Interference of the noradrenergic neurotoxin DSP4 with neuronal and nonneuronal monoamine transporters

The haloalkylamine DSP4 (N[-2-chloroethyl]-N-ethyl-2-bromobenzylamine) is a noradrenergic neurotoxin, which is used for the chemical denervation of noradrenergic neurons, and it has been proposed to be a selective substrate for the neuronal, Na+- and Cl--dependent noradrenaline transporter (NAT). In the present study, we investigated whether DSP4 not only interacts with the human NAT (hNAT) but also with other neuronal monoamine transporters such as the transporters for dopamine (hDAT) and serotonin (hSERT) or with nonneuronal (Na+-independent) monoamine transporters also known as organic cation transporters (OCTs), such as hOCT(1), hOCT(2), and hOCT(3). Using human embryonic kidney HEK293 cells heterologously expressing the corresponding transporter, we show that DSP4 irreversibly inhibits the hNAT, hDAT, hSERT, and hOCT(3). However, this inhibition includes a reversible component at the hDAT, hSERT, and hOCT(3) but not at the hNAT. The inhibitory potency of DSP4 at the neuronal transporters was highest at the hNAT (IC50 about 5 A mu M), and it was about five and 40 times lower at the hSERT and hDAT, respectively. DSP4 inhibited all three hOCTs with high potency (IC50 about 1 A mu M) but in a completely reversible manner at hOCT(1) and hOCT(2). Cytotoxicity by 24-h exposure of hNAT- or hOCT-expressing cells to low DSP4 concentrations (< 10 A mu M) could be observed only in hNAT-expressing cells. Thus, DSP4's high-affinity uptake through the NAT together with its completely irreversible mode of interaction with the NAT may contribute to its selectivity as noradrenergic neurotoxin.