Inhibition of thioredoxin reductase 1 by porphyrins and other small molecules identified by a high-throughput screening assay.

[erythropoietic protoporphyria]

The selenoprotein thioredoxin reductase 1 (TrxR 1 ) has in recent years been identified as a promising anticancer drug target . A high -throughput assay for discovery of novel compounds targeting the enzyme is therefore warranted . Herein , we describe a single -enzyme , dual-purpose assay for simultaneous identification of inhibitors and substrates of TrxR 1 . Using this assay to screen the LOPAC ¹²⁸⁰ compound collection we identified several known inhibitors of TrxR 1 , thus validating the assay , as well as several compounds hitherto unknown to target the enzyme . These included rottlerin (previously reported as a PKCδ inhibitor and mitochondrial uncoupler ) and the heme precursor protoporphyrin IX (PpIX ). We found that PpIX was a potent competitive inhibitor of TrxR 1 , with a K (i )=2 .7 μM with regard to Trx 1 , and in the absence of Trx 1 displayed time-dependent irreversible inhibition with an apparent second -order rate constant (k (inact )) of (0 .73 ± 0 .07 ) × 10 ⁻³ μM ⁻¹ min ⁻¹ . Exogenously delivered PpIX was cytotoxic , inhibited A 549 cell proliferation , and was found to also inhibit cellular TrxR activity . Hemin and the ferrochelatase inhibitor NMPP also inhibited TrxR 1 and showed cytotoxicity , but less potently compared to PpIX . We conclude that rottlerin-induced cellular effects may involve targeting of TrxR 1 . The unexpected finding of PpIX as a TrxR 1 inhibitor suggests that such inhibition may contribute to symptoms associated with conditions of abnormally high PpIX levels , such as reduced ferrochelatase activity seen in erythropoietic protoporphyria . Finally , additional inhibitors of TrxR 1 may be discovered and further characterized based upon the new high -throughput TrxR 1 assay presented here .