Several classes of non-steroid 11β-HSD1 inhibitors have been developed as promising treatments for Type 2 Diabetes (T2D). Using a human 11β-HSD1 selective inhibitor as a starting point, we designed and synthesized a new class of derivatives of 1-arylsulfonyl piperidine-3-carboxamides. It was found that the large lipophilic group on the amino moiety may lead to cross-species potency towards human and mouse, allowing drug development by evaluating compounds in rodent model. By exploring structure-activity-relationship, the (R)-(+)-bornylamine derivative is identified as the most potent inhibitor of mouse enzyme 11β-HSD1 with an IC(50) of 18 nM. Docking studies revealed the different possible interaction modes of the S-enantiomer and R-enantiomer bound to h11β-HSD1, and explained why the S-enantiomer is more active than the R-enantiomer. Finally, two potent and isoform-selective compounds, (+)-isopinocampheylamine derivative 8m and (R)-(+)-bornylamine derivative 8l, with suitable in vitro properties, could be selected for future PK/PD evaluation in rodent models. Then, 8l was subjected a pharmacodynamics study in vivo with rodent model. It was shown that 8l have 71% and 63% inhibition in adipose and liver tissue at 1h after administration, but it was a short-acting compound displaying a significant drop in potency in the subsequent 3h. This study not only provides compounds as novel h11β-HSD1 inhibitors, but also presents structure-activity relationships for designing potent human/mouse 11β-HSD1 inhibitors suitable for in vivo evaluation in rodent models.
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