Rare Variant Burden Analysis within Enhancers Identifies CAV1 as an ALS Risk Gene | Zendy

Johnathan CooperKnock | Zendy; Sai Zhang | Zendy; Kevin P. Kenna | Zendy; Tobias Moll | Zendy; John Franklin | Zendy; Samantha Allen | Zendy; Helia Ghahremani Nezhad | Zendy; Alfredo Iacoangeli | Zendy; Nancy Y. Yacovzada | Zendy; Chen Eitan | Zendy; Eran Hornstein | Zendy; Eran Elhaik | Zendy; Petra Celadova | Zendy; Daniel Bose | Zendy; Sali M.K. Farhan | Zendy; Simon Fishilevich | Zendy; Doron Lancet | Zendy; Karen Morrison | Zendy; Christopher E. Shaw | Zendy; Ammar AlChalabi | Zendy; Jan H. Veldink | Zendy; Janine Kirby | Zendy; M Snyder | Zendy; Pamela J. Shaw | Zendy; Ian P. Blair | Zendy; Naomi R. Wray | Zendy; Matthew C. Kiernan | Zendy; Miguel MitneNeto | Zendy; Adriano Chiò | Zendy; Ruben J. Cauchi | Zendy; Wim Robberecht | Zendy; Philip Van Damme | Zendy; Phillippe Corcia | Zendy; P. Couratier | Zendy; Orla Hardiman | Zendy; Russel McLaughlin | Zendy; Marc Gotkine | Zendy; Vivan Drory | Zendy; Nicola Ticozzi | Zendy; Vincenzo Silani | Zendy; Leonard van den Berg | Zendy; Mamede de Carvalho | Zendy; Jesus Mora Pardina | Zendy; Mónica Povedano | Zendy; Peter M. Andersen | Zendy; Markus Wber | Zendy; Nazlı Başak | Zendy; John E. Landers | Zendy; Jonathan D. Glass | Zendy

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Rare Variant Burden Analysis within Enhancers Identifies CAV1 as an ALS Risk Gene

Author(s) -

Johnathan CooperKnock,

Sai Zhang,

Kevin P. Kenna,

Tobias Moll,

John Franklin,

Samantha Allen,

Helia Ghahremani Nezhad,

Alfredo Iacoangeli,

Nancy Y. Yacovzada,

Chen Eitan,

Eran Hornstein,

Eran Elhaik,

Petra Celadova,

Daniel Bose,

Sali M.K. Farhan,

Simon Fishilevich,

Doron Lancet,

Karen Morrison,

Christopher E. Shaw,

Ammar AlChalabi,

Jan H. Veldink,

Janine Kirby,

M Snyder,

Pamela J. Shaw,

Ian P. Blair,

Naomi R. Wray,

Matthew C. Kiernan,

Miguel MitneNeto,

Adriano Chiò,

Ruben J. Cauchi,

Wim Robberecht,

Philip Van Damme,

Phillippe Corcia,

P. Couratier,

Orla Hardiman,

Russel McLaughlin,

Marc Gotkine,

Vivan Drory,

Nicola Ticozzi,

Vincenzo Silani,

Leonard van den Berg,

Mamede de Carvalho,

Jesus Mora Pardina,

Mónica Povedano,

Peter M. Andersen,

Markus Wber,

Nazlı Başak,

John E. Landers,

Jonathan D. Glass

Publication year - 2020

Publication title -

cell reports

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.264

H-Index - 154

eISSN - 2639-1856

pISSN - 2211-1247

DOI - 10.1016/j.celrep.2020.108456

Subject(s) - enhancer , biology , amyotrophic lateral sclerosis , genetics , gene , phenotype , genome wide association study , exon , disease , computational biology , gene expression , single nucleotide polymorphism , medicine , pathology , genotype

Summary Amyotrophic lateral sclerosis (ALS) is an incurable neurodegenerative disease. CAV1 and CAV2 organize membrane lipid rafts (MLRs) important for cell signaling and neuronal survival, and overexpression of CAV1 ameliorates ALS phenotypes in vivo . Genome-wide association studies localize a large proportion of ALS risk variants within the non-coding genome, but further characterization has been limited by lack of appropriate tools. By designing and applying a pipeline to identify pathogenic genetic variation within enhancer elements responsible for regulating gene expression, we identify disease-associated variation within CAV1/CAV2 enhancers, which replicate in an independent cohort. Discovered enhancer mutations reduce CAV1/CAV2 expression and disrupt MLRs in patient-derived cells, and CRISPR-Cas9 perturbation proximate to a patient mutation is sufficient to reduce CAV1/CAV2 expression in neurons. Additional enrichment of ALS-associated mutations within CAV1 exons positions CAV1 as an ALS risk gene. We propose CAV1/CAV2 overexpression as a personalized medicine target for ALS.

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