AI Article Synopsis
- - Declining blood flow in the brain can lead to chronic hypoperfusion, which may result in neurodegenerative disorders like vascular dementia, as it disrupts the brain's energy supply and mitochondrial functions.
- - Researchers performed stepwise bilateral common carotid occlusions on rats to study long-term changes in mitochondrial proteins, membranes, and cerebrospinal fluid, using advanced proteomic analyses.
- - They identified significant changes in proteins across mitochondria, membranes, and cerebrospinal fluid, primarily linked to protein turnover, indicating that hypoperfusion can alter brain protein processes that are detectable in CSF.
Article Abstract
Declining cerebral blood flow leads to chronic cerebral hypoperfusion which can induce neurodegenerative disorders, such as vascular dementia. The reduced energy supply of the brain impairs mitochondrial functions that could trigger further damaging cellular processes. We carried out stepwise bilateral common carotid occlusions on rats and investigated long-term mitochondrial, mitochondria-associated membrane (MAM), and cerebrospinal fluid (CSF) proteome changes. Samples were studied by gel-based and mass spectrometry-based proteomic analyses. We found 19, 35, and 12 significantly altered proteins in the mitochondria, MAM, and CSF, respectively. Most of the changed proteins were involved in protein turnover and import in all three sample types. We confirmed decreased levels of proteins involved in protein folding and amino acid catabolism, such as P4hb and Hibadh in the mitochondria by western blot. We detected reduced levels of several components of protein synthesis and degradation in the CSF as well as in the subcellular fractions, implying that hypoperfusion-induced altered protein turnover of brain tissue can be detected in the CSF by proteomic analysis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10122630 | PMC |
| http://dx.doi.org/10.1007/s12035-023-03215-z | DOI Listing |
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