AI Article Synopsis
- DNA sequence variants in the TBK1 gene are linked to sporadic and familial cases of ALS, but mice with specific TBK1 mutations don’t show typical neurodegenerative symptoms.
- Loss of TBK1 function in motor neurons leads to impaired autophagy and quicker disease onset in SOD1 ALS model mice, though it doesn’t change their lifespan.
- Point mutations reducing TBK1 activity in all cells also speed up disease onset but unexpectedly extend the lifespan, indicating that TBK1 plays different roles in ALS progression depending on the cell type involved.
Article Abstract
DNA sequence variants in the TBK1 gene associate with or cause sporadic or familial amyotrophic lateral sclerosis (ALS). Here we show that mice bearing human ALS-associated TBK1 missense loss-of-function mutations, or mice in which the Tbk1 gene is selectively deleted in motor neurons, do not display a neurodegenerative disease phenotype. However, loss of TBK1 function in motor neurons of the SOD1 mouse model of ALS impairs autophagy, increases SOD1 aggregation, and accelerates early disease onset without affecting lifespan. By contrast, point mutations that decrease TBK1 kinase activity in all cells also accelerate disease onset but extend the lifespan of SOD1 mice. This difference correlates with the failure to activate high levels of expression of interferon-inducible genes in glia. We conclude that loss of TBK1 kinase activity impacts ALS disease progression through distinct pathways in different spinal cord cell types and further implicate the importance of glia in neurodegeneration.
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| http://dx.doi.org/10.1016/j.neuron.2020.03.005 | DOI Listing |
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