Victoria Sofia Berenice Wies Mancini scite author profile

Multiple sclerosis (MS) is one of the most common causes of progressive disability affecting young people with very few therapeutic options available for its progressive forms. Its pathophysiology involves demyelination and neurodegeneration apparently driven by microglial activation, which is physiologically dependent on colony‐stimulating factor‐1 receptor (CSF‐1R) signaling. In the present work, we used microglial modulation through oral administration of brain‐penetrant CSF‐1R inhibitor BLZ945 in acute and chronic cuprizone (CPZ)‐induced demyelination to evaluate preventive and therapeutic effects on de/remyelination and neurodegeneration. Our results show that BLZ945 induced a significant reduction in the number of microglia. Preventive BLZ945 treatment attenuated demyelination in the acute CPZ model, mainly in cortex and external capsule. In contrast, BLZ945 treatment in the acute CPZ model failed to protect myelin or foster remyelination in myelin‐rich areas, which may respond to a loss in microglial phagocytic capacity and the consequent impairment in oligodendroglial differentiation. Preventive and therapeutic BLZ945 treatment promoted remyelination and neuroprotection in the chronic model. These results could be potentially transferred to the treatment of progressive forms of MS.

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Colony‐stimulating factor‐1 receptor inhibition attenuates microgliosis and myelin loss but exacerbates neurodegeneration in the chronic cuprizone model

Mancini

Pietro

Olmos

et al. 2022

Journal of Neurochemistry

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Multiple sclerosis (MS), especially in its progressive phase, involves early axonal and neuronal damage resulting from a combination of inflammatory mediators, demyelination, and loss of trophic support. During progressive disease stages, a microenvironment is created within the central nervous system (CNS) favoring the arrival and retention of inflammatory cells. Active demyelination and neurodegeneration have also been linked to microglia (MG) and astrocyte (AST)‐activation in early lesions. While reactive MG can damage tissue, exacerbate deleterious effects, and contribute to neurodegeneration, it should be noted that activated MG possess neuroprotective functions as well, including debris phagocytosis and growth factor secretion. The progressive form of MS can be modeled by the prolonged administration to cuprizone (CPZ) in adult mice, as CPZ induces highly reproducible demyelination of different brain regions through oligodendrocyte (OLG) apoptosis, accompanied by MG and AST activation and axonal damage. Therefore, our goal was to evaluate the effects of a reduction in microglial activation through orally administered brain‐penetrant colony‐stimulating factor‐1 receptor (CSF‐1R) inhibitor BLZ945 (BLZ) on neurodegeneration and its correlation with demyelination, astroglial activation, and behavior in a chronic CPZ‐induced demyelination model. Our results show that BLZ treatment successfully reduced the microglial population and myelin loss. However, no correlation was found between myelin preservation and neurodegeneration, as axonal degeneration was more prominent upon BLZ treatment. Concomitantly, BLZ failed to significantly offset CPZ‐induced astroglial activation and behavioral alterations. These results should be taken into account when proposing the modulation of microglial activation in the design of therapies relevant for demyelinating diseases. Cover Image for this issue: https://doi.org/10.1111/jnc.15394

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Victoria Sofia Berenice Wies Mancini

Microglial modulation through colony‐stimulating factor‐1 receptor inhibition attenuates demyelination

Colony‐stimulating factor‐1 receptor inhibition attenuates microgliosis and myelin loss but exacerbates neurodegeneration in the chronic cuprizone model

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