DNA repair deficiencies and neurodegeneration

Neurodegenerative diseases are the second most prevalent cause of death in industrialized countries. Alzheimer’s Disease is the most widespread and also most acknowledged form of dementia today. Together with Parkinson’s Disease they account for over 90 % cases of neurodegenerative disorders caused by proteopathies. Far less known are the neurodegenerative pathologies in DNA repair deficiency syndromes. Such diseases like Cockayne - or Werner Syndrome are described as progeroid syndromes – diseases that cause the premature ageing of the affected persons, and there are clear implications of such diseases in neurologic dysfunction and degeneration. In this review, we aim to draw the attention on commonalities between proteopathy-associated neurodegeneration and neurodegeneration caused by DNA repair defects and discuss how mitochondria are implicated in the development of both disorder classes. Furthermore, we highlight how nematodes are a valuable and indispensable model organism to study conserved neurodegenerative processes in a fast-forward manner. •Neurodegeneration occurs in a variety of DNA repair deficiency diseases.•Classical proteopathies are linked to DNA damage and defects in DNA repair.•Mitochondrial function is compromised in DNA damage response defects and neurodegeneration.•C. elegans is a powerful in vivo model to analyse neurodegeneration and DNA repair.