According to the present disclosure, there is provided a method for manufacturing pluripotent stem cells including introducing a reprogramming factor into cells and seeding the cells, into which the reprogramming factor is introduced, at a low concentration and culturing the cells.

According to the present disclosure, there is provided a method for manufacturing pluripotent stem cells including introducing a reprogramming factor into cells and seeding the cells, into which the reprogramming factor is introduced, at a low concentration and culturing the cells.

A red blood cell extracellular vesicle (RBCEV) loaded with a nucleic acid cargo; method for preparing the loaded vesicle; and the therapeutic use of the vesicle thereof are disclosed. The nucleic acid cargoes may be DNA or RNA, single stranded or double stranded, as well as linear or circular.

A red blood cell extracellular vesicle (RBCEV) loaded with a nucleic acid cargo; method for preparing the loaded vesicle; and the therapeutic use of the vesicle thereof are disclosed. The nucleic acid cargoes may be DNA or RNA, single stranded or double stranded, as well as linear or circular.

The present disclosure provides, at least in part, methods and compositions for in vivo fusosome delivery. In some embodiments, the fusosome comprises a combination of elements that promote specificity for target cells, e.g., one or more of a fusogen, a positive target cell-specific regulatory element, and a non-target cell-specific regulatory element. In some embodiments, the fusosome comprises one or more modifications that decrease an immune response against the fusosome.

The present disclosure provides, at least in part, methods and compositions for in vivo fusosome delivery. In some embodiments, the fusosome comprises a combination of elements that promote specificity for target cells, e.g., one or more of a fusogen, a positive target cell-specific regulatory element, and a non-target cell-specific regulatory element. In some embodiments, the fusosome comprises one or more modifications that decrease an immune response against the fusosome.

The present disclosure generally relates to therapies involving immune effector cells such as T cells engineered to express antigen receptors such as T cell receptors (TCRs) or chimeric antigen receptors (CARs). It is demonstrated herein that such antigen receptor-engineered immune effector cells may be generated in vitro/ex vivo as well as in vitro by delivering nucleic acid encoding an antigen receptor for genetic modification to cells using particles comprising the nucleic acid and a targeting molecule for targeting the immune effector cells, wherein the targeting molecule is a designed ankyrin repeat protein (DARPin). In particular, DARPins are described herein which are high-affinity binders for CDS binding to the CDS receptor on human and non-human primate (NHP) cells. Nanoparticles functionalized with CD8− targeting DARPins (CDS-DARPin) can deliver genes exclusively and specifically to human CD8.sup.+ T cells in vitro and in vivo.

The present disclosure generally relates to therapies involving immune effector cells such as T cells engineered to express antigen receptors such as T cell receptors (TCRs) or chimeric antigen receptors (CARs). It is demonstrated herein that such antigen receptor-engineered immune effector cells may be generated in vitro/ex vivo as well as in vitro by delivering nucleic acid encoding an antigen receptor for genetic modification to cells using particles comprising the nucleic acid and a targeting molecule for targeting the immune effector cells, wherein the targeting molecule is a designed ankyrin repeat protein (DARPin). In particular, DARPins are described herein which are high-affinity binders for CDS binding to the CDS receptor on human and non-human primate (NHP) cells. Nanoparticles functionalized with CD8− targeting DARPins (CDS-DARPin) can deliver genes exclusively and specifically to human CD8.sup.+ T cells in vitro and in vivo.

The compounds disclosed herein compound of Formula (I), substructures thereof, and pharmaceutically acceptable salts thereof. The compounds provided herein can be useful for delivery and expression of mRNA and encoded protein, e.g., as a component of liposomal delivery vehicle, and accordingly can be useful for treating various diseases, disorders and conditions, such as those associated with deficiency of one or more proteins.

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In some aspects, fusosome compositions and methods are described herein that comprise membrane enclosed preparations, comprising a fusogen. In some embodiments, the fusosome can the target cell, thereby delivering complex biologic agents to the target cell cytoplasm.