Asano Masayuki, Yamasaki Kenshi, Yamauchi Takashi, Terui Tadashi, Aiba Setsuya
Department of Dermatology, Tohoku University Graduate School of Medicine, Sendai, Japan.
J Dermatol Sci. 2017 Aug;87(2):101-109. doi: 10.1016/j.jdermsci.2017.04.003. Epub 2017 Apr 14.
The epidermis shows a reverse iron gradient from the basal layer to the stratum corneum and consequently, little epidermal intracellular iron is lost by desquamation.
To clarify the underlying mechanism of iron salvage.
We first used immunohistochemistry and mRNA quantification to demonstrate the distinctive expression pattern of iron metabolism molecules. The obtained results were confirmed using normal human epidermal keratinocytes (NHEKs) during in vitro differentiation. We next examined the effects of reducing ferroportin expression in vitro by ferroportin-specific siRNAs or hepcidin on the intracellular iron content of cultured NHEKs. Finally, we compared epidermal and systemic iron metabolism between Fpn mice and control mice.
The results of both mRNA and protein expression analysis showed that most molecules participating in iron import and storage were expressed in the lower epidermis, while those involved in iron release from heme or iron transport were expressed in the upper epidermis. Consistent with their expression, keratinocyte differentiation reduced intracellular iron content. We next demonstrated that reducing ferroportin expression in vitro by ferroportin-specific siRNAs or hepcidin significantly increased the intracellular iron content. Finally, we showed that the iron content of the epidermis and squames was significantly greater in Fpn mice than in control mice, and that Fpn exhibited a more rapid decrease in blood hemoglobin concentration than control mice on a low iron diet.
These studies demonstrated that the epidermis is equipped with a machinery by which intracellular iron in differentiated keratinocytes is excreted to the extracellular space before reaching the stratum corneum.
表皮呈现出从基底层到角质层的反向铁梯度,因此,表皮细胞内很少有铁通过脱屑而丢失。
阐明铁回收的潜在机制。
我们首先使用免疫组织化学和mRNA定量来证明铁代谢分子的独特表达模式。在体外分化过程中,使用正常人表皮角质形成细胞(NHEK)对获得的结果进行了验证。接下来,我们研究了通过铁转运蛋白特异性siRNA或铁调素在体外降低铁转运蛋白表达对培养的NHEK细胞内铁含量的影响。最后,我们比较了Fpn小鼠和对照小鼠的表皮和全身铁代谢情况。
mRNA和蛋白质表达分析结果均表明,大多数参与铁摄取和储存的分子在下表皮表达,而那些参与血红素中铁释放或铁转运的分子在上表皮表达。与它们的表达一致,角质形成细胞分化降低了细胞内铁含量。接下来,我们证明通过铁转运蛋白特异性siRNA或铁调素在体外降低铁转运蛋白表达可显著增加细胞内铁含量。最后,我们表明Fpn小鼠表皮和鳞屑中的铁含量显著高于对照小鼠,并且在低铁饮食条件下,Fpn小鼠的血红蛋白浓度下降速度比对照小鼠更快。
这些研究表明,表皮具备一种机制,通过该机制,分化的角质形成细胞内的铁在到达角质层之前被排泄到细胞外空间。
