Whole-genome sequencing reveals important role for TBK1 and OPTN mutations in frontotemporal lobar degeneration without motor neuron disease

Pottier, Cyril; Bieniek, Kevin F.; Finch, Ni Cole A.; Vorst, Maartje van de; Baker, Matthew B.; Perkersen, Ralph; Brown, Patricia E.; Ravenscroft, Thomas A.; Blitterswijk, Marka van; Nicholson, Alexandra M.; DeTure, Michael; Knopman, David S.; Josephs, Keith A.; Parisi, Joseph E.; Petersen, Ronald C.; Boylan, Kevin B.; Boeve, Bradley F.; Graff‐Radford, Neill R.; Veltman, Joris A.; Gilissen, Christian; Murray, Melissa E.; Dickson, Dennis W.; Rademakers, Rosa

doi:10.1007/s00401-015-1436-x

Cited by 280 publications

(264 citation statements)

References 63 publications

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“…Another study linked loss-of-function TBK1 mutations to both ALS and FTD (21). Finally, mutations in both TBK1 and OPTN are causal for both ALS and glaucoma (20,31). In this study, we observed that the ALS-associated mutants TBK1-E696K, OPTN-E478G, and OPTN-Q398X all interfere with efficient autophagic engulfment of damaged mitochondria.…”

Section: Discussionmentioning

confidence: 50%

“…Thus, the rate at which acutely damaged mitochondria are engulfed by autophagosomes may potently affect cellular homeostasis, with delays leading to toxic cellular insult. Consistent with this possibility, mutations in OPTN cause neurodegeneration, including both ALS and glaucoma, whereas TBK1 mutations also result in ALS and are implicated in frontotemporal dementia (FTD) (17)(18)(19)(20)(21)(22).…”

Section: Significancementioning

confidence: 76%

“…In the past several years, multiple mutations in both OPTN and TBK1 have been identified in patients with ALS and FTD (17)(18)(19)(20)(21)(22). We therefore examined whether these disease-associated mutations interfere with efficient mitophagy.…”

Section: Als-associated Optn and Tbk1 Mutants Interfere With Mitophagmentioning

confidence: 99%

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Dynamic recruitment and activation of ALS-associated TBK1 with its target optineurin are required for efficient mitophagy

Moore

Holzbaur

2016

Proc. Natl. Acad. Sci. U.S.A.

290

266

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Mitochondria play an essential role in maintaining cellular homeostasis. The removal of damaged or depolarized mitochondria occurs via mitophagy, in which damaged mitochondria are targeted for degradation via ubiquitination induced by PTEN-induced putative kinase 1 (PINK1) and Parkin. Mitophagy receptors, including optineurin (OPTN), nuclear dot 52 kDa protein (NDP52), and Tax1-binding protein 1 (TAX1BP1), are recruited to mitochondria via ubiquitin binding and mediate autophagic engulfment through their association with microtubule-associated protein light chain 3 (LC3). Here, we use livecell imaging to demonstrate that OPTN, NDP52, and TAX1BP1 are recruited to mitochondria with similar kinetics following either mitochondrial depolarization or localized generation of reactive oxygen species, leading to sequestration by the autophagosome within ∼45 min after insult. Despite this corecruitment, we find that depletion of OPTN, but not NDP52, significantly slows the efficiency of sequestration. OPTN is phosphorylated by the kinase TANK-binding kinase 1 (TBK1) at serine 177; we find that TBK1 is corecruited with OPTN to depolarized mitochondria. Inhibition or depletion of TBK1, or expression of amyotrophic lateral sclerosis (ALS)-associated OPTN or TBK1 mutant blocks efficient autophagosome formation. Together, these results indicate that although there is some functional redundancy among mitophagy receptors, efficient sequestration of damaged mitochondria in response to mitochondrial stress requires both TBK1 and OPTN. Notably, ALSlinked mutations in OPTN and TBK1 can interfere with mitophagy, suggesting that inefficient turnover of damaged mitochondria may represent a key pathophysiological mechanism contributing to neurodegenerative disease.itochondria form interconnected networks that continuously remodel in response to shifting cellular needs (1). These dynamic networks serve as hubs for diverse cellular functions, including aerobic metabolism, calcium homeostasis (2), and redox signaling (3). Several key mitochondrial functions rely on the potential across the mitochondrial inner membrane. Loss of membrane potential is associated with mitochondrial fragmentation and impaired trafficking (4), and can potentially activate cell death pathways (5). To safeguard against these deleterious outcomes, eukaryotic cells have developed quality control mechanisms to monitor the membrane potential of resident mitochondria and selectively eliminate depolarized organelles through mitophagy.In mitophagy, damaged mitochondria are recognized and then sequestered by a double-membrane autophagosome, leading to selective degradation. Regulation of this process involves the ubiquitin kinase PTEN-induced putative kinase 1 (PINK1) (6) and the E3-ubiquitin ligase Parkin (7). Specifically, PINK1 accumulates on the surface of depolarized mitochondria, where it phosphorylates ubiquitin on local outer membrane proteins, resulting in the recruitment of Parkin (7-11). Parkin, in turn, modifies additional mitochondrial outer membrane proteins...

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Section: Discussionmentioning

confidence: 50%

Section: Significancementioning

confidence: 76%

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Dynamic recruitment and activation of ALS-associated TBK1 with its target optineurin are required for efficient mitophagy

Moore

Holzbaur

2016

Proc. Natl. Acad. Sci. U.S.A.

