Department of Pediatrics, David Geffen School of Medicine at University of California, Los Angeles, Los Angeles, California, USA.
Department of Medicine, David Geffen School of Medicine at University of California, Los Angeles, Los Angeles, California, USA.
Kidney Int. 2022 Apr;101(4):711-719. doi: 10.1016/j.kint.2021.10.036. Epub 2021 Nov 25.
Ferric citrate is approved as an iron replacement product in patients with non-dialysis chronic kidney disease and iron deficiency anemia. Ferric citrate-delivered iron is enterally absorbed, but the specific mechanisms involved have not been evaluated, including the possibilities of conventional, transcellular ferroportin-mediated absorption and/or citrate-mediated paracellular absorption. Here, we first demonstrate the efficacy of ferric citrate in high hepcidin models, including Tmprss6 knockout mice (characterized by iron-refractory iron deficiency anemia) with and without adenine diet-induced chronic kidney disease. Next, to assess whether or not enteral ferric citrate absorption is dependent on ferroportin, we evaluated the effects of ferric citrate in a tamoxifen-inducible, enterocyte-specific ferroportin knockout murine model (Villin-Cre-ER, Fpn). In this model, ferroportin deletion was efficient, as tamoxifen injection induced a 4000-fold decrease in duodenum ferroportin mRNA expression, with undetectable ferroportin protein on Western blot of duodenal enterocytes, resulting in a severe iron deficiency anemia phenotype. In ferroportin-deficient mice, three weeks of 1% ferric citrate dietary supplementation, a dose that prevented iron deficiency in control mice, did not improve iron status or rescue the iron deficiency anemia phenotype. We repeated the conditional ferroportin knockout experiment in the setting of uremia, using an adenine nephropathy model, where three weeks of 1% ferric citrate dietary supplementation again failed to improve iron status or rescue the iron deficiency anemia phenotype. Thus, our data suggest that enteral ferric citrate absorption is dependent on conventional enterocyte iron transport by ferroportin and that, in these models, significant paracellular absorption does not occur.
柠檬酸铁已被批准用于治疗非透析慢性肾脏病和缺铁性贫血患者的铁替代产品。柠檬酸铁输送的铁通过肠内吸收,但涉及的具体机制尚未得到评估,包括常规的、跨细胞铁蛋白介导的吸收和/或柠檬酸介导的细胞旁吸收的可能性。在这里,我们首先证明了柠檬酸铁在高铁调素模型中的疗效,包括 Tmprss6 敲除小鼠(表现为铁难治性缺铁性贫血)和用腺嘌呤饮食诱导的慢性肾脏病。接下来,为了评估肠内柠檬酸铁吸收是否依赖于铁蛋白,我们在一个可诱导的、肠细胞特异性铁蛋白敲除鼠模型(Villin-Cre-ER,Fpn)中评估了柠檬酸铁的作用。在这个模型中,铁蛋白缺失是有效的,因为他莫昔芬注射诱导十二指肠铁蛋白 mRNA 表达下降了 4000 倍,Western blot 检测不到十二指肠肠细胞中的铁蛋白蛋白,导致严重的缺铁性贫血表型。在铁蛋白缺陷小鼠中,三周 1%柠檬酸铁饮食补充,一个足以防止对照小鼠缺铁的剂量,并没有改善铁状态或挽救缺铁性贫血表型。我们在尿毒症环境中重复了条件性铁蛋白敲除实验,使用腺嘌呤肾病模型,其中三周 1%柠檬酸铁饮食补充再次未能改善铁状态或挽救缺铁性贫血表型。因此,我们的数据表明,肠内柠檬酸铁吸收依赖于常规肠细胞铁蛋白介导的铁转运,并且在这些模型中,不会发生显著的细胞旁吸收。
