Aging induces substantial remodeling of glia, including density, morphology, cytokine expression, and phagocytic capacity. Alterations of glial cells, such as hypertrophy of lysosomes, endosomes and peroxisomes, and the progressive accumulation of lipofuscin, lipid droplets, and other debris have also been reported. These abnormalities have been associated with significant declines of microglial processes and reduced ability to survey the surrounding tissue, maintain synapses, and recover from injury. Similarly, aged astrocytes show reduced capacity to support metabolite transportation to neurons. In the setting of reduced glial activity, stressors and/or injury signals can trigger a coordinated action of microglia and astrocytes that may amplify neuroinflammation and contribute to the release of neurotoxic factors. Oxidative stress and proteotoxic aggregates may burst astrocyte-mediated secretion of pro-inflammatory cytokines, thus activating microglia, favoring microgliosis, and ultimately making the brain more susceptible to injury and/or neurodegeneration. Here, we discuss the contribution of microglia and astrocyte oxidative stress to neuroinflammation and neurodegeneration, highlight the pathways that may help gain insights into their molecular mechanisms, and describe the benefits of antioxidant supplementation-based strategies.

Age-associated glia remodeling and mitochondrial dysfunction in neurodegeneration : antioxidant supplementation as a possible intervention / A. Picca, E. Ferri, R. Calvani, H.J. Coelho-Junior, E. Marzetti, B. Arosio. - In: NUTRIENTS. - ISSN 2072-6643. - 14:12(2022 Jun 09), pp. 2406.1-2406.16. [10.3390/nu14122406]

Age-associated glia remodeling and mitochondrial dysfunction in neurodegeneration : antioxidant supplementation as a possible intervention

B. Arosio
Ultimo
2022

Abstract

Aging induces substantial remodeling of glia, including density, morphology, cytokine expression, and phagocytic capacity. Alterations of glial cells, such as hypertrophy of lysosomes, endosomes and peroxisomes, and the progressive accumulation of lipofuscin, lipid droplets, and other debris have also been reported. These abnormalities have been associated with significant declines of microglial processes and reduced ability to survey the surrounding tissue, maintain synapses, and recover from injury. Similarly, aged astrocytes show reduced capacity to support metabolite transportation to neurons. In the setting of reduced glial activity, stressors and/or injury signals can trigger a coordinated action of microglia and astrocytes that may amplify neuroinflammation and contribute to the release of neurotoxic factors. Oxidative stress and proteotoxic aggregates may burst astrocyte-mediated secretion of pro-inflammatory cytokines, thus activating microglia, favoring microgliosis, and ultimately making the brain more susceptible to injury and/or neurodegeneration. Here, we discuss the contribution of microglia and astrocyte oxidative stress to neuroinflammation and neurodegeneration, highlight the pathways that may help gain insights into their molecular mechanisms, and describe the benefits of antioxidant supplementation-based strategies.
astrocytes; extracellular vesicles; inflammation; microglia; mitochondrial quality; mitophagy; neurodegenerative diseases; oxidative stress; polyphenols; vitamins; aged; cytokines; dietary supplements; humans; mitochondria; antioxidants; neuroglia
Settore BIO/12 - Biochimica Clinica e Biologia Molecolare Clinica
Settore BIO/13 - Biologia Applicata
Settore MED/09 - Medicina Interna
9-giu-2022
Article (author)
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/949419
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