ns, excessive amounts of ROS induced by Cd can modify proteins, lipids and DNA, alter their functions, and activate related signaling pathways. For example, Cd activates the MAPK pathway by induction of ROS generation, which not only activates the upstream kinases of Erk1/2 and JNK, but also inhibits negative regulators, protein phosphatase 2A and protein phosphatase 5, leading to apoptosis of neuronal cells. The data suggest that ROS-induced apoptosis is likely to be a central mechanism of Cd-induced neuronal cell death. It has been described that Cd-induced ROS is related to i elevation in various types of non-neuronal cells. This prompted us to study whether Cd induces oxidative stress by disrupting i homeostasis in neuronal cells. Here we show that Cd-induced neuronal apoptosis is associated with its induction of i elevation in PC12, SH-SY5Y cells and primary murine neurons. Consequently, Cd-elevated i induces ROS, and activates MAPK and mTOR pathways, leading to neuronal cell death. 5% CO2). Fresh medium was replaced every 3 days. The cells were used for experiments after 6 days of culture. Lentiviral shRNA cloning, production, and infection To generate lentiviral short hairpin RNA to calmodulin, oligonucleotides containing the target sequences were synthesized, annealed and VX765 web inserted into FSIPPW lentiviral vector via the EcoR1/BamH1 restriction enzyme site, as described previously. Oligonucleiotides used were: sense: 59AATTCCCGGATGGAGATGGCACTATCTG CAAGAGAGATAGTGCCATCTCCATCCTTTTTG-39, anti-sense: 59-GATCCAAA AAGGATGGAGATGGCACTATCTCTCT TGCAGATAGTGCCATCTCCATCCGG G-39, which were synthesized by Invitrogen. Lentiviral shRNA construct targeting green fluorescnec protein was described. To produce lentiviral shRNAs, above constructs were co-transfected together with pMD2.G and psPAX2 to 293TD cells using LipfectamineTM 2000 reagent. Each virus-containing medium was collected 36 and 60 h posttransfection, respectively. For use, monolayer cells, when grown to about 70% confluence, were infected with above lentiviruscontaining medium in the presence of 8 mg/ml polybrene for 12 h twice at an interval of 6 h. Uninfected cells were eliminated by exposure to 2 mg/ml puromycin for 48 h before use. Materials and Methods Chemicals Cadmium chloride was dissolved in sterile distilled water to prepare the stock solutions, aliquoted, and stored at room temperature. Fluo-3/AM and Fluo4/AM were purchased from Invitrogen. Poly-D-lysine, and ethylene glycol tetra-acetic acid were from Sigma. 1,2-bis–ethane- N,N,N9,N9tetraacetic acid, tetraacetoxymethyl ester was purchased from Enzo Life Sciences International. Trifluoperazine dihydrochloride and 5–chloromethyl-29,79-dichlorodihydrofluorescein diacetate were from MP Biomedicals. Cell culture Rat pheochromocytoma and human neuroblastoma cell lines were purchased from American Type Culture Collection, and were used for no more than 10 and 20 passages, respectively. PC12 cells were grown in antibiotic-free Dulbecco’s modified Eagle medium supplemented with 10% horse serum and 5% fetal bovine serum , whereas SH-SY5Y cells were grown in antibiotic-free DMEM supplemented with 10% FBS. Cells were trypsinized with 0.05% Trypsin-EDTA, sub-cultured, and maintained in a humid incubator. Primary murine neurons were isolated from mice as described. Isolated cells were seeded at a density of 26106 cells/well in a 6-well plate coated with 10 mg/ml PDL in NEUROBASALTM Media supplemented with 2% B27 Supplement, 2 mM glutam