Microglia regulate central nervous system myelin growth and integrity.
Niamh B McNamaraDavid A D MunroNadine Bestard-CucheAkiko UyedaJeroen F J BogieAlana HoffmannRebecca K HollowayIrene Molina-GonzalezKatharine E AskewStephen MitchellWilliam MungallMichael DoddsCarsten DittmayerJonathan MossJamie RoseStefan SzymkowiakLukas AmannBarry W McCollMarco PrinzTara L Spires-JonesWerner StenzelKaren HorsburghJerome J A HendriksClare PridansRieko MuramatsuAnna C WilliamsJosef PrillerVeronique E MironPublished in: Nature (2022)
Myelin is required for the function of neuronal axons in the central nervous system, but the mechanisms that support myelin health are unclear. Although macrophages in the central nervous system have been implicated in myelin health 1 , it is unknown which macrophage populations are involved and which aspects they influence. Here we show that resident microglia are crucial for the maintenance of myelin health in adulthood in both mice and humans. We demonstrate that microglia are dispensable for developmental myelin ensheathment. However, they are required for subsequent regulation of myelin growth and associated cognitive function, and for preservation of myelin integrity by preventing its degeneration. We show that loss of myelin health due to the absence of microglia is associated with the appearance of a myelinating oligodendrocyte state with altered lipid metabolism. Moreover, this mechanism is regulated through disruption of the TGFβ1-TGFβR1 axis. Our findings highlight microglia as promising therapeutic targets for conditions in which myelin growth and integrity are dysregulated, such as in ageing and neurodegenerative disease 2,3 .
Keyphrases
- white matter
- healthcare
- public health
- inflammatory response
- mental health
- neuropathic pain
- health information
- transforming growth factor
- type diabetes
- depressive symptoms
- cerebrospinal fluid
- adipose tissue
- patient safety
- risk assessment
- transcription factor
- spinal cord
- social media
- epithelial mesenchymal transition
- brain injury
- insulin resistance
- human health
- quality improvement
- blood brain barrier
- wild type