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.

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

The present invention relates to a human mast cell line corresponding to deposit number CNCM I-4551 and also to the lines derived therefrom, in particular the derived lines corresponding respectively to deposit numbers CNCM I-4552 and CNCM I-4553, and to the uses thereof, in particular for screening for compounds of therapeutic interest.

This disclosure provides genetically engineered immune cells that express an anti-GD2 chimeric antigen receptor, methods of generating these cells, and methods of treating tumors using the genetically engineered cells.

In an embodiment, present invention relates to a method of generating, ex vivo production of soluble Lox-1 (sLox-1), comprising: introducing a sample containing blood into a device; adding a coagulation enhancing material in the sample to form a cultured blood clot; incubating the cultured blood clot in the device at a temperature greater than 25? C. and less than 45? C. for at least 2 hours to allow production of Lox-1 from neutrophils of blood and to shed the sLox-1 outside the cultured blood clot; and collecting sLox-1 shedded in the device, wherein the method is configured to shed sLox-1 more than fresh blood.

A method for producing non-human conditionally immortalized mast cell progenitors comprises: introducing a nucleic acid molecule comprising an inducible homeobox gene into myeloid progenitor cells, wherein said myeloid progenitor cells are derived from a non-human animal and are engineered to express a heterologous high-affinity IgE receptor alpha subunit (Fc?RI?); and selecting for cells which contain the nucleic acid molecule. The non-human conditionally immortalized mast cell progenitors may be cultured to obtain differentiated mast cells. The mast cells find utility in assays for the determination of IgE mediated allergies.

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.

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.

A blood product (10), a method for preparing the blood product, a blood product obtainable by the method and a blood product preparing container means. The blood product comprises components from whole blood, especially fibrin, thrombocytes and leukocytes. The blood product (10) comprises a first layer (21), a second layer (22) and a third layer (23). The second layer (22) is adjacent to the first layer (21) and the third layer (23). The first layer (21) defines a first outer surface (24) of the blood product (10) and the third layer (23) defining a second outer surface (25) of the blood product (10). The first layer (21) comprises a majority of fibrin, the second layer (22) comprises a majority of thrombocytes and the third layer (23) comprises a majority of leukocytes.

Compositions and methods for treating cancer, particularly leukemia, using a cytotoxic composition comprising monocytes activated by ?-glucan. The monocytes are preferably incubated with the ?-glucan and then processed to extract particles, such as microvesicles and exosomes from the treated monocytes to produce the cytotoxic composition. Preferably the cytotoxic composition comprises at least 50% exosomes having a size of 150 nm or less that are activated with ?-glucan. Zymosan is the preferred ?-glucan. The cytotoxic composition has an apoptosis effect. When a subject having cancer is treated according to preferred embodiments, the cytotoxic composition preferably induces a cytokine response in the subject's immune system. The combination of the cytotoxic composition and cytokine response are synergistic.