Blood and platelet storage and rejuvenating compositions that include triciribine, triciribine metabolites, triciribine analogs, and mixtures of the same are disclosed. Such compositions can be useful in methods for treating (e.g., storing and rejuvenating) red blood cells and platelets.

Disclosed herein are methods of producing platelets and red blood cells using synthetic biology and uses thereof. The methods disclosed herein can also be used to produce platelets and red blood cells comprising a therapeutic agent. The cells produced by the methods disclosed herein can be used to treat, manage, prevent and diagnosis various diseases and disorders and be used as a research tool.

The present invention features compositions and methods for editing deleterious mutations associated with hemoglobinopathies, such as sickle cell disease (SCD). In particular embodiments, the invention provides methods for correcting mutations in a beta globin polynucleotide using modified adenosine base editors termed “ABE8” having unprecedented levels (e.g., >60-70%) of efficiency.

Methods of treating and preventing malaria infection, comprising administering a therapeutically effective amount of cell permeability modulating therapy are provided herein. Among other things, the present disclosure provides parameters that define subjects who are relatively susceptible or resistant to malaria infection. The present disclosure also provides therapeutic strategies for increasing malarial resistance and/or imparting a resistant state on subjects.

This disclosure provides methods and compositions for treating TTP based on transfusion of a relatively small number of genetically modified red blood cells. The genetically modified red blood cells express a fusion protein including a fragment of ADAMTS13 that is enzymatically active against von Willebrand factor (VWF). The fragments of ADAMTS13 can be resistant to the inhibitors, e.g., the auto-immune antibodies, which are responsible for the acquired form of TTP.

The current subject matter includes methods, systems, articles, and techniques to deliver material to anucleate cells, such as red blood cells. Using a rapid deformation based microfluidic system, loading of red blood cells with macromolecules of different sizes has been shown. Although delivery to some mammalian cells, such as cancer cell lines and fibroblasts had been previously demonstrated using this technique, those designs were incompatible with RBCs that have dramatically different physical properties. Through the use of smaller constriction sizes, high speeds and different buffers successful delivery to red blood cells can be achieved. By enabling robust delivery to red blood cells in a simple, scalable manner, the current subject matter can be implemented in a diversity of applications that deliver material to study red blood cell diseases and/or use red blood cells as a therapeutic platform. Related apparatus, systems, techniques, and articles are also described.

Described are systems and methods for monitoring administration of nitric oxide (NO) to ex vivo fluids. Examples of such fluids include blood in extracorporeal membrane oxygenation (ECMO) circuits or perfusion fluids used for preserving ex vivo organs prior to transplanting in a recipient. The systems and methods described herein provide for administering nitric oxide to the fluid, monitoring nitric oxide or a nitric oxide marker in the fluid, and adjusting the nitric oxide administration.

The current subject matter includes methods, systems, articles, and techniques to deliver material to anucleate cells, such as red blood cells. Using a rapid deformation based microfluidic system, loading of red blood cells with macromolecules of different sizes has been shown. Although delivery to some mammalian cells, such as cancer cell lines and fibroblasts had been previously demonstrated using this technique, those designs were incompatible with RBCs that have dramatically different physical properties. Through the use of smaller constriction sizes, high speeds and different buffers successful delivery to red blood cells can be achieved. By enabling robust delivery to red blood cells in a simple, scalable manner, the current subject matter can be implemented in a diversity of applications that deliver material to study red blood cell diseases and/or use red blood cells as a therapeutic platform. Related apparatus, systems, techniques, and articles are also described.

The present invention is related to arginine deiminase encapsulated into erythrocytes for use in therapy. It is in particular related to the use thereof in treating arginase-1 deficiency. Also, it relates to novel pharmaceutical compositions comprising arginine deiminase from M. arginini encapsulated into erythrocytes and the use thereof in treating diseases that may benefit from arginine depletion, such as arginine dependent cancers, in particular arginine-auxotrophic cancers, and arginase-1 deficiency.

Embodiments of the present invention relate to methods of preparing a cell, tissue, organ or plant for cryopreservation, wherein the method includes contacting the cell, tissue, organ or plant with a composition including sucrose and/or sucralose.