SummaryParkinson’s Disease is the second most common neurodegenerative disease after Alzheimer’s disease. Despite extensive research, the initial cause of the disease is still unknown, although substantial advances were made in understanding of its genetics and the cognate neurophysiological mechanisms. Determining the causality relationships and the chronological steps pertaining to Parkinson’s Disease is essential for the discovery of novel drug targets. We developed a systematic in silico model based on available data, which puts the possible sequence of events occurring in a neuron during disease onset into light. This is the first ever attempt, to our knowledge, to model comprehensively the primary modifications in the molecular pathways that manifest in compromised neurons from the commencement of the disease to the consequences of its progression. We showed that our proposed disease pathway was relevant for unveiling yet incomplete knowledge on calcium homeostasis in mitochondria, ROS production and α-synuclein misfolding.Graphical abstractHighlightsVarying calcium concentration in aging dopaminergic neurons triggers disease onset.ROS production in the mitochondria potentially causes iron accumulation.Iron homeostasis dysregulation is linked to α-synuclein aggregation.
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