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  • Genetic and pharmacological reduction of CDK14 mitigates synucleinopathy.

Genetic and pharmacological reduction of CDK14 mitigates synucleinopathy.

Cell death & disease (2024-04-05)
Jean-Louis A Parmasad, Konrad M Ricke, Benjamin Nguyen, Morgan G Stykel, Brodie Buchner-Duby, Amanda Bruce, Haley M Geertsma, Eric Lian, Nathalie A Lengacher, Steve M Callaghan, Alvin Joselin, Julianna J Tomlinson, Michael G Schlossmacher, William L Stanford, Jiyan Ma, Patrik Brundin, Scott D Ryan, Maxime W C Rousseaux
ABSTRACT

Parkinson's disease (PD) is a debilitating neurodegenerative disease characterized by the loss of midbrain dopaminergic neurons (DaNs) and the abnormal accumulation of α-Synuclein (α-Syn) protein. Currently, no treatment can slow nor halt the progression of PD. Multiplications and mutations of the α-Syn gene (SNCA) cause PD-associated syndromes and animal models that overexpress α-Syn replicate several features of PD. Decreasing total α-Syn levels, therefore, is an attractive approach to slow down neurodegeneration in patients with synucleinopathy. We previously performed a genetic screen for modifiers of α-Syn levels and identified CDK14, a kinase of largely unknown function as a regulator of α-Syn. To test the potential therapeutic effects of CDK14 reduction in PD, we ablated Cdk14 in the α-Syn preformed fibrils (PFF)-induced PD mouse model. We found that loss of Cdk14 mitigates the grip strength deficit of PFF-treated mice and ameliorates PFF-induced cortical α-Syn pathology, indicated by reduced numbers of pS129 α-Syn-containing cells. In primary neurons, we found that Cdk14 depletion protects against the propagation of toxic α-Syn species. We further validated these findings on pS129 α-Syn levels in PD patient neurons. Finally, we leveraged the recent discovery of a covalent inhibitor of CDK14 to determine whether this target is pharmacologically tractable in vitro and in vivo. We found that CDK14 inhibition decreases total and pathologically aggregated α-Syn in human neurons, in PFF-challenged rat neurons and in the brains of α-Syn-humanized mice. In summary, we suggest that CDK14 represents a novel therapeutic target for PD-associated synucleinopathy.

MATERIALS
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Product Description

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