AI Article Synopsis
- Scientists found that a drug called AZD5438 can help protect mitochondria, which are like power stations in our cells, from damage caused by another substance called CCCP.
- They discovered that AZD5438 was better at keeping these power stations healthy compared to other similar drugs.
- Tests on brain cells showed that AZD5438 not only kept the cells alive but also helped them work better, making it a promising option for future treatments.
Article Abstract
We previously reported that kenpaullone, which inhibits GSK-3a/b and CDKs inhibited CCCP mediated mitochondrial depolarisation and augments the mitochondrial network. To investigate the actions of this class of drug further, we compared the ability of kenpaullone, alsterpaullone, 1-azakenapaullone, AZD5438, AT7519 (CDK and GSK-3a/b inhibitors) and dexpramipexole and olesoxime (mitochondrial permeability transition pore inhibitors) to prevent CCCP mediated mitochondrial depolarisation and found that AZD5438 and AT7519, were the most effective. Furthermore, treatment with AZD5438 alone increased the complexity of the mitochondrial network. We also found that AZD5438 prevented the rotenone induced decrease in PGC-1alpha and TOM20 levels and that it mediated powerful anti-apoptotic effects and promoted glycolytic respiration. Importantly, experiments in human iPSC derived cortical and midbrain neurons showed AZD5438 mediated significant protective effects, preventing the neuronal cell death, and collapse in the neurite and mitochondrial network associated with rotenone treatment. These results suggest drugs that target GSK-3a/b and CDKs should be developed and assessed further as they may have significant therapeutic potential.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10205901 | PMC |
| http://dx.doi.org/10.1038/s41598-023-35480-2 | DOI Listing |
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