Answer ALS: A Large-Scale Resource for Sporadic and Familial ALS Combining Clinical Data with Multi-Omics Data from Induced Pluripotent Cell Lines

Rothstein, Jeffrey D.; Berry, James; Svendsen, Clive N.; Thompson, Leslie M.; Finkbeiner, Steve; Eyk, Jennifer E. Van; Fraenkel, Ernest; Cudkowicz, Merit; Maragakis, Nicholas J.; Sareen, Dhruv; Norel, Raquel; Dardov, Victoria; Coyne, Alyssa N.; Frank, Aaron; Matlock, Andrea; Pandey, Rakhi; Vineet, Vibhav; Lima, Leandro; Wu, Jie; Ramamoorthy, Divya; Lim, Ryan G.; Kaye, Julia; Li, Jonathan; Thompson, Terri G.; Baxi, Emily G.; Als, Answer

doi:10.21203/rs.3.rs-96858/v1

Cited by 5 publications

(8 citation statements)

References 48 publications

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“…We next extended our search for putative ALS-associated SARM1 GoF alleles to the Answer ALS project database consisting of WGS data for 706 ALS patients and 92 matched controls (Rothstein, 2020). Some of the Project MinE DF1 variants were independently found in this new, non-overlapping dataset, including one occurrence of the strong NADase GoF Δ229-235 SARM1 allele in a patient, but we also found three new patient-associated alleles and one new control-associated allele encoding changes within the ARM domain or just N-terminal to it (encompassing amino acids 29-397) (Figure 1 and Table 2).…”

Section: Resultsmentioning

confidence: 99%

“…Having thus identified a total of eight different SARM1 alleles encoding SARM1 variants with confirmed or probable NADase GoF, we next asked whether any of these alleles were specifically seen in patients in two other independent motor nerve disorder databases, the Answer ALS project database (Rothstein, 2020) and the GENESIS database (Gonzalez et al, 2015). We found four further occurrences of patients heterozygous for the D226-232 or R267W SARM1 alleles in these databases, three of them ALS patients (two D226-232 and one R267W) and the other an HSP patient (D226-232) (Table 1).…”

Section: Identification Of An Additional Sarm1 Gof Allele and Patient Association Of Sarm1 Gof Alleles In Other Databasesmentioning

confidence: 99%

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Enrichment of SARM1 alleles encoding variants with constitutively hyperactive NADase in patients with ALS and other motor nerve disorders

Gilley

Jackson

Pipis

et al. 2021

Preprint

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SARM1, a protein with critical NADase activity, is a central executioner in a conserved programme of axon degeneration. We describe eight rare missense or in-frame microdeletion human SARM1 variant alleles, in patients with amyotrophic lateral sclerosis (ALS), hereditary spastic paraparesis (HSP), or other motor nerve disorders, that alter the SARM1 auto-inhibitory ARM domain and constitutively hyperactivate SARM1 NADase activity. The constitutive NADase activities of six of the variants are at least as high as that of SARM1 lacking the entire ARM domain and greatly exceed the basal activity of wild-type SARM1, even in the presence of nicotinamide mononucleotide (NMN), its physiological activator. This rise in constitutive activity alone is enough to promote neuronal degeneration in response to otherwise non-harmful mild stress. Importantly, we provide evidence that these gain-of-function alleles are enriched in ALS and HSP patients compared to matched individuals without these conditions within ALS and other motor nerve disorder databases. Together, these data suggest these are risk alleles for ALS and other motor nerve disorders. The broad phenotypic heterogeneity and variable age-of-onset in patients with these alleles raises intriguing questions about the pathogenic mechanism of hyperactive SARM1 variants.

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Section: Resultsmentioning

confidence: 99%

Section: Identification Of An Additional Sarm1 Gof Allele and Patient Association Of Sarm1 Gof Alleles In Other Databasesmentioning

confidence: 99%

Enrichment of SARM1 alleles encoding variants with constitutively hyperactive NADase in patients with ALS and other motor nerve disorders

Gilley

Jackson

Pipis

et al. 2021

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…We next extended our search for putative ALS-associated SARM1 GoF alleles to the Answer ALS project database consisting of WGS data for 706 ALS patients and 92 matched controls (Rothstein, 2020). Some of the Project MinE DF1 variants were independently found in this new, non-overlapping dataset, including one occurrence of the strong NADase GoF 229-235 SARM1 allele in a patient, but we also found three new patient-associated alleles and one new control-associated allele encoding changes within the ARM domain or just N-terminal to it (encompassing amino acids 29-397) (Figure 1 and Table 2).…”

