Dual agonism of sodium iodide symporter function in vivo

New approaches are urgently needed to enhance the radioiodide ablation of aggressive and metastatic thyroid cancer. We recently discovered that valosin-containing protein inhibitors (VCPi) such as clotrimazole and disulfiram transiently block sodium iodide symporter (NIS) proteasomal degradation, hence promoting radioiodide uptake. However, poor bioavailability diminishes their potential impact in vivo. Following 3D modelling and iterative drug design we appraised 26 novel analogues of clotrimazole, as well as albumin nano-encapsulated copper-diethyldithiocarbamate [Cu(DDC)2-alb] – a stabilised reformulation of a disulfiram metabolite. While several clotrimazole analogues specifically increased RAI uptake, the greatest impact was observed with Cu(DDC)2-alb in thyroid cancer cells as well as human primary thyrocytes from patients with thyroid hyperplasia. NanoBRET assays revealed that Cu(DDC)2 enhanced the plasma membrane accumulation of NIS in living cells. In BALB/c mice, both intraperitoneal and intravenous administration of Cu(DDC)2-alb significantly enhanced thyroidal 99mTc-uptake. RNA-Seq revealed the surprising observation that Cu(DDC)2-alb induced key thyroid transcription factors. Accordingly, expression of PAX8 and NKX2.1 was upregulated in thyroid glands from drug treated mice, with NIS levels correlating closely to 99mTc-uptake. As Cu(DDC)2 inhibits the VCP cofactor NPL4, with VCP being critical to the proteostatic processing of NIS protein, we identify a new dual agonist of radioiodide uptake in vivo, with the potential to directly impact radioiodide therapy for patients with aggressive thyroid cancer.