Methylmercury decreases NGF-induced TrkA autophosphorylation and neurite outgrowth in PC12 cells

Neurotrophin signaling through Trk receptors is important for differentiation and survival in the developing nervous system. The present study examined the effects of CH3Hg on I-125-nerve growth factor (NGF) binding to the TrkA receptor, NGF-induced activation of the TrkA receptor, and neurite outgrowth in an in vitro model of differentiation using PC12 cells. Whole-cell binding assays using I-125-NGF revealed a single binding site with a K-d of approximately 1 nM. Methylmercury (CH3Hg) at 30 nM (EC50 for neurite outgrowth inhibition) did not affect NGF binding to TrkA. TrkA autophosphorylation was measured by immunoblotting with a phospho-specific antibody. TrkA autophosphorylation peaked between 2.5 and 5 min of exposure and then decreased but was still detectable at 60 min. Concurrent exposure to CH3Hg and NGF for 2.5 min resulted in a concentration-dependent decrease in TrkA autophosphorylation, which was significant at 100 nM CH3Hg. To determine whether the observed inhibition of TrkA was sufficient to alter cell differentiation, NGF-stimulated neurite outgrowth was examined in PC12 cells after exposure to 30 nM CH3Hg, a concentration that inhibited TrkA autophosphorylation by approximately 50%. For comparison, a separate group of PC12 cells were exposed to a concentration of the selective Trk inhibitor K252a (30 nM), which had been shown to produce significant inhibition of TrkA autophosphorylation. Twenty-four hour exposure to either CH3Hg or K252a reduced neurite outgrowth to a similar degree. Our results suggest that CH3Hg may inhibit differentiation of PC12 cells by interfering with NGF-stimulated TrkA autophosphorylation. Published by Elsevier Science B.V.