Provided are cells containing exogenous antigen and uses thereof.

The present disclosure provides compositions and methods for producing hydrogel matrix constructs. Methods of using hydrogel matrix constructs for tissue repair and regeneration and for the oxygenation of red blood cells are also disclosed.

Provided herein are nucleic acid molecules that target the BCL11A enhancer functional regions, compositions comprising the nucleic acid molecules and methods for increasing fetal hemoglobin levels in a cell by disrupting BCL11A expression at the genomic level. Also provided herein are methods and compositions relating to the treatment of hemoglobinopathies by reinduction of fetal hemoglobin levels. In particular, the nucleic acid molecules target the +62, +58, and/or the +55 enhancer functional regions.

Systems and methods for processing biological fluids are disclosed. The systems and methods use a reusable hardware unit and a disposable fluid processing circuit that mounts onto the reusable hardware unit. The system and method, under the direction of a pre-programmed controller allow for automatically, opening one or more flow paths to effect addition of one or both parts of an additive solution to a biological fluid component.

The present disclosure relates to methods for modulating the level of proteins in a subject or in target cells by priming red blood cells with various agents or conditions that modulate the levels of proteins associated with red blood cells and administering the primed red blood cells to a subject. The disclosed methods represent a novel use of red blood cells primed to express a number of proteins, as cell therapies for numerous diseases or disorders.

The application relates to the use of loaded red blood cells (e.g. “RBCs”, “red cells” or “erythrocytes”) or red blood cell precursors to produce red cell extracellular vesicles (RCEVs) containing cargos, including cargos comprising biologically active ingredients. Notable red cell precursors include hematopoietic stem cells (HSCs), induced pluripotent stem cells (iPSCs), and reticulocytes. The cargo may comprise nucleic acids, proteins, small molecules, or components of a gene editing system, including CRISPR/Cas9. The RCEVs may be used to treat of diseases and disorders including autoimmune disorders, cancers, cardiovascular diseases, gastrointestinal diseases, genetic disorders, or inflammatory diseases. The RCEVs may also be used to carry antigens and or immune modulator, for use in eliciting immune or immune tolerance responses. Also provided are methods for producing cargo loaded RCEVs (CLRCEVs) by first loading cargo into red cells and then by vesiculating the cargo loaded red cells to yield the CLRCEVs.

Provided are cells containing exogenous antigen and uses thereof.

The purpose of the invention is to provide a novel hematopoiesis-promoting agent and a medicament comprising the hematopoiesis-promoting agent as an active ingredient for preventing or treating anemia, in particular refractory anemia. The present invention provides a hematopoiesis-promoting agent comprising an S-adenosylmethionine synthase inhibitor.

The invention described herein is directed to compositions and methods for inducing red blood cell (RBC) differentiation. Additionally, provided herein are methods of treating a subject in need thereof by administering the induced RBC described herein.

Described are embodiments that include methods and devices for separating composite liquids into components. Embodiments involve the use of a flexible membrane for separating a composite liquid into components. The composite liquid may include, in embodiments, a cellular containing liquid, such as whole blood or components of whole blood. In one specific embodiment, the composite liquid is a buffy coat.