2020
DOI: 10.1101/2020.08.05.237420
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Astrocytes dystrophy in ageing brain parallels impaired synaptic plasticity

Abstract: Little is known about age-dependent changes in structure and function of astrocytes and of the impact of these into the cognitive decline in the senescent brain. The prevalent view on age-dependent increase in reactive astrogliosis and astrocytic hypertrophy requires scrutiny and detailed analysis. Using two-photon microscopy in conjunction with 3D reconstruction, Sholl and volume fraction analysis we demonstrate a significant reduction in the number and the length of astrocytic processes, in astrocytic territ… Show more

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Cited by 10 publications
(13 citation statements)
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“…In conclusion, there are multiple indications that astrocyte homeostatic functions are altered in the aged human brain, which is in corroboration with rodent studies [74][75][76]. These homeostatic changes could go hand in hand with an increase in the inflammatory function of astrocytes, which is discussed below.…”
Section: Blood-brain-barrier Regulationsupporting
confidence: 71%
“…In conclusion, there are multiple indications that astrocyte homeostatic functions are altered in the aged human brain, which is in corroboration with rodent studies [74][75][76]. These homeostatic changes could go hand in hand with an increase in the inflammatory function of astrocytes, which is discussed below.…”
Section: Blood-brain-barrier Regulationsupporting
confidence: 71%
“…Finally, the morphology of astrocytes in brain slices from mice of different ages (3, 9 and 24 months) was visualised using intercellular perfusion with low molecular weight fluorescent probe Alexa Fluor 594 [152]. This fluorescent probe diffuses through the cytosol and penetrates in the most distant parts of the cell labelling even tiny perisynaptic processes.…”
Section: Morphology Of Astrocytes In the Old Brainmentioning
confidence: 99%
“…This approach presumes that fluorescence measured from the soma reflects 100% of astrocyte space occupancy, whereas the fluorescence of unresolved area is proportional to the volume fraction of optically irresolvable astrocyte processes in any given area [114]. It turned out that the volume fraction occupied by peripheral processes diminishes with age, thus indicating decreased astroglial synaptic coverage in the old brain [152]. Astroglial peripheral processes are one of the main contributors to the neuropil [194], and their shrinkage is associated with an increase in diffusion channels and hence to an increase in mean diffusivity of the grey matter (Fig.…”
Section: Morphology Of Astrocytes In the Old Brainmentioning
confidence: 99%
“…Astrocytes in aged mice also mirror aged microglia in that they undergo region-specific morphological changes, demonstrating variable changes in cell complexity, a reduced domain size with short, stubby processes, and decreased astrocyte coupling through gap junctions (Rodríguez et al, 2014;Jyothi et al, 2015;Bondi et al, 2021;Popov et al, 2021). Age-dependent morphological changes were also concomitant with deficiencies in astrocytic physiology, specifically in potassium buffering and glutamate clearance, which impaired synaptic plasticity and hippocampal long-term potentiation (Popov et al, 2021). Taken together, these findings suggest that changes in microglia and astrocyte function due to aging may alter outcomes following brain injury or impact age-associated disease progression, though this continues to be a topic of debate.…”
Section: Modulation Of Microglia and Astrocyte Function In Agingmentioning
confidence: 99%
“…Similar to microglia, cultured astrocytes isolated from aged mice display an increase in mitochondrial activity, which limits the substrate supply from astrocytes to neurons and can contribute to age-related cognitive decline (Jiang and Cadenas, 2014). Astrocytes in aged mice also mirror aged microglia in that they undergo region-specific morphological changes, demonstrating variable changes in cell complexity, a reduced domain size with short, stubby processes, and decreased astrocyte coupling through gap junctions (Rodríguez et al, 2014;Jyothi et al, 2015;Bondi et al, 2021;Popov et al, 2021). Age-dependent morphological changes were also concomitant with deficiencies in astrocytic physiology, specifically in potassium buffering and glutamate clearance, which impaired synaptic plasticity and hippocampal long-term potentiation (Popov et al, 2021).…”
Section: Modulation Of Microglia and Astrocyte Function In Agingmentioning
confidence: 99%