【摘 要】
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The essential trace element iron regulates a wide range of biological processes in virtually all living organisms.Because both iron deficiency and iron overload can lead to various pathological conditions,iron homeostasis is tightly regulated,and understa
【机 构】
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The First Affiliated Hospital,Institute of Translational Medicine,School of Public Health,Zhejiang U
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The essential trace element iron regulates a wide range of biological processes in virtually all living organisms.Because both iron deficiency and iron overload can lead to various pathological conditions,iron homeostasis is tightly regulated,and understanding this complex process will help pave the way to developing new therapeutic strategies for inflammatory disease.In recent years,significant progress has been made with respect to elucidating the roles of iron and iron-related genes in the development and maintenance of the immune system.Here,we review the timing and mechanisms by which systemic and cellular iron metabolism are regulated during the inflammatory response and during infectious dis-ease,processes in which both the host and the pathogen compete for iron.We also discuss the evidence and implications that immune cells such as macrophages,T cells,and B cells require sufficient amounts of iron for their proliferation and for mediating their effector functions,in which iron serves as a co-factor in toll-like receptor 4(TLR4)signaling,mitochondrial respiration,posttranslational regulation,and epige-netic modification.In addition,we discuss the therapeutic implications of targeting ferroptosis,iron homeostasis and/or iron metabolism with respect to conferring protection against pathogen infection,controlling inflammation.and improving the efficacy of immunotherapy.
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