Abstract: Membrane-lytic block copolymers, micellar assemblies, pharmaceutical compositions, and related methods are described.

Abstract: Described herein is a reversible aptamer selection technology for production-scale isolation of label-free cells (e.g., CD8+ T cells). Provided herein are methods for isolating a cell of interest from a biological sample by contacting the biological sample with an aptamer that specifically binds a cell surface marker specific for the cell of interest; separating the aptamer-bound cells from cells not bound to the aptamer; and recovering a cell of interest by disrupting binding of the aptamer to the cell surface marker.

Abstract: Membrane-lytic block copolymers, micellar assemblies, pharmaceutical compositions, and related methods are described.

Abstract: A biocompatible polymer to which a plurality of clot-modulating peptides (CMPs) are bound. The polymer comprises repeating units of hydrophilic monomers and display monomers to which the CMPs are bound. For example, the CMPs can be fibrin binding peptides (FBPs) that enhance clot formation by cross-linking that occurs within and between fibers by the plurality of fibrin-binding peptides during fibrin polymerization. The polymers of the invention can be used to modulate clotting in a variety of ways via multivalent display of fibrin-binding peptides and other clot-binding and clot-modulating moieties on polymer or co-polymer backbones. In addition to clot-modulating moieties, imaging agents and therapeutic agents can be conjugated to the polymers to facilitate imaging of blood flow and thrombosis, and for treatment of clotting-related disorders.

Abstract: M2 macrophage-binding peptides and polymers and related methods of use are described.

Abstract: A biocompatible polymer to which a plurality of clot-modulating peptides (CMPs) are bound. The polymer comprises repeating units of hydrophilic monomers and display monomers to which the CMPs are bound. For example, the CMPs can be fibrin binding peptides (FBPs) that enhance clot formation by cross-linking that occurs within and between fibers by the plurality of fibrin-binding peptides during fibrin polymerization. The polymers of the invention can be used to modulate clotting in a variety of ways via multivalent display of fibrin-binding peptides and other clot-binding and clot-modulating moieties on polymer or co-polymer backbones. In addition to clot-modulating moieties, imaging agents and therapeutic agents can be conjugated to the polymers to facilitate imaging of blood flow and thrombosis, and for treatment of clotting-related disorders.

Abstract: Transport peptides, alone or attached to a cargo moiety, are capable of targeted axonal import into the spinal cord and other structures of the central nervous system. The transport peptides can be used to deliver therapeutic agents and other molecules of interest from the periphery to the central nervous system, providing a means to detect, treat or prevent neurodegenerative diseases, stroke, chronic pain and other conditions via minimally invasive techniques of administration.

Abstract: Transport peptides, alone or attached to a cargo moiety, are capable of targeted axonal import into the spinal cord and other structures of the central nervous system. The transport peptides can be used to deliver therapeutic agents and other molecules of interest from the periphery to the central nervous system, providing a means to detect, treat or prevent neurodegenerative diseases, stroke, chronic pain and other conditions via minimally invasive techniques of administration.