290

266

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“…Interestingly, in a small cohort of patients with the rare combination of MS and ALS, approximately 80% carried a hexanucleotide repeat expansion in C9orf72 (128), suggesting these patients may have hyperactive immune responses to myelin antigens. Likewise, the recent identification of loss-of-function mutations in TBK1, a well-characterized regulator of innate immunity, as a cause of ALS/FTD (18,129,130) further reinforces the concept that immune dysregulation might be a characteristic feature of the disease. Despite the strong case for a connection between ALS/FTD and autoimmunity, there is also convincing evidence against the idea that ALS is itself a classical autoimmune condition, given that administration of immunosuppressive drugs including corticosteroids, azathioprine, and cyclophosphamide (alone or in combination), as well as plasmapheresis or intravenous Igs (IVIGs), has failed to alter the progression of the disease (131)(132)(133)(134)(135)(136)(137).…”

Section: R E V I E W S E R I E S : G L I a A N D N E U R O D E G E Nmentioning

confidence: 76%

Microglia and C9orf72 in neuroinflammation and ALS and frontotemporal dementia

Lall¹,

Baloh²

2017

Journal of Clinical Investigation

143

102

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Genetic connections between microglia and neurodegenerationMicroglia are the main cells in the CNS responsible for immune surveillance and are critical for normal development and homeostasis (34)(35)(36). Under steady-state conditions, "ramified" microglia continuously survey the local microenvironment for any foreign antigens and insults. The resident microglia are Amyotrophic lateral sclerosis (ALS) is a degenerative disorder that is characterized by loss of motor neurons and shows clinical, pathological, and genetic overlap with frontotemporal dementia (FTD). Activated microglia are a universal feature of ALS/FTD pathology; however, their role in disease pathogenesis remains incompletely understood. The recent discovery that ORF 72 on chromosome 9 (C9orf72), the gene most commonly mutated in ALS/FTD, has an important role in myeloid cells opened the possibility that altered microglial function plays an active role in disease. This Review highlights the contribution of microglia to ALS/FTD pathogenesis, discusses the connection between autoimmunity and ALS/FTD, and explores the possibility that C9orf72 and other ALS/FTD genes may have a "dual effect" on both neuronal and myeloid cell function that could explain a shared propensity for altered systemic immunity and neurodegeneration.

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“…33 Another study suggested an additional more complex mode of inheritance for OPTN in neurodegenerative disease: a compound heterozygosity either within OPTN or together with the TBK1 gene. 34 We showed for the first time that OPTN 691_692insAG mutation is associated with AR ALS. In addition, the remarkable differences in frequencies of mutation carriage between MJ-ALS and MJ controls, and the replication of these results in AJ, with significantly increased risk for ALS in heterozygous carriers, strongly suggest that this mutation also has a dominant effect on ALS in the same populations.…”

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confidence: 80%

OPTN 691_692insAG is a founder mutation causing recessive ALS and increased risk in heterozygotes

et al. 2016

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Objective: To detect genetic variants underlying familial and sporadic amyotrophic lateral sclerosis (ALS). Methods:We analyzed 2 founder Jewish populations of Moroccan and Ashkenazi origins and ethnic matched controls. Exome sequencing of 2 sisters with ALS from Morocco was followed by genotyping the identified causative null mutation in 379 unrelated patients with ALS and 1,000 controls. The shared risk haplotype was characterized using whole-genome single nucleotide polymorphism array.Results: We identified 5 unrelated patients with ALS homozygous for the null 691_692insAG mutation in the optineurin gene (OPTN), accounting for 5.8% of ALS of Moroccan origin and 0.3% of Ashkenazi. We also identified a high frequency of heterozygous carriers among patients with ALS, 8.7% and 2.9%, respectively, compared to 0.75% and 1.0% in controls. The risk of carriers for ALS was significantly increased, with odds ratio of 13.46 and 2.97 in Moroccan and Ashkenazi Jews, respectively. We determined that 691_692insAG is a founder mutation in the tested populations with a minimal risk haplotype of 58.5 Kb, encompassing the entire OPTN gene.Conclusions: Our data show that OPTN 691_692insAG mutation is a founder mutation in Moroccan and Ashkenazi Jews. This mutation causes autosomal recessive ALS and significantly increases the risk to develop the disease in heterozygous carriers, suggesting both a recessive mode of inheritance and a dominant with incomplete penetrance. These data emphasize the important role of OPTN in ALS pathogenesis, and demonstrate the complex genetics of ALS, as the same mutation leads to different phenotypes and appears in 2 patterns of inheritance. Amyotrophic lateral sclerosis (ALS) is a complex and heterogeneous neurodegenerative disease, characterized by loss of upper and lower motor neurons, affecting individuals worldwide, with a global incidence of 2-3 people per 100,000 per year.1 The disease leads to respiratory failure and death within 1-5 years after symptom onset. Up to 50% of patients may also have symptoms of cognitive impairment, and about 13% develop symptoms of frontotemporal dementia (FTD). 2,3In the last decade, there has been an exponential increase in the discovery of genes and mutations associated with familial ALS (fALS) and sporadic ALS (sALS), some with biological function evidence for causality. Mutations in C9ORF72, SOD1, TDP-43, and FUS account for the majority of fALS, and although the etiology of most sALS is unknown, about 10% are caused by mutations in genes associated with ALS.

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Whole-genome sequencing reveals important role for TBK1 and OPTN mutations in frontotemporal lobar degeneration without motor neuron disease

Cited by 280 publications

References 63 publications

Dynamic recruitment and activation of ALS-associated TBK1 with its target optineurin are required for efficient mitophagy

Dynamic recruitment and activation of ALS-associated TBK1 with its target optineurin are required for efficient mitophagy

Microglia and C9orf72 in neuroinflammation and ALS and frontotemporal dementia

OPTN 691_692insAG is a founder mutation causing recessive ALS and increased risk in heterozygotes

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