Janice A. Dominov scite author profile

To identify novel genes associated with ALS, we undertook two lines of investigation. We carried out a genome-wide association study comparing 20,806 ALS cases and 59,804 controls. Independently, we performed a rare variant burden analysis comparing 1,138 index familial ALS cases and 19,494 controls. Through both approaches, we identified kinesin family member 5A (KIF5A) as a novel gene associated with ALS. Interestingly, mutations predominantly in the N-terminal motor domain of KIF5A are causative for two neurodegenerative diseases: hereditary spastic paraplegia (SPG10) and Charcot-Marie-Tooth type 2 (CMT2). In contrast, ALS-associated mutations are primarily located at the C-terminal cargo-binding tail domain and patients harboring loss-of-function mutations displayed an extended survival relative to typical ALS cases. Taken together, these results broaden the phenotype spectrum resulting from mutations in KIF5A and strengthen the role of cytoskeletal defects in the pathogenesis of ALS.

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Genome-Wide Analyses Identify KIF5A as a Novel ALS Gene

Nicolas¹,

Kenna²,

Renton³

et al. 2018

SSRN Journal

134

238

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To identify novel genes associated with ALS, we undertook two lines of investigation. We carried out a genome-wide association study comparing 20,806 ALS cases and 59,804 controls. Independently, we performed a rare variant burden analysis comparing 1,138 index familial ALS cases and 19,494 controls. Through both approaches, we identified kinesin family member 5A (KIF5A) as a novel gene associated with ALS. Interestingly, mutations predominantly in the N-terminal motor domain of KIF5A are causative for two neurodegenerative diseases, hereditary spastic paraplegia (SPG10) and Charcot-Marie-Tooth Type 2 (CMT2). In contrast, ALS associated mutations are primarily located at the C-terminal cargo-binding tail domain and patients harboring loss of function mutations displayed an extended survival relative to typical ALS cases. Taken together, these results broaden the phenotype spectrum resulting from mutations in KIF5A and strengthen the role of cytoskeletal defects in the pathogenesis of ALS.

show abstract

Intermediate filaments in cardiac myogenesis: nestin in the developing mouse heart.

Kachinsky¹,

Dominov²,

Miller³

1995

J Histochem Cytochem.

132

114

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By using immunohistology combined with immunoblotting, cell culture, and RT-PCR, we show that the intermediate f h e n t protein nestin is d a t l y e x p d in the midembryonic mouse heart. Monoclonal antibody (MAb) Rat-401, known to react with ncstin in neural and skeletal m d e cells, was also found to react with ventricular and atrial cells throughout the mouse heart from embryonic day 9 (E9) through E10.5. Both before (E8.5) and after (Ell-adult) this brief period, staining with Rat-401 was absent from atrial and ventricular myocgtes. To evaluate the specificity of

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Myogenesis and the Intermediate Filament Protein, Nestin

Kachinsky

Dominov

Miller

1994

Developmental Biology

124

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Janice A. Dominov

Genome-wide Analyses Identify KIF5A as a Novel ALS Gene

Genome-Wide Analyses Identify KIF5A as a Novel ALS Gene

Intermediate filaments in cardiac myogenesis: nestin in the developing mouse heart.

Myogenesis and the Intermediate Filament Protein, Nestin

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