Dopaminergic neurons of the substantia nigra pars compacta selectively and progressively degenerate in Parkinson’s disease. Until now, molecular analyses of dopaminergic neurons in PD have been limited to genomic and transcriptomic approaches, whereas, to the best of our knowledge, no proteomic or combined polyomic study examining the protein profile of these neurons, is currently available. In this exploratory study, we used laser microdissection to extract dopaminergic neurons from 10 human SNpc samples obtained at autopsy in Parkinson’s disease patients and control subjects. Extracted RNA and proteins were identified by RNA sequencing and nano-LC-MS/MS, respectively, and the differential expression between Parkinson’s disease and control group was assessed. Qualitative analyses confirmed that the microdissection protocol preserves the integrity of our samples and offers access to specific molecular pathways. This polyomic analysis highlighted differential expression of 52 genes and 33 proteins, including molecules of interest already known to be dysregulated in Parkinson’s disease, such as LRP2, PNMT, CXCR4, MAOA and CBLN1 genes, or the Aldehyde dehydrogenase 1 protein. On the other hand, despite the same samples were used for both analyses, correlation between RNA and protein expression was low, as exemplified by the CST3 gene encoding for the cystatin C protein. This is the first exploratory study analyzing both gene and protein expression of LMD-dissected neurons from substantia nigra pars compacta in Parkinson’s disease.