Camille Corbier scite author profile

An intronic expansion of GGGGCC repeats within the C9ORF72 gene is the most common genetic cause of amyotrophic lateral sclerosis and frontotemporal dementia (ALS-FTD). Ataxin-2 with intermediate length of polyglutamine expansions (Ataxin-2 Q30x) is a genetic modifier of the disease. Here, we found that C9ORF72 forms a complex with the WDR41 and SMCR8 proteins to act as a GDP/GTP exchange factor for RAB8a and RAB39b and to thereby control autophagic flux. Depletion of C9orf72 in neurons partly impairs autophagy and leads to accumulation of aggregates of TDP-43 and P62 proteins, which are histopathological hallmarks of ALS-FTD. SMCR8 is phosphorylated by TBK1 and depletion of TBK1 can be rescued by phosphomimetic mutants of SMCR8 or by constitutively active RAB39b, suggesting that TBK1, SMCR8, C9ORF72, and RAB39b belong to a common pathway regulating autophagy. While depletion of C9ORF72 only has a partial deleterious effect on neuron survival, it synergizes with Ataxin-2 Q30x toxicity to induce motor neuron dysfunction and neuronal cell death. These results indicate that partial loss of function of C9ORF72 is not deleterious by itself but synergizes with Ataxin-2 toxicity, suggesting a double-hit pathological mechanism in ALS-FTD.

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C9ORF72 is a GDP/GTP exchange factor for Rab8 and Rab39 and regulates autophagy

Corbier

Sellier

2016

Small GTPases

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Amyotrophic Lateral Sclerosis and Frontotemporal Dementia (ALS-FTD) are devastating neurodegenerative disease affecting motoneurons from the spinal chord and neurons from the frontal and temporal cortex, respectively. The most common genetic cause for ALS-FTD is an expansion of GGGGCC repeats within the first intron of the C9ORF72 gene. However, little is known on the function of C9ORF72. Recently, other and we found that C9ORF72 forms a stable complex with the SMCR8 and WDR41 proteins. This complex acts as a GDP/GTP exchange factor for the small RAB GTPases Rab8a and Rab39b. Since Rab8 and Rab39 are involved in macroautophagy, we tested the role of C9ORF72 in this mechanism. Decrease expression of C9ORF72 in neuronal cultures leads to autophagy dysfunction characterized by accumulation of aggregates of p62/SQSTM1. However, loss of C9ORF72 expression does not cause major neuronal cell death, suggesting that a second stress may be required to promote cell toxicity. Intermediate size of polyglutamine repeats within Ataxin-2 (ATXN2) is an important genetic modifier of ALS-FTD. We found that decrease expression of C9ORF72 synergizes the toxicity and aggregation of ATXN2 with intermediate size of polyglutamine (30Q). Overall, our data suggest that reduce expression of C9ORF72 causes suboptimal autophagy that sensitizes neurons to a second stress. These data suggest that reduce expression of C9ORF72 may partly contribute to ALS-FTD pathogenesis.

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Camille Corbier

Loss of C9 ORF 72 impairs autophagy and synergizes with polyQ Ataxin‐2 to induce motor neuron dysfunction and cell death

C9ORF72 is a GDP/GTP exchange factor for Rab8 and Rab39 and regulates autophagy

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