Generation of High-Affinity Aptamers for Indazole Synthetic Cannabinoids.

Abstract

Synthetic cannabinoids are a widely abused class of dangerous psychoactive substances, especially among youths and young adults. Dozens of such drugs have been identified to date, and new ones continue to emerge. The ability to detect these drugs is important for interdiction efforts and the diagnosis of drug overdose, but existing analytical methods lack broad cross-reactivity to diverse members of this drug family. Here, we have utilized library-immobilized SELEX to generate DNA aptamers that can broadly recognize various members of the indazole-3-carboxamide synthetic cannabinoid family. Using two representatives of this family, AB-FUBINACA and 5F-AMB, we identify two aptamers FUB4 and AMB2F with respective dissociation constants (KDs) of 138 ± 15 and 411 ± 20 nM for their targets. These aptamers can recognize many indazole-based synthetic cannabinoids with high affinity and excellent specificity against natural cannabinoids as well as other structurally similar interferents like serotonin and tryptophan. We use these two aptamers to develop fluorescence strand-displacement sensors that successfully detect these synthetic cannabinoids at concentrations as low as 50 nM in human serum. The sensors can also detect up to 14 different drugs from this family─a major improvement over the six recognized by an existing commercial immunoassay.