Nowadays, drug abuse and addiction are serious public health problems in the USA. Methamphetamine (METH) is one of the most abused drugs, which is known to cause brain damage from repeated exposure on human. Herein, a proteomic study was applied to evaluate METH-induced brain protein dynamics following a two-week chronic regimen of escalating dose of METH exposure. Proteins were extracted from rat brain hippocampal and olfactory bulb tissues and subjected to liquid chromatography-mass spectrometry (LC-MS/MS) analysis. Both shotgun and targeted proteomic analysis were performed. Protein quantitation was initially based on comparing the spectral counts between METH exposed animals and their control counterparts. Quantitative differences were further confirmed through multiple reaction monitoring (MRM) LC-MS/MS experiments. According to the quantitative results, the expression of 18 proteins (11 in hippocampal proteome, 7 in olfactory bulb proteome) were shown a significant alteration as a result of exposure of rats to METH. 13 of these proteins were up-regulated after METH exposure while 5 of were down-regulated. The altered proteins belonging to different structural and functional families were involved in processes such as cell death, inflammation, oxidation, and apoptosis.