CARs.

The improved 4-5 day, optionally 3-5 day GMP-compliant in-vitro method enables the production of macrophages from monocytes that benefits from a shorter cell culture time, fewer interventions whilst maintaining the desired characteristics of the human macrophages. The present invention describes a method wherein the monocytes are cultured in medium comprising one or more growth actors to stimulate macrophages with a pro-regenerative phenotype. The method described herein is xeno-free, serum-free and GMP compliant. In addition, further disclosed are macrophages produced according to the present invention and the use of said macrophages in the treatment of liver diseases, such as liver cirrhosis.

Provided are a chimeric antigen receptor, a macrophage expressing same, a method for adjusting macrophage polarization, and the use thereof. The intracellular domain of the chimeric antigen receptor contains an IFN-γ receptor, and the macrophage expressing the chimeric antigen receptor can maintain an M1 type status for a relatively long time, thereby enhancing the activity of the macrophage M1 type after tumor cell antigens are combined with the chimeric antigen receptor.

The present invention relates to novel method of generating “Lympho-Myeloid Niches (LMN)” from peripheral blood mononuclear cell (PBMC). The present invention relates to a method of generating macrophages, myeloid cells and T cell from Lympho-Myeloid Niches (LMN). The present invention also describes its application for developing novel cell based therapies, gene therapies, gene edited therapies for the treatment of various disease conditions using the Lympho-Myeloid Niches (LMN), and/or the cells generated from Lympho-Myeloid Niches (LMN) or their culture.

Provided herein are compositions comprising aptamers that specifically bind monocytes and/or macrophage and methods for their use. These aptamer compositions can be used in methods for isolating and/or enriching monocytes and/or macrophages or depleting cell populations of monocytes and/or macrophages. Further provided are methods of using the aptamers or cell populations generated using them in the methods disclosed herein for therapies and/or drug delivery.