Researchers have discovered a relationship between the progression of amyotrophic lateral sclerosis (ALS), also known as Lou Gehrig's disease, and the disruption of mitochondria-associated membranes (MAM), the contact point between the mitochondria and the endoplasmic reticulum (ER) of the cell. This discovery, published in the Proceedings of the National Academy of Sciences, provides important information about the mechanisms behind this neurodegenerative condition.
ALS is a complex disease that affects motor neurons. Previous studies have found that mitochondria, the energy-generating cells of the body, and the ER, a complex membrane network that serves protein synthesis, metabolism, and calcium storage, are involved. The MAM is where the ER interfaces with mitochondria. Although both mitochondria and ER abnormality, especially at the MAM, play a role in the progression of the disease, it is not clear how.
One possible agent is TANK-binding kinase 1 (TBK1), an enzyme that plays a crucial role in various biological processes, including inflammation and clearing damaged proteins from cells. Its disruption is important in the development of many diseases. Although mutations in the TBK1 gene cause ALS, it is not clear how TBK1 malfunctions lead to its development.
The team discovered that brain and spinal cord tissues in ALS patients as well as mice with a disrupted MAM showed decreased activation of TBK1.
The first author of the study, explained: "TBK1 is crucial for stress response in motor neurons. If we reduce its activity, it will result in reduced tolerance to stressors, leading to neurotoxicity and eventual motor neuron death. This finding is particularly significant because abnormal protein accumulation and the resulting stress cause ALS and other neurodegenerative diseases."
When MAM is disrupted in ALS, TBK1 activity decreases. When the researchers administered arsenite, an agent that lowers TBK1 activity and disrupts MAM, to mice, they found that the mice exhibited motor problems similar to ALS.
The author added, "Our study strongly suggests that MAM significantly influences the stress response of motor neurons through TBK1 activation. Our study is consistent with human genetic studies that reported that TBK1 mutations cause ALS. Restoring TBK1 activity emerges as a potential therapeutic strategy to counter ALS, marking a promising direction for future research endeavors."
By focusing on the TBK1 pathway, the researchers have found a critical foundation for developing new ways to treat ALS and possibly other brain disorders. “We expect these results to lead to the development of new therapeutic strategies for ALS in the future,” said the author. “In future projects, restoring the TBK1 activity (or function) may be a therapeutic strategy to treat ALS.”
https://www.pnas.org/doi/10.1073/pnas.2315347120
http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2Fmitochondria-associated_2&filter=22
Mitochondria-ER disruption and loss of proteostatic stress response in ALS
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