Reversible control of cell membrane receptor function using DNA nano-spring multivalent ligands.

Reversible control of cell membrane receptor function using DNA nano-spring multivalent ligands† †Electronic supplementary information (ESI) available: Sequence information and synthesis of the RGD–DNA conjugate. See DOI: 10.1039/c7sc02489d Click here for additional data file.

Morphing low-affinity ligands into high-avidity nanoparticles by thermally triggered self-assembly of a genetically encoded polymer.

Multivalency is the increase in avidity resulting from the simultaneous interaction of multiple ligands with multiple receptors. This phenomenon, seen in antibody-antigen and virus-cell membrane interactions, is useful in designing bioinspired materials for targeted delivery of drugs or imaging agents. While increased avidity offered by multivalent targeting is attractive, it can also promote n...

Tuning chemotactic responses with synthetic multivalent ligands.

BACKGROUND Multivalent ligands have been used previously to investigate the role of ligand valency and receptor clustering in eliciting biological responses. Studies of multivalent ligand function, however, typically have employed divalent ligands or ligands of undefined valency. How cells respond to multivalent ligands of distinct valencies, which can cluster a signaling receptor to different ...

Multivalent ligands to control stem cell behaviour in vitro and in vivo

There is broad interest in designing nanostructured materials that can interact with cells and regulate key downstream functions. In particular, materials with nanoscale features may enable control over multivalent interactions, which involve the simultaneous binding of multiple ligands on one entity to multiple receptors on another and are ubiquitous throughout biology. Cellular signal transdu...

Conjugation of proteins to polymer chains to create multivalent molecules.

The activation of cellular signaling cascades, critical for regulating cell function and fate, often involves changes in the organization of receptors in the cell membrane. Using synthetic multivalent ligands to control the nanoscale organization of cellular receptors into clusters is an attractive approach to elicit desired downstream cellular responses, since multivalent ligands can be signif...