Mechanisms of iron- and O 2 -sensing by the [4Fe-4S] cluster of the global iron regulator RirA.

RirA is a global regulator of iron homeostasis in Rhizobium and related α-proteobacteria. In its [4Fe-4S] cluster-bound form it represses iron uptake by binding to IRO Box sequences upstream of RirA-regulated genes. Under low iron and/or aerobic conditions, [4Fe-4S] RirA undergoes cluster conversion/degradation to apo-RirA, which can no longer bind IRO Box sequences. Here, we apply time-resolved mass spectrometry and electron paramagnetic resonance spectroscopy to determine how the RirA cluster senses iron and O ₂ . The data indicate that the key iron-sensing step is the O ₂ -independent, reversible dissociation of Fe ²⁺ from [4Fe-4S] ²⁺ to form [3Fe-4S] ⁰ . The dissociation constant for this process was determined as K _d = ~3 µM, which is consistent with the sensing of 'free' iron in the cytoplasm. O ₂ -sensing occurs through enhanced cluster degradation under aerobic conditions, via O ₂ -mediated oxidation of the [3Fe-4S] ⁰ intermediate to form [3Fe-4S] ¹⁺ . This work provides a detailed mechanistic/functional view of an iron-responsive regulator.
Competing Interests: MP, JC, MS, JB, DS, AJ, MC, JT, NL No competing interests declared
(© 2019, Pellicer Martinez et al.)