Glial Calcium Signalling in Alzheimer's Disease
Overview
Pharmacology
Physiology
Affiliations
The most accredited (and fashionable) hypothesis of the pathogenesis of Alzheimer Disease (AD) sees accumulation of β-amyloid protein in the brain (in both soluble and insoluble forms) as a leading mechanism of neurotoxicity. How β-amyloid triggers the neurodegenerative disorder is at present unclear, but growing evidence suggests that a deregulation of Ca(2+) homeostasis and deficient Ca(2+) signalling may represent a fundamental pathogenic factor. Given that symptoms of AD are most likely linked to synaptic dysfunction (at the early stages) followed by neuronal loss (at later and terminal phases of the disease), the effects of β-amyloid have been mainly studied in neurones. Yet, it must be acknowledged that neuroglial cells, including astrocytes, contribute to pathological progression of most (if not all) neurological diseases. Here, we review the literature pertaining to changes in Ca(2+) signalling in astrocytes exposed to exogenous β-amyloid or in astrocytes from transgenic Alzheimer disease animals models, characterized by endogenous β-amyloidosis. Accumulated experimental data indicate deregulation of Ca(2+) homeostasis and signalling in astrocytes in AD, which should be given full pathogenetic consideration. Further studies are warranted to comprehend the role of deficient astroglial Ca(2+) signalling in the disease progression.
Astrocyte-mediated neuronal irregularities and dynamics: the complexity of the tripartite synapse.
Garcia D, Jacquir S Biol Cybern. 2024; 118(5-6):249-266.
PMID: 39276225 DOI: 10.1007/s00422-024-00994-z.
Astrocytes in human central nervous system diseases: a frontier for new therapies.
Verkhratsky A, Butt A, Li B, Illes P, Zorec R, Semyanov A Signal Transduct Target Ther. 2023; 8(1):396.
PMID: 37828019 PMC: 10570367. DOI: 10.1038/s41392-023-01628-9.
Intracellular Ca signalling: unexpected new roles for the usual suspect.
Moccia F, Fiorio Pla A, Lim D, Lodola F, Gerbino A Front Physiol. 2023; 14:1210085.
PMID: 37576340 PMC: 10413985. DOI: 10.3389/fphys.2023.1210085.
Gerasimov E, Bezprozvanny I, Vlasova O Int J Mol Sci. 2023; 24(12).
PMID: 37373117 PMC: 10298315. DOI: 10.3390/ijms24129969.
Alzheimer's disease is an inherent, natural part of human brain aging: an integrated perspective.
Ferrer I Free Neuropathol. 2023; 3.
PMID: 37284149 PMC: 10209894. DOI: 10.17879/freeneuropathology-2022-3806.