Primary Cilia and SHH Signaling Impairments in Human and Mouse Models of Parkinson's Disease

Overview

Journal Nat Commun

Specialty Biology

Date 2022 Aug 16

PMID 35974013

Authors

Sebastian Schmidt

Malte D Luecken

Dietrich Trumbach

Sina Hembach

Kristina M Niedermeier

Nicole Wenck

Klaus Pflugler

Constantin Stautner

Anika Bottcher

Heiko Lickert

Ciro Ramirez-Suastegui

Ruhel Ahmad

Michael J Ziller

Julia C Fitzgerald

Viktoria Ruf

Wilma D J van de Berg

Allert J Jonker

Thomas Gasser

Beate Winner

Jurgen Winkler

Daniela M Vogt Weisenhorn

Florian Giesert

Fabian J Theis

Wolfgang Wurst

Affiliations

Soon will be listed here.

Abstract

Parkinson's disease (PD) as a progressive neurodegenerative disorder arises from multiple genetic and environmental factors. However, underlying pathological mechanisms remain poorly understood. Using multiplexed single-cell transcriptomics, we analyze human neural precursor cells (hNPCs) from sporadic PD (sPD) patients. Alterations in gene expression appear in pathways related to primary cilia (PC). Accordingly, in these hiPSC-derived hNPCs and neurons, we observe a shortening of PC. Additionally, we detect a shortening of PC in PINK1-deficient human cellular and mouse models of familial PD. Furthermore, in sPD models, the shortening of PC is accompanied by increased Sonic Hedgehog (SHH) signal transduction. Inhibition of this pathway rescues the alterations in PC morphology and mitochondrial dysfunction. Thus, increased SHH activity due to ciliary dysfunction may be required for the development of pathoetiological phenotypes observed in sPD like mitochondrial dysfunction. Inhibiting overactive SHH signaling may be a potential neuroprotective therapy for sPD.

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