key: cord-0930778-l7meb9tq authors: Banchini, Filippo title: COVID-19 and NF-kB: The Hepcidin paradox and the Iron Storm - reply date: 2020-11-05 journal: Acta Biomed DOI: 10.23750/abm.v91i4.10904 sha: 4c582757bc2d42879a08645d800357c87c23190e doc_id: 930778 cord_uid: l7meb9tq nan To the Editor, The additional arguments supported by Sukhomlin (1) in the letter above could represent an essential aid in comprehending COVID infection and constitute important support in developing and deepening iron metabolism interaction in this affection. The first impression we can get reading the commentary seems to contrast with our observations about hepcidin. The ancestral role of hepcidin has the function to preserve from bacterial infection, reducing the availability of free iron outside the cell; thus, the bacteria minimize replication capability. The same effect is present in macrophages that incorporate iron and expel it as ferritin (2) . Also, in pneumocytes, the effect exerted by direct production of Interleukine-6 and hepcidin is to reduce intralveolar iron; in fact, ferroportin is expressed on the alveolar surface (3,4) (see Figure 1 for better explanation). In the commentary proposed by Hirano (5), the Sars-Cov-2 virus links the ACE2 receptor of the alveolar cell by activating the NF-κB factor for its replication. The NF-κB requires iron for its activation by the complex IKK -IκB -NF-κB (6) . The consequence of NF-kb activation stimulates hepcidin and IL-6 production (7). IL-6 also stimulates hepcidin and transferrin receptor 1 with consequent transferrin internalization (8) and iron accumulation in the alveolar cell. The intracellular iron persists the NF-κB activation (6) . When this sequence is too accelerated, it causes an overcharge of intracellular iron and consequent ferroptosis (9) . Ferroptosis itself and IL-6 production maintain hepcidin expression in macrophages, with the aim of iron sequestration, converting it to ferritin (2) . Disruption of alveolar epithelium by ferroptosis releases several pro-inflammatory, procoagulant molecules and free iron ions in the blood torrent (10) . The consequence of all these processes is the contemporary use of hepcidin as a viral helper in replication and a defense immunity activator, consisting of a "Hepcidin paradox and an iron storm". Understanding if cytokine storm could be restricted to an iron storm could be a target to address our treatments. Several authors (11, 12) previously observed the same conclusion, underlining the NF-κB pathway's simultaneous use for viral replication and immunity reaction. A better comprehension of these two distinct phases could be useful in understanding COVID infection. In her letter, the demonstrations reported by Sukhomlin added to our clinical observations suggest considering iron metabolism and the adverse effects promoted by non-transferrin bound iron, a topic to be deepened in the understanding and treating COVID infection. Each author declares that he or she has no commercial associations (e.g. consultancies, stock ownership, equity interest, patent/licensing arrangement etc.) that might pose a conflict of interest in connection with the submitted article Hepcidin is a friend rather than a foe in COVID19-induced complication Pumping iron"-how macrophages handle iron at the systemic, microenvironmental, and cellular levels Iron in Lung Pathology. Pharmaceuticals (Basel) The Role of Iron Metabolism in Lung Inflammation and Injury COVID-19: A New Virus, but a Familiar Receptor and Cytokine Release Syndrome. Immunity Signaling role of intracellular iron in NF-kappaB activation Experimental study on transcription regulation of mouse hepcidin gene by NF-kB Interleukin-6 enhances hepatic transferrin uptake and ferritin expression in rats Molecular Mechanisms of Ferroptosis and Its Role in Pulmonary Disease Serum ferritin is an important inflammatory disease marker, as it is mainly a leakage product from damaged cells Recent advances on viral manipulation of NF-κB signaling pathway NF-kappaB and virus infection: who controls whom