Described herein are methods and systems for monitoring a disease state of a subject's bone marrow. Further, disclosed herein are methods and systems for monitoring a treatment state of a subject's organ. Moreover, disclosed herein are methods and systems for monitoring a healthy state of a subject's bone marrow and assaying an active agent.

Methods for the in vitro production of enucleated red blood cells and the enucleated red blood cells thus prepared are provided. Such enucleated red blood cells may express a sortaggable surface protein, which allows for surface modification in the presence of a sortase. Also described herein are surface modified enucleated red blood cells, e.g., conjugated with an agent of interest such as a peptide, a detectable label, or a chemotherapeutic agent, and uses thereof in delivering the agent to a subject.

The instant disclosure relates to compositions derived from precursor cells, and methods of using such compositions, for the manufacture of hematopoietic stem cells (HSCs) or derivative immune cells. More particularly, methods for obtaining hematopoietic stem cells from organoid tissue or cultures comprising organoids are disclosed, wherein the organoid tissue or cultures comprise liver or colonic tissue derived from precursor cells (such as embryonic stem cells or induced pluripotent stem cells), via directed differentiation.

The invention provides universally acceptable “off-the-shelf” hypoimmune pluripotent (HIP) cells and hypoimmune chimeric antigen receptor T (CAR-T) cells derived from the HIP cells. The engineered therapeutic cells can be administered to subjects as an adoptive cell-based immunotherapy to treat cancer.

The invention provides culture platforms, cell media, and methods of differentiating pluripotent cells into hematopoietic cells. The invention further provides pluripotent stem cell-derived hematopoietic cells generated using the culture platforms and methods disclosed herein, which enable feed-free, monolayer culturing and in the absence of EB formation. Specifically, pluripotent stem cell-derived hematopoietic cell of this invention include, and not limited to, iHSC, definitive hemogenic endothelium, hematopoietic multipotent progenitors, T cell progenitors, NK cell progenitors, T cells, NK cells, NKT cells and B cells.

The invention provides culture platforms, cell media, and methods of differentiating pluripotent cells into hematopoietic cells. The invention further provides pluripotent stem cell-derived hematopoietic cells generated using the culture platforms and methods disclosed herein, which enable feed-free, monolayer culturing and in the absence of EB formation. Specifically, pluripotent stem cell-derived hematopoietic cell of this invention include, and not limited to, iHSC, definitive hemogenic endothelium, hematopoietic multipotent progenitors, T cell progenitors, NK cell progenitors, T cells, NK cells, NKT cells and B cells.

The present invention is concerned with a composition and in vitro method for generating a desired cell type and/or tissue type from hair follicular stem cells. The composition and in vitro method are particularly suitable for generating an autologous desired cell type and/or tissue type. Furthermore, the composition and method are especially efficient and suitable for use in the context of cosmetic cell and/or tissue transplantation in recipient areas of a subject experiencing cell and/or tissue loss caused by, for example, a wound, scar, burn injury, tissue degeneration, and aging. The composition and in vitro method are also suitable to circumvent complications related to infections and/or immune rejection of a cosmetic cell and/or tissue implant or graft.

Novel MSC stem-cell culture and therapy methods and culture medium compositions for the purpose of inducing, activating, or priming discrete uniform cell phenotypes to selectively promote or suppress inflammation and immunity, yielding polarized, primed, activated, or induced cells used in cell-based therapy.

The present invention relates to stem-cell derived hematopoietic cells, in particular, myeloid cells, preferably, macrophages, their generation and use. In particular, the invention relates to a method of producing hematopoietic, preferably, myeloid cells, comprising cultivating embryoid bodies, which are, e.g., derivable from pluripotent stem cells such as induced pluripotent stem cells (iPSC), in suspension culture, to produce myeloid cell forming complexes, which are further cultivated in suspension culture to produce myeloid cells such as macrophages. This allows for a scalable and continuous production, e.g., in industry-compatible stirred tank bioreactors. Macrophages, e.g., macrophages produced with this method that have unique characteristics, can be used in pharmaceutical compositions for treatment of patients, e.g., for treatment of infection such as bacterial infection. The invention further provides application systems suitable for spraying, comprising myeloid cells such as macrophages, which can have a reduced size, for use in treatment of patients for treatment of infection, e.g., bacterial infection or wound healing.

Provided herein are methods of generating a population of enucleated erythroid cells.