<p>Microglia, the resident immune cells of the brain, are increasingly recognized as key contributors to Alzheimer’s disease (AD) pathology. Multiple studies have identified microRNA-132 (miR-132) as one of the most significantly downregulated microRNAs in AD. Apart from well-established pleiotropic regulatory functions in neurons, previous evidence also suggested a role for miR-132 in regulating (neuro)inflammation. Yet, the precise mechanisms by which miR-132 impacts microglia remain unknown. In this study, we investigated the role of miR-132 in modulating microglial gene expression and function using gain- and loss-of-function approaches in human-induced pluripotent stem cell (iPSC)-derived microglia (iMGs) from both healthy controls and sporadic AD (sAD) patients. Our findings indicate that while miR-132 may not be indispensable for some baseline microglial functions, increasing its expression in sAD iMGs can reverse disease-associated gene expression changes and attenuate inflammatory responses. To further explore its therapeutic potential, we overexpressed miR-132 in hippocampal neurons of an AD mouse model, employing a clinically relevant adeno-associated viral (AAV) delivery method. miR-132 overexpression was well-tolerated and induced non-cell autonomous effects in microglia. This study sheds light into the regulatory role of miR-132 in microglia under both physiological and AD conditions, and emphasizes the importance of optimizing safe dosage parameters for future clinical applications.</p>

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microRNA-132 attenuates inflammation in induced pluripotent stem cell-derived microglia from Alzheimer’s disease patients

  • Amber Penning,
  • Sarah Snoeck,
  • Olmo Ruiz Ormaechea,
  • Dilara Ayyildiz,
  • Oliver Polzer,
  • Martin Buitrago-Arango,
  • Raffaella Capobianco,
  • Fred de Winter,
  • Sriram Balusu,
  • Joost Verhaagen,
  • Carlos P. Fitzsimons,
  • Constantin d’Ydewalle,
  • Paul J. Lucassen,
  • Dieder Moechars,
  • Lujia Zhou,
  • Evgenia Salta

摘要

Microglia, the resident immune cells of the brain, are increasingly recognized as key contributors to Alzheimer’s disease (AD) pathology. Multiple studies have identified microRNA-132 (miR-132) as one of the most significantly downregulated microRNAs in AD. Apart from well-established pleiotropic regulatory functions in neurons, previous evidence also suggested a role for miR-132 in regulating (neuro)inflammation. Yet, the precise mechanisms by which miR-132 impacts microglia remain unknown. In this study, we investigated the role of miR-132 in modulating microglial gene expression and function using gain- and loss-of-function approaches in human-induced pluripotent stem cell (iPSC)-derived microglia (iMGs) from both healthy controls and sporadic AD (sAD) patients. Our findings indicate that while miR-132 may not be indispensable for some baseline microglial functions, increasing its expression in sAD iMGs can reverse disease-associated gene expression changes and attenuate inflammatory responses. To further explore its therapeutic potential, we overexpressed miR-132 in hippocampal neurons of an AD mouse model, employing a clinically relevant adeno-associated viral (AAV) delivery method. miR-132 overexpression was well-tolerated and induced non-cell autonomous effects in microglia. This study sheds light into the regulatory role of miR-132 in microglia under both physiological and AD conditions, and emphasizes the importance of optimizing safe dosage parameters for future clinical applications.