Key players in the regulation of iron homeostasis at the host-pathogen interface

Abstract: Iron plays a crucial role in the biochemistry and development of nearly all living organisms. Iron starvation of pathogens during infection is a striking feature utilized by a host to quell infection. In mammals and some other animals, iron is essentially obtained from diet and recycled from erythrocytes. Free iron is cytotoxic and is readily available to invading pathogens. During infection, most pathogens utilize host iron for their survival. Therefore, to ensure limited free iron, the host’s natural system … Show more

“…Specifically, during infection, the host’s innate immune system starves pathogens by reducing intestinal iron absorption. This is achieved by increasing the production of ferritin and lactoferrin by neutrophils at the sites of infection, and by producing siderocalins (Cassat and Skaar, 2013; Nairz et al, 2014; Marchetti et al, 2020; Ullah and Lang, 2023). However, microorganisms overcome this problem by developing highly efficient uptake systems for using the iron present in the host through low-molecular weight organic chelators (150 to 2000 Da) called siderophores.…”

Enterobactin and Salmochelin S4 inhibit the growth ofStaphylococcus aureus

“…Specifically, during infection, the host’s innate immune system starves pathogens by reducing intestinal iron absorption. This is achieved by increasing the production of ferritin and lactoferrin by neutrophils at the sites of infection, and by producing siderocalins (Cassat and Skaar, 2013; Nairz et al, 2014; Marchetti et al, 2020; Ullah and Lang, 2023). However, microorganisms overcome this problem by developing highly efficient uptake systems for using the iron present in the host through low-molecular weight organic chelators (150 to 2000 Da) called siderophores.…”

Enterobactin and Salmochelin S4 inhibit the growth ofStaphylococcus aureus

A noval iron-capturing nanocomposites against biofilms for disrupting bacterial nutritional balance

Antimicrobial blue light inactivation of Pseudomonas aeruginosa: Unraveling the multifaceted impact of wavelength, growth stage, and medium composition