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Metal–Organic Cage Receptors for Encapsulation and Sensing of Bile Acids

Bhaswati Paul, Ramalingam Natarajan

2024Inorganic Chemistry16 citationsDOI

Abstract

Developing synthetic supramolecular receptors to solubilize, scavenge, recognize, encapsulate, and sense steroids is challenging. Despite a limited number of receptors having affinity with steroids, none exists to bind steroidal bile acids selectively. Herein, we report a C 2 -symmetric metal–organic cage [Pd 6 L2 4 ] 12+ and an expanded version of the Fujita cage [Pd 6 L1 4 ] 12+, built with a conformationally flexible ligand L2, accessed through coordination-driven self-assembly. We examined both cages for steroid recognition in water: both have certain shared characteristics and distinctive features. [Pd 6 L1 4 ] 12+ binds hydrophobic bile acids and other steroids by forming a 1:1 complex. In contrast, the expanded [Pd 6 L2 4 ] 12+ cage exhibits an affinity for amphiphilic bile acids and selective steroids to encapsulate them as dimers, promoted by cooperative interguest hydrogen bonding. [Pd 6 L2 4 ] 12+ has a 5 times stronger solubility enhancement ability for cholic acid compared to [Pd 6 L1 4 ] 12+ . Further, the expanded [Pd 6 L2 4 ] 12+ cage can selectively sense bile acids in nanomolar detection limits through indicator displacement assay by employing sulforhodamine 101 (SR101).

Topics & Concepts

ChemistryEncapsulation (networking)CageMetalReceptorEnvironmental chemistryNanotechnologyOrganic chemistryBiochemistryComputer scienceMathematicsMaterials scienceCombinatoricsComputer networkDrug Transport and Resistance MechanismsMolecular Sensors and Ion DetectionSupramolecular Chemistry and Complexes