Litcius/Paper detail

Advances in Ferritin Physiology and Possible Implications in Bacterial Infection

Clemens M. Gehrer, Anna‐Maria Mitterstiller, Philipp Grubwieser, Esther G. Meyron‐Holtz, Günter Weiß, Manfred Nairz

2023International Journal of Molecular Sciences33 citationsDOIOpen Access PDF

Abstract

Due to its advantageous redox properties, iron plays an important role in the metabolism of nearly all life. However, these properties are not only a boon but also the bane of such life forms. Since labile iron results in the generation of reactive oxygen species by Fenton chemistry, iron is stored in a relatively safe form inside of ferritin. Despite the fact that the iron storage protein ferritin has been extensively researched, many of its physiological functions are hitherto unresolved. However, research regarding ferritin's functions is gaining momentum. For example, recent major discoveries on its secretion and distribution mechanisms have been made as well as the paradigm-changing finding of intracellular compartmentalization of ferritin via interaction with nuclear receptor coactivator 4 (NCOA4). In this review, we discuss established knowledge as well as these new findings and the implications they may have for host-pathogen interaction during bacterial infection.

Topics & Concepts

FerritinCompartmentalization (fire protection)IntracellularBiologyChemistryPhysiologyCell biologyBiochemistryEnzymeIron Metabolism and DisordersTrace Elements in HealthHemoglobinopathies and Related Disorders