Iron overload and neurodegenerative diseases: What can we learn from Caenorhabditis elegans?

AIRTON C. MARTINS; MIRIAM VIRGOLINI; ALEXEY A TINKOV; MICHAEL ASCHNER

Toxicology Research and Application

Sage

Lugar: Newbury, CA; Año: 2022 vol. 6 p. 1 - 1

2397-8473

ron (Fe) is an essential trace element required for several physiological processes. It plays important roles in mitochondrial function, synthesis, and metabolism of the neurotransmitter, as well as oxygen transport. However, excess Fe can cause toxicity. Particularly, Fe overload may result in neurotoxicity, contributing to the development and progression of neurodegenerative diseases, although the molecular mechanisms underlying Fe-induced neurodegeneration have yet to be entirely understood. Alternative (non-rodent) experimental models have been pointed as important approaches to elucidate molecular and physiological events mediating Fe-induced pathology. Among such alternative strategies, an advantageous experimental worm-model system, Caenorhabditis elegans (C. elegans), has been used to investigate Fe-induced neurotoxicity and neurodegenerative disorders. Its genome has been fully sequenced, corroborating that it shares significant homology with mammalians, and has approximately