Disclosed herein are methods for generating universal MHC/HLA-compatible hematopoietic progenitor cells and methods for generating custom patient-specific MHC/HLA-compatible hematopoietic progenitor cells. Compositions comprising the universal and custom hematopoietic progenitor cells and therapeutic applications thereof are also disclosed.

There is provided a method of identifying a neutrophil progenitor, the method comprising: determining an expression of at least one biomarker selected from the group consisting of: CD71, LOX-1, CD164, CD112, CD181, TACSTD2, CD11b and CD49d in a cell. In various embodiments, the cell is identified as a neutrophil progenitor when it is determined to have at least one of the following expression profiles: CD71.sup.hi/+, LOX-1.sup.int/lo/−, CD164.sup.hi/+, CD112.sup.hi/+, CD181.sup.int/lo/−, TACSTD2.sup.hi/+, CD11b.sup.lo/− and/or CD49d.sup.int/hi/+. Also disclosed are a method of sorting and/or separating neutrophil progenitors from a cell population, a composition that is enriched in neutrophil progenitors and related uses and methods.

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

The present disclosure provides methods and compositions for microglia replacement therapy in a subject in need thereof. In some cases, the method involves administering myeloid cells to the central nervous system of a subject. In some cases, the myeloid cells are derived from embryonic or extraembryonic tissue. In some cases, the myeloid cells are genetically modified. The genetic modification may include a colony stimulating factor 1 receptor (CSF1R) variant that is resistant to a CSF1R inhibitor, yet retains sensitivity to its ligand (e.g., CSF1, IL34).

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.

This disclosure is directed to, inter alia, methods and systems for preparing oligopotent and unipotent progenitor cells of defined lineages in culture from an expanded source of CD34+ cells, media for making the same, and therapeutic compounds and compositions comprising the same for treatment a variety of diseases included, but not limited to, hematologic disorders, immune diseases, cancers, and infectious diseases.

The present invention relates to an in vitro culture of haematopoietic cells, wherein said haematopoietic cells differentiate to form granulocytes characterised by the ability to kill cancer cells. The invention also relates to said granulocytes, methods for identifying said haematopoietic cells and granulocytes, compositions and kits comprising the same, as well as uses of the same for treating cancer.

The invention relates to a method for determining the suitability of a granulocyte for treating cancer. The invention also relates to said granulocytes, methods for identifying said granulocytes and stem cells capable of differentiating into said granulocytes, compositions and kits comprising the same, as well as uses of the same for treating cancer.

A method for modifying access of cells to extravascular spaces and regions comprising administering to a patient an enzyme that cleaves chondroitin sulfate proteoglycans is provided. It has been found that administration of an enzyme that cleaves chondroitin sulfate proteoglycans to a patient disrupts extravasation of cells from the blood stream into tissue. The present invention provides methods of reducing penetration of cells associated with inflammation into tissue of a patient. Several methods are also provided for the regulation and suppression of inflammation comprising administering enzymes that digest chondroitin sulfates. Also provided are methods of treating and preventing inflammation associated with infection, injury and disease.

Methods of tissue grafting, and more particularly methods for enhancing tissue graft revascularization, e.g., host engagement of pre-existing graft blood vessels.