AI Article Synopsis
- Natural cells can enhance specific interactions by temporarily increasing nonspecific binding molecules at contact points, a feat currently not possible with synthetic systems.
- Researchers propose using responsive peptide fibrils on cell surfaces that grow when in contact with target cells but remain short near competing cells, using a strand-displacement reaction for direction.
- This method can effectively guide natural killer cells to destroy specific cancer cells, offering a flexible alternative to traditional techniques that rely on specific binding, thus expanding possibilities for manipulating various cell interactions.
Article Abstract
Natural cells can achieve specific cell-cell interactions by enriching nonspecific binding molecules on demand at intercellular contact faces, a pathway currently beyond synthetic capabilities. We are inspired to construct responsive peptide fibrils on cell surfaces, which elongate upon encountering target cells while maintaining a short length when contacting competing cells, as directed by a strand-displacement reaction arranged on target cell surfaces. With the display of ligands that bind to both target and competing cells, the contact-induced, region-selective fibril elongation selectively promotes host-target cell interactions via the accumulation of nonspecific ligands between matched cells. This approach is effective in guiding natural killer cells, the broad-spectrum effector lymphocytes, to eliminate specific cancer cells. In contrast to conventional methods relying on target cell-specific binding molecules for the desired cellular interactions, this dynamic scaffold-based approach would broaden the scope of cell combinations for manipulation and enhance the adjustability of cell behaviors for future applications.
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| http://dx.doi.org/10.1021/acs.nanolett.4c02370 | DOI Listing |
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