NLRX1, the mitochondrial NOD-like receptor (NLR), modulates apoptosis in response to both intrinsic and extrinsic cues. Insights into the mechanism of how NLRX1 influences apoptosis remain to be determined. Here, we demonstrate that NLRX1 associates with SARM1, a protein with a toll/interleukin-1 receptor (TIR)-containing domain also found in adaptor proteins downstream of toll-like receptors, such as MyD88. While a direct role of SARM1 in innate immunity is unclear, the protein plays essential roles in Wallerian degeneration (WD), a type of neuronal catabolism occurring following axonal severing or damage. In non-neuronal cells, we found that endogenous SARM1 was equally distributed in the cytosol and the mitochondrial matrix, where association with NLRX1 occurred. In these cells, the apoptotic role of NLRX1 was fully dependent on SARM1, indicating that SARM1 was downstream of NLRX1 in apoptosis regulation. In primary murine neurons, however, Wallerian degeneration induced by vinblastine or NGF deprivation occurred in SARM1- yet NLRX1-independent manner, suggesting that WD requires the cytosolic pool of SARM1 or that NLRX1 levels in neurons are too low to contribute to WD regulation. Together, these results shed new light into the mechanisms through which NLRX1 controls apoptosis and provides evidence of a new link between NLR and TIR-containing proteins.
Objective Suggested C9orf72 disease mechanisms for amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration include C9orf72 haploinsufficiency, G 4 C 2 /C 4 G 2 RNA foci, and dipeptide repeat (DPR) proteins translated from the G 4 C 2 expansion; however, the role of small expansions (e.g., 30-90 repeats) is unknown and was investigated here. MethodsWe conducted a molecular and pathology study of a family in which the father (unaffected at age 90) carried a 70-repeat allele in blood DNA that expanded to ≈1,750 repeats in his children, causing ALS. ResultsSouthern blotting revealed different degrees of mosaicism of small and large expansions in the father's tissues from the CNS. Surprisingly, in each mosaic tissue, C9orf72 mRNA levels were significantly increased compared to an ALS-affected daughter with a large expansion. Increased expression correlated with higher levels of the 70-repeat allele (the upregulation was also evident at the protein level). Remarkably, RNA foci and DPR burdens were similar or even significantly increased (in cerebellum) in the unaffected father compared to the daughter with ALS. However, the father did not display TDP-43 pathology and signs of neurodegeneration. ConclusionThe presence of RNA foci and DPR pathology was insufficient for disease manifestation and TDP-43 pathology in the mosaic C9orf72 carrier with upregulated C9orf72 expression. It is important to conduct an investigation of similar cases, which could be found among unaffected parents of sporadic C9orf72 patients (e.g., 21% among Finnish patients with ALS). Caution should be taken when consulting carriers of small expansions because disease manifestation could be dependent on the extent of the somatic instability in disease-relevant tissues.
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