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血色素沉着蛋白变体D568H的功能特性为铁依赖性石棉诱导的致癌作用提供了新的机制见解。

Functional Characterization of the Hephaestin Variant D568H Provides Novel Mechanistic Insights on Iron-Dependent Asbestos-Induced Carcinogenesis.

作者信息

Zacchi Paola, Longo Francesco, Marconato Alice, Amadei Matteo, Bonaccorsi di Patti Maria Carmela, Avolio Elisa, Li Pengfei, Fan Hongkuan, Tetley Teresa D, Zabucchi Giuliano, Borelli Violetta

机构信息

Department of Life Sciences, University of Trieste, 34127 Trieste, Italy.

Department of Biochemical Sciences, Sapienza University of Roma, 00185 Rome, Italy.

出版信息

Int J Mol Sci. 2025 Mar 13;26(6):2607. doi: 10.3390/ijms26062607.

DOI:10.3390/ijms26062607
PMID:40141249
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11941830/
Abstract

A local disruption of iron homeostasis leading to oxidative stress is considered one of the main mechanisms of asbestos-related genotoxicity. Another aspect contributing to the risk of developing pathological consequences upon asbestos exposure is individual genetic factors. In a previous study, we identified a coding SNP in the hephaestin gene () that protects against developing asbestos-related thoracic cancer. Heph is a ferroxidase that promotes iron export in concert with the permease ferroportin (Fpn1). Here, we performed an in-depth functional characterization