Sistema FMUSP-HC: Faculdade de Medicina da Universidade de São Paulo (FMUSP) e Hospital das Clínicas da FMUSPCORRADINI, Beatriz RaposoIAMASHITA, PriscilaTAMPELLINI, EdilaineFARFEL, Jose MarceloGRINBERG, Lea TenenholzMOREIRA-FILHO, Carlos Alberto2015-04-222015-04-222014BIOMED RESEARCH INTERNATIONAL, article ID 543673, 16p, 20142314-6133https://observatorio.fm.usp.br/handle/OPI/8906Parkinson's disease (PD)-classically characterized by severe loss of dopaminergic neurons in the substantia nigra pars compactahas a caudal-rostral progression, beginning in the dorsal motor vagal nucleus and, in a less extent, in the olfactory system, progressing to the midbrain and eventually to the basal forebrain and the neocortex. About 90% of the cases are idiopathic. To study the molecular mechanisms involved in idiopathic PD we conducted a comparative study of transcriptional interaction networks in the dorsal motor vagal nucleus (VA), locus coeruleus (LC), and substantia nigra (SN) of idiopathic PD in Braak stages 4-5 (PD) and disease-free controls (CT) using postmortem samples. Gene coexpression networks (GCNs) for each brain region (patients and controls) were obtained to identify highly connected relevant genes (hubs) and densely interconnected gene sets (modules). GCN analyses showed differences in topology and module composition between CT and PD networks for each anatomic region. In CT networks, VA, LC, and SN hub modules are predominantly associated with neuroprotection and homeostasis in the ageing brain, whereas in the patient's group, for the three brain regions, hub modules are mostly related to stress response and neuron survival/degeneration mechanisms.engopenAccesscentral-nervous-systemcell-deathubiquitin ligaseprotects neuronsprimary ciliamouse-braingroup-iiexpressionreceptordifferentiationarticleCopyright HINDAWI PUBLISHING CORPORATION10.1155/2014/543673Biotechnology & Applied MicrobiologyMedicine, Research & Experimental2314-6141