Abstract

Diabetes is a hyperglycemic condition characterized by pancreatic ß-cell dysfunction and depletion. Whereas methods for monitoring ß-cell function in vivo exist, methods to deliver therapeutics to ß cells are lacking. We leveraged the rare ability of ß cells to concentrate zinc to preferentially trap zinc-binding molecules within ß cells, resulting in ß-cell-targeted compound delivery. We determined that zinc-rich ß cells and islets preferentially accumulated TSQ (6-methoxy-8-p-toluenesulfonamido-quinoline) in a zinc-dependent manner compared with exocrine pancreas. Next, we asked whether appending a zinc-chelating moiety onto a ß-cell replication-inducing compound was sufficient to confer preferential ß-cell accumulation and activity. Indeed, the hybrid compound preferentially accumulated within rodent and human islets in a zinc-dependent manner and increased the selectivity of replication-promoting activity toward ß cells. These data resolve the fundamental question of whether intracellular accumulation of zinc-chelating compounds is influenced by zinc content. Furthermore, application of this principle yielded a proof-of-concept method for ß-cell-targeted drug delivery and bioactivity.

View details for PubMedID 30527998