A Novel α-Synuclein K58N Missense Variant in a Patient with Parkinson's Disease.

Background: Parkinson's disease (PD) is a complex multifactorial disorder with a genetic component in about 15% of cases. Multiplications and point mutations in SNCA gene, encoding α-synuclein (aSyn), are linked to rare familial forms of PD.

Objective: Our goal was to assess the clinical presentation and the biological effects of a novel K58N aSyn mutation identified in a patient with PD.

Precisely defining disease variant effects in CRISPR-edited single cells.

Genetic studies have identified thousands of individual disease-associated non-coding alleles, but the identification of the causal alleles and their functions remains a critical bottleneck. CRISPR-Cas editing has enabled targeted modification of DNA to introduce and test disease alleles. However, the combination of inefficient editing, heterogeneous editing outcomes in individual cells and nonspecific transcriptional changes caused by editing and culturing conditions limits the ability to detect the functional consequences of disease alleles.

A novel alpha-synuclein K58N missense variant in a patient with Parkinson's disease.

Mutations and multiplications in the SNCA , encoding alpha-synuclein (aSyn), are associated with familial forms of Parkinson's disease (PD). We report the identification of a novel missense mutation (NM_000345.4, cDNA 174G>C; protein K58N) in a PD patient using whole exome sequencing, and describe comprehensive molecular and cellular analysss of the effects of this novel mutation.

Adding hydrophobicity or positive charges to the cytosolic half of the α-synuclein 3-11 helix increases membrane association and S129 phosphorylation.

The neuronal protein α-synuclein is centrally involved in the neurodegeneration occurring in Parkinson's disease and related synucleinopathies. α-Synuclein's membrane-induced 3-11 helix conformation has a hydrophobic membrane-embedded half and a hydrophilic cytosolic half. Here, we studied the significance of (a) the surprising hydrophobicity of amino-acids at cytosol-exposed helix position 8; (b) the absence of positively charged lysine/arginine from all cytosol-exposed positions (1-5-8-9).