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Abstract
Alzheimer’s disease (AD) is a neurodegenerative disease that eventually affects memory and behavior. The identification of biomarkers based on risk factors for AD provides insight into the disease since the exact cause of AD remains unknown. Several studies have proposed microRNAs (miRNAs) in blood as potential biomarkers for AD. Exposure to heavy metals is a potential risk factor for onset and development of AD. Blood cells of subjects that are exposed to lead detected in the circulatory system, potentially reflect molecular responses to this exposure that are similar to the response of neurons. In this study we analyzed blood cell-derived miRNAs derived from a general population as proxies of potentially AD-related mechanisms triggered by lead exposure. Subsequently, we analyzed these mechanisms in the brain tissue of AD subjects and controls. A total of four miRNAs were identified as lead exposure-associated with hsa-miR-3651, hsa-miR-150-5p and hsa-miR-664b-3p being negatively and hsa-miR-627 positively associated. In human brain derived from AD and AD control subjects all four miRNAs were detected. Moreover, two miRNAs (miR-3651, miR-664b-3p) showed significant differential expression in AD brains versus controls, in accordance with the change direction of lead exposure. The miRNAs’ gene targets were validated for expression in the human brain and were found enriched in AD-relevant pathways such as axon guidance. Moreover, we identified several AD relevant transcription factors such as CREB1 associated with the identified miRNAs. These findings suggest that the identified miRNAs are involved in the development of AD and might be useful in the development of new, less invasive biomarkers for monitoring of novel therapies or of processes involved in AD development.
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1 Maastricht University, Department of Toxicogenomics, Maastricht, The Netherlands (GRID:grid.5012.6) (ISNI:0000 0001 0481 6099); Maastricht University, MHeNS, School for Mental Health and Neuroscience, Maastricht, The Netherlands (GRID:grid.5012.6) (ISNI:0000 0001 0481 6099)
2 University of Antwerp, Department of Biomedical Sciences, Institute Born-Bunge, Antwerpen, Belgium (GRID:grid.5284.b) (ISNI:0000 0001 0790 3681); Vrije Universiteit Brussel (VUB), Neuroprotection and Neuromodulation (NEUR), Center for Neurosciences (C4N), Brussel, Belgium (GRID:grid.8767.e) (ISNI:0000 0001 2290 8069); Universitair Ziekenhuis Brussel (UZ Brussel), Department of Neurology, and Brussels Integrated Center for Brain and Memory (Bru-BRAIN), Brussel, Belgium (GRID:grid.411326.3) (ISNI:0000 0004 0626 3362)
3 Maastricht University, Department of Toxicogenomics, Maastricht, The Netherlands (GRID:grid.5012.6) (ISNI:0000 0001 0481 6099)
4 Lund University Hospital, Division of Occupational and Environmental Medicine, Lund, Sweden (GRID:grid.411843.b) (ISNI:0000 0004 0623 9987)
5 Umeå University, Section of Sustainable Health, Department of Public Health and Clinical Medicine, Umeå, Sweden (GRID:grid.12650.30) (ISNI:0000 0001 1034 3451)
6 National Hellenic Research Foundation, Institute of Chemical Biology, Athens, Greece (GRID:grid.22459.38) (ISNI:0000 0001 2232 6894)
7 Maastricht University, Department of Toxicogenomics, Maastricht, The Netherlands (GRID:grid.5012.6) (ISNI:0000 0001 0481 6099); Maastricht University, MHeNS, School for Mental Health and Neuroscience, Maastricht, The Netherlands (GRID:grid.5012.6) (ISNI:0000 0001 0481 6099); Maastricht University, School for Oncology and Developmental Biology (GROW), Maastricht, The Netherlands (GRID:grid.5012.6) (ISNI:0000 0001 0481 6099)