The present disclosure relates to a stage-specific process for manufacturing a population of neutrophils, such as chimeric antigen receptor-expressing (CAR-expressing) neutrophils (e.g., T cells and natural killer (NK) cells), from human pluripotent stem cells (hPSCs) using defined media and related compositions, kits, and methods of use (e.g., targeted cancer immunotherapy). Stage-specific processes for generating neutrophils and chimeric antigen receptor (CAR) neutrophils from human pluripotent stem cells (hPSCs) using chemically defined, feeder-free platforms and stage-specific morphogens; cell lines; pharmaceutical compositions; a method of treating cancer; and a kit are within the scopes of this disclosure.

Provided are an exosome preparation formed by secretion by a mast cell cultured in vitro, a preparation method of an exosome therein, an exosome containing FcRI protein on an outer surface thereof and in a substantially unbound state, and uses of the exosome preparation or exosome in a method for inhibiting mast cell activation in vitro and in preparing a drug for treating an IgE-mediated disease.

The present invention provides methods of amplifying or expanding CD34.sup.+CD43.sup.+CD45.sup.+CD41.sup.loCD235.sup.+/ hematopoietic progenitor cells enriched in granulocytic progenitors (G-CFCs). In another embodiment, the present invention provides methods of producing CD34.sup.+CD7.sup.+CD41a.sup. lymphoid progenitor cells are enriched in NK progenitors.

The present invention relates to an isolated cellular targeted delivery system comprising a CD45.sup.+ leukocyte cell comprising within said cell a complex of one or more iron binding proteins and an active ingredient as well as methods for producing such isolated cellular targeted delivery system and uses of such system for therapy, in particular for therapy of cancer.

The present invention relates to an isolated cellular targeted delivery system comprising a CD45+ leukocyte cell comprising within said cell a complex of one or more iron binding proteins and/or a label as well as methods for producing such isolated cellular targeted delivery system and uses of such system for therapy diagnosis and in particular for diagnosis of cancer, particularly metastatic cancer, in particular for therapy of cancer.

This disclosure describes, generally, a modified form of CD16, genetically-modified cells that express the modified CD16, and methods that involve the genetically-modified cells. The modified form of CD16 can exhibit increased anti-tumor and/or anti-viral activity due, at least in part, to reduced susceptibility to ADAM17-mediated shedding upon NK cell stimulation.

The present invention is directed to a method of generating multilineage potential cells by de-differentiation of somatic leukocytes in a mixed leukocyte suspension from a blood sample. The present invention is also directed to the use of the generated multilineage potential cells to treat conditions in humans and mammals.

The present invention relates to compositions and methods that provide novel anti-tumor therapies in cancer. In one aspect, the present invention features a hybrid neutrophil in a non-naturally occurring container, wherein the hybrid neutrophil expresses at least one neutrophil associated molecule selected from the group consisting of: Arg1, MPO, CD66b, and CD15, and at least one antigen-presenting cell (APC) associated molecule selected from the group consisting of: CD14, HLA-DR, CD32, CD64, and CD89. In another aspect, the present invention features methods of generating a hybrid neutrophil. In still another aspect, the present invention features methods of inhibiting tumor growth in a subject, treating a tumor in a subject, and increasing efficacy of an antibody against a tumor in a subject. The methods comprise (a) administering to the subject an effective amount of an anti-tumor antibody and (b) administering to or generating in the subject an effective amount of a hybrid neutrophil.

This disclosure provides compositions and methods for the treatment of inherited metabolic disorders in a subject. Provided herein are compositions and methods to treat Lysosomal Storage Diseases (LSD) in a subject using myeloid cells.

The present invention relates to myeloid-derived suppressor cells (MDSC) and exosomes derived therefrom (MDSC exo) and application thereof.