Pathways linking Alzheimer’s disease risk genes expressed highly in microglia
Angela Hodges, Thomas M. Piers, David Collier, Oliver Cousins, Jennifer M. Pocock
Abstract
Microglia in the brain are exquisitely vigilant to their surroundings. They are dispersed throughout the brain parenchyma where they continually receive and integrate large numbers of incoming signals. They become activated once a tightly controlled signalling threshold is reached. This can lead to a cascade of cellular and molecular changes culminating in the recognition and engulfment of self and non-self structures ranging from macromolecules to whole cells depending on the initiating signal. Once internalised, they digest and where appropriate, present antigens to aid future recognition of pathogens. Their response to pathogenic signals in diseases such as Alzheimer's disease (AD) has long been recognised, but recent genetic findings have cemented their direct causal contribution to AD and thus the potential to target them or their effector pathways as a possible treatment strategy. Around 25% of the ~84 AD risk genes have enriched or exclusive expression in microglia and/or are linked to immune function*. Ongoing work suggests many of these genes connect within important microglial molecular networks as ligand activators (IL34), immune receptors (TREM2 , MS4A4A , HLA-DQA1 & CD33), signalling intermediates (PLCG2 , PTK2B & INPP5D) or effector mechanisms (ABI3 & EPHA1). In expand the knowledge of pathways and cell processes important to AD. It will also help direct efforts to develop suitable agonist or antagonist tool compounds for testing target tractability for therapeutic development and for establishing appropriate biomarkers to evaluate efficacy in AD. Ultimately, it should pave the way for developing treatments for AD and potentially other diseases where boosting or dampening key microglia pathways could significantly impact disease outcomes irrespective of genetic status.