Naonori Kumagai

To maintain the oxygen supply, the production of red blood cells (erythrocytes) is promoted under low-oxygen conditions (hypoxia). Oxygen is carried by hemoglobin in erythrocytes, in which the majority of the essential element iron in the body is contained. Because iron metabolism is strictly controlled in a semi-closed recycling system to protect cells from oxidative stress caused by iron, hypoxia-inducible erythropoiesis is closely coordinated by regulatory systems that mobilize stored iron for hemoglobin synthesis. The erythroid growth factor erythropoietin (EPO) is mainly secreted by interstitial fibroblasts in the renal cortex, which are known as renal EPO-producing (REP) cells, and promotes erythropoiesis and iron mobilization. Intriguingly, EPO production is strongly induced by hypoxia through iron-dependent pathways in REP cells. Here, we summarize recent studies on the network mechanisms linking hypoxia-inducible EPO production, erythropoiesis and iron metabolism. Additionally, we introduce disease mechanisms related to disorders in the network mediated by REP cell functions. Furthermore, we propose future studies regarding the application of renal cells derived from the urine of kidney disease patients to investigate the molecular pathology of chronic kidney disease and develop precise and personalized medicine for kidney disease.

症例は5歳女児で、発熱、悪心、胸痛を主訴とした。砂遊びによる両手指の慢性湿疹に対して外用加療中であり、近医受診後も発熱が持続し、入院時には胸骨直上に辺縁不明瞭な発赤、腫脹を認め、CT検査で胸骨体の両側に低吸収帯を認めた。感染症の疑いで抗菌薬治療を開始し、血液培養でメチシリン耐性黄色ブドウ球菌(MRSA)が同定されたため、バンコマイシン(VCM)を併用した。その結果、解熱と胸痛の軽快が得られ、MRSAによる原発性胸骨骨髄炎と診断した。その後はCRP陰性化を確認してリネゾリド内服に変更し、VCMと併せて計6週間の抗MRSA薬による治療を行ったところ、炎症の再燃や血小板減少は認めなかった。本症例では手指の慢性湿疹が感染経路と考えられ、慢性湿疹を背景に持つ患児では薬剤耐性菌による全身性の感染症に留意する必要があると考えられた。