IonoBiology: The functional dynamics of the intracellular metallome, with lessons from bacteria

Galera Laporta, Letícia, 1985-; Comerci, Colin J.; García Ojalvo, Jordi; Süel, Gürol M.

doi:http://dx.doi.org/10.1016/j.cels.2021.04.011

IonoBiology: The functional dynamics of the intracellular metallome, with lessons from bacteria

Citation

Galera-Laporta L, Comerci CJ, Garcia-Ojalvo J, Süel GM. IonoBiology: The functional dynamics of the intracellular metallome, with lessons from bacteria. Cell Syst. 2021;12(6):497-508. DOI: 10.1016/j.cels.2021.04.011

Abstract

Metal ions are essential for life and represent the second most abundant constituent (after water) of any living cell. While the biological importance of inorganic ions has been appreciated for over a century, we are far from a comprehensive understanding of the functional roles that ions play in cells and organisms. In particular, recent advances are challenging the traditional view that cells maintain constant levels of ion concentrations (ion homeostasis). In fact, the ionic composition (metallome) of cells appears to be purposefully dynamic. The scientific journey that started over 60 years ago with the seminal work by Hodgkin and Huxley on action potentials in neurons is far from reaching its end. New evidence is uncovering how changes in ionic composition regulate unexpected cellular functions and physiology, especially in bacteria, thereby hinting at the evolutionary origins of the dynamic metallome. It is an exciting time for this field of biology, which we discuss and refer to here as IonoBiology.