Unravelling neurological disorders through metallomics-based approaches

Understanding the biological process involving metals and biomolecules in the brain is essential for establishing the origin of neurological disorders, such as neurodegenerative and psychiatric diseases. From this perspective, this critical review presents recent advances in this topic, showing possible mechanisms involving the disruption of metal homeostasis and the pathogenesis of neurological disorders. We also discuss the main challenges observed in metallomics studies associated with neurological disorders, including those related to sample preparation and analyte quantification. Significance to metallomics Neurological disorders are pathological conditions in which the brain's biochemistry is affected, causing cell dysfunction and deficiencies. There is accumulated evidence that altered metal homeostasis may be related to the emergence and progression of neurological diseases. Therefore, examining the effects of metal ion binding on the aggregation pathways and dysregulation of metal homeostasis remains essential for understanding neurological disorders, such as neurodegenerative and psychiatric diseases. Then, this work presents a critical review of the advances in this topic, highlighting the fundamental role of metallomics strategies for these advances. (AU)