l-type amino acid transporter 1 (LAT1) is a membrane transporter responsible for carrying large, neutral l-configured amino acids as well as appropriate (pro)drugs into a cell. It has shown a great potential to improve drug delivery across the blood-brain barrier and to increase cell uptake into several brain and cancer cell types. However, besides the brain, the LAT1-utilizing compounds are also delivered more efficiently into the pancreas in vivo. In this study, we quantified the expression of LAT1 along several other membrane transporters in mouse pancreatic β-cell line (MIN6). Furthermore, we studied the function of LAT1 in MIN6 cells, and its ability to deliver non-steroidal anti-inflammatory drug (NSAID)-derived prodrugs there. The results showed that LAT1 was highly abundant in MIN6 cells, with an even expression on cell pseudoislets. The l-leucine uptake as a probe substrate was efficient, with comparable affinity and capacity to previously studied immortalized mouse microglia (BV2). The NSAID-derived prodrugs utilized LAT1 for their delivery and were uptaken into MIN6 cells 2-300 times more efficiently when compared to their parent drugs. A similar increase in pancreatic delivery was observed also in vivo, where the pancreatic exposure was 2-10 times higher with selected prodrugs, indicating an excellent correlation between in vitro uptake and in vivo pancreatic delivery. Finally, the LAT1-utilizing prodrugs were able to reverse the effects of cytokines on insulin secretion in MIN6 cells, showing that improved delivery via LAT1 can enhance drug effects in the mouse pancreatic β-cell line.
Keywords: Insulin secretion; L-type amino acid transporter 1 (LAT1); Pancreatic β-cell; Pharmacokinetics; Prodrugs; transporter protein.
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