Feedback Response to Selective Depletion of Endogenous Carbon Monoxide in the Blood

化学 内生 血红素 胆绿素 血红蛋白 一氧化碳 血红素 血红素加氧酶 体内 生物化学 胆红素 铁质 内科学 有机化学 医学 生物技术 生物 催化作用
作者
Hiroaki Kitagishi,Saika Minegishi,Aki Yumura,Shigeru Negi,Shigeru Taketani,Yoko Amagase,Yumiko Mizukawa,Tetsuro Urushidani,Yukio Sugiura,Koji Kano
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:138 (16): 5417-5425 被引量:76
标识
DOI:10.1021/jacs.6b02211
摘要

The physiological roles of endogenous carbon monoxide (CO) have not been fully understood because of the difficulty in preparing a loss-of-function phenotype of this molecule. Here, we have utilized in vivo CO receptors, hemoCDs, which are the supramolecular 1:1 inclusion complexes of meso-tetrakis(4-sulfonatophenyl)porphinatoiron(II) with per-O-methylated β-cyclodextrin dimers. Three types of hemoCDs (hemoCD1, hemoCD2, and hemoCD3) that exhibit different CO-affinities have been tested as CO-depleting agents in vivo. Intraperitoneally administered hemoCD bound endogenous CO within the murine circulation, and was excreted in the urine along with CO in an affinity-dependent manner. The sufficient administration of hemoCD that has higher CO-affinity than hemoglobin (Hb) produced a pseudoknockdown state of CO in the mouse in which heme oxygenase-1 (HO-1) was markedly induced in the liver, causing the acceleration of endogenous CO production to maintain constant CO-Hb levels in the blood. The contents of free hemin and bilirubin in the blood plasma of the treated mice significantly increased upon removal of endogenous CO by hemoCD. Thus, a homeostatic feedback model for the CO/HO-1 system was proposed as follows: HemoCD primarily removes CO from cell-free CO-Hb. The resulting oxy-Hb is quickly oxidized to met-Hb by oxidant(s) such as hydrogen peroxide in the blood plasma. The met-Hb readily releases free hemin that directly induces HO-1 in the liver, which metabolizes the hemin into iron, biliverdin, and CO. The newly produced CO binds to ferrous Hb to form CO-Hb as an oxidation-resistant state. Overall, the present system revealed the regulatory role of CO for maintaining the ferrous/ferric balance of Hb in the blood.
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