Engineered red blood cells as carriers for systemic delivery of a wide array of functional probes

Abstract: We developed modified RBCs to serve as carriers for systemic delivery of a wide array of payloads. These RBCs contain modified proteins on their plasma membrane, which can be labeled in a sortase-catalyzed reaction under native conditions without inflicting damage to the target membrane or cell. Sortase accommodates a wide range of natural and synthetic payloads that allow modification of RBCs with substituents that cannot be encoded genetically. 2 with a favorable surface-to-volume ratio; and (vi) the absenc… Show more

“…Drug delivery by red blood cells (RBCs) was envisioned decades ago [1][2][3] and the field has seen substantial growth, [4][5][6] spurred by advances in drug loading within cells, 7,8 approaches to coupling to the cell surface, 9,10 new technologies for genetic manipulation, 11 and clinical successes in cellular therapeutics overall. 12 Delivery by carrier RBCs enhances pharmacokinetics and, in some cases, the pharmacodynamics of the loaded agents.…”

Biocompatible coupling of therapeutic fusion proteins to human erythrocytes

“…Drug delivery by red blood cells (RBCs) was envisioned decades ago [1][2][3] and the field has seen substantial growth, [4][5][6] spurred by advances in drug loading within cells, 7,8 approaches to coupling to the cell surface, 9,10 new technologies for genetic manipulation, 11 and clinical successes in cellular therapeutics overall. 12 Delivery by carrier RBCs enhances pharmacokinetics and, in some cases, the pharmacodynamics of the loaded agents.…”

Biocompatible coupling of therapeutic fusion proteins to human erythrocytes

“…An important aspect of our strategy is to preserve the biological properties of labeled RBCs, so that they remain as close to their native state as possible. We used a sortase A-mediated reaction ("sortagging") to minimize damage to the RBC membrane (11,12). Sortase A recognizes an LPXTG motif and cleaves the peptide bond between the threonine and glycine residues in this motif to yield a thioester acyl-enzyme intermediate.…”

“…generate red cells that have variable numbers of sortaggable proteins on their surface (12,13). Because tolerogenic doses vary among different antigens, it is important to have a source of RBCs that can be modified consistently and reproducibly with a known quantity of antigen.…”

Engineered erythrocytes covalently linked to antigenic peptides can protect against autoimmune disease

“…In this work, we have designed VMVs to serve as broad vaccine delivery vehicles and developed a straightforward, robust and tunable method of functionalizing the VMV surface with a variety of protein probe for targeted delivery (27). The VMV technology is also rapidly scalable to mass production by bioreactors, whenever cell lines/patients' own cells [e.g., MSCs, DC cells or engineered red blood cells (27) as nanocarriers] stably expressing a virus antigen on their cell plasma membrane surfaces become available.…”

“…The VMV technology is also rapidly scalable to mass production by bioreactors, whenever cell lines/patients' own cells [e.g., MSCs, DC cells or engineered red blood cells (27) as nanocarriers] stably expressing a virus antigen on their cell plasma membrane surfaces become available. Due to the tolerance of large protein insertion in natural forms by VMVs, the VMV nanotechnology has the potential to be adapted to the design of vaccines against a wide array of enveloped viruses, including ones with pandemic potential.…”

Virus-mimetic nanovesicles as a versatile antigen-delivery system