Section: Identification Of An Additional Als Patient-associated Strong Gof Sarm1 Variant Inmentioning

confidence: 99%

“…Here, we have identified a number of rare alleles specific to ALS patients in Project MinE initiative data freeze 1 (Project MinE ALS Sequencing Consortium, 2018;van der Spek et al, 2019) and the Answer ALS project (Rothstein, 2020) encoding missense substitutions and in-frame microdeletions in the auto-inhibitory ARM domain of SARM1 that confer substantial pro-degenerative NADase gain-of-function (GoF). A number of these GoF alleles were subsequently identified in additional ALS patients and in HSP or other motor nerve disorder patients in other databases but, crucially, were not seen at all in any individuals in the control groups.…”

Section: Introductionmentioning

confidence: 99%

Enrichment of SARM1 alleles encoding variants with constitutively hyperactive NADase in patients with ALS and other motor nerve disorders

Gilley

Jackson

Pipis

et al. 2021

eLife

Self Cite

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SARM1, a protein with critical NADase activity, is a central executioner in a conserved programme of axon degeneration. We report seven rare missense or in-frame microdeletion human SARM1 variant alleles in patients with amyotrophic lateral sclerosis (ALS) or other motor nerve disorders that alter the SARM1 auto-inhibitory ARM domain and constitutively hyperactivate SARM1 NADase activity. The constitutive NADase activity of these seven variants is similar to that of SARM1 lacking the entire ARM domain and greatly exceeds the activity of wild-type SARM1, even in the presence of nicotinamide mononucleotide (NMN), its physiological activator. This rise in constitutive activity alone is enough to promote neuronal degeneration in response to otherwise non-harmful, mild stress. Importantly, these strong gain-of-function alleles are completely patient-specific in the cohorts studied and show a highly significant association with disease at the single gene level. These findings of disease-associated coding variants that alter SARM1 function build on previously reported genome-wide significant association with ALS for a neighbouring, more common SARM1 intragenic single nucleotide polymorphism (SNP) to support a contributory role of SARM1 in these disorders. A broad phenotypic heterogeneity and variable age-of-onset of disease among patients with these alleles also raises intriguing questions about the pathogenic mechanism of hyperactive SARM1 variants.

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“…Participants were provided with a global unique identifier (NeuroGUID) and were monitored every 3 months for an entire year. All of the methods employed in this study were performed in accordance with the relevant guidelines and regulations, including the Declaration of Helsinki ( Berry et al, 2001 ; Rothstein et al, 2020 ).…”

Section: Methodsmentioning

confidence: 99%

Novel Genetic Signatures Associated With Sporadic Amyotrophic Lateral Sclerosis

Logan

Dubel-Haag²,

Schcolnicov³

et al. 2022

Front. Genet.

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Amyotrophic Lateral Sclerosis (ALS) is a complex polygenetic neurodegenerative disorder. Establishing a diagnosis for ALS is a challenging and lengthy process. By the time a diagnosis is made, the lifespan prognosis is only about two to 5 years. Genetic testing can be critical in assessing a patient’s risk for ALS, provided they have one of the known familial genes. However, the vast majority of ALS cases are sporadic and have no known associated genetic signatures. Our analysis of the whole genome sequencing data from ALS patients and healthy controls from the Answer ALS Consortium has uncovered twenty-three novel mutations in twenty-two protein-coding genes associated with sporadic ALS cases. The results show the majority of patients with the sporadic form of ALS have at least one or more mutation(s) in the 22 genes we have identified with probabilities of developing ALS ranging from 25–99%, depending on the number of mutations a patient has among the identified genes. Moreover, we have identified a subset of the ALS cohort that has >17 mutations in the 22 identified. In this case, a patient with this mutation profile has a 99% chance of developing ALS and could be classified as being at high risk for the disease. These genetic biomarkers can be used as an early ALS disease diagnostic tool with a rapid and non-invasive technique.

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Answer ALS: A Large-Scale Resource for Sporadic and Familial ALS Combining Clinical Data with Multi-Omics Data from Induced Pluripotent Cell Lines

Cited by 5 publications

References 48 publications

Enrichment of SARM1 alleles encoding variants with constitutively hyperactive NADase in patients with ALS and other motor nerve disorders

Enrichment of SARM1 alleles encoding variants with constitutively hyperactive NADase in patients with ALS and other motor nerve disorders

Enrichment of SARM1 alleles encoding variants with constitutively hyperactive NADase in patients with ALS and other motor nerve disorders

Novel Genetic Signatures Associated With Sporadic Amyotrophic Lateral Sclerosis

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