6-OHDA-induced dopaminergic neurodegeneration in Caenorhabditis elegans is promoted by the engulfment pathway and inhibited by the transthyretin-related protein TTR-33.

Sarah-Lena Offenburger,Anton Gartner,Xue Yan Ho,Sean Coakley,Theresa Tachie-Menson,Massimo A Hilliard,Kim Caldwell

doi:10.1371/journal.pgen.1007125

Sarah-Lena Offenburger, Anton Gartner + Show 5 more

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https://doi.org/10.1371/journal.pgen.1007125

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Abstract

Oxidative stress is linked to many pathological conditions including the loss of dopaminergic neurons in Parkinson’s disease. The vast majority of disease cases appear to be caused by a combination of genetic mutations and environmental factors. We screened for genes protecting Caenorhabditis elegans dopaminergic neurons from oxidative stress induced by the neurotoxin 6-hydroxydopamine (6-OHDA) and identified the transthyretin-related gene ttr-33. The only described C. elegans transthyretin-related protein to date, TTR-52, has been shown to mediate corpse engulfment as well as axon repair. We demonstrate that TTR-52 and TTR-33 have distinct roles. TTR-33 is likely produced in the posterior arcade cells in the head of C. elegans larvae and is predicted to be a secreted protein. TTR-33 protects C. elegans from oxidative stress induced by paraquat or H2O2 at an organismal level. The increased oxidative stress sensitivity of ttr-33 mutants is alleviated by mutations affecting the KGB-1 MAPK kinase pathway, whereas it is enhanced by mutation of the JNK-1 MAPK kinase. Finally, we provide genetic evidence that the C. elegans cell corpse engulfment pathway is required for the degeneration of dopaminergic neurons after exposure to 6-OHDA. In summary, we describe a new neuroprotective mechanism and demonstrate that TTR-33 normally functions to protect dopaminergic neurons from oxidative stress-induced degeneration, potentially by acting as a secreted sensor or scavenger of oxidative stress.

Highlights

Oxidative stress, caused by an increased occurrence of reactive oxygen species or a decreased cellular defence against these chemicals, is a risk factor for many pathological conditions including Parkinson’s disease
Oxidative stress protection by the C. elegans transthyretin-related TTR-33 the Dundee Imaging Facility, which is supported by the Wellcome Trust Technology Platform award (097945/B/11/Z) and the MRC Generation Optical Microscopy award (MR/K015869/1)
Through an unbiased forward genetic screen, we have discovered that mutations in the C. elegans transthyretin-related gene ttr-33 exacerbate dopaminergic neurodegeneration after 6-OHDA treatment. ttr-33 mutants exhibit increased susceptibility to oxidative stress at an organismal level. ttr-33 is one of the 59 C. elegans transthyretin-related genes, a family resulting from a nematode-specific expansion [21,22]

Summary

Introduction

Oxidative stress, caused by an increased occurrence of reactive oxygen species or a decreased cellular defence against these chemicals, is a risk factor for many pathological conditions including Parkinson’s disease (for review [1]). One of the major hallmarks of Parkinson’s disease is the degeneration of dopaminergic neurons in the substantia nigra of the midbrain, as well as the abnormal aggregation of intracellular α-synuclein protein known as ‘Lewy bodies’ in surviving dopaminergic neurons [4]. In both genetic and idiopathic cases of Parkinson’s disease, oxidative damage appears to play an important role [4]. Several disease loci are associated with mitochondrial function, and an increased incidence of Parkinson’s is associated with rural living, possibly linked to pesticide exposure [4]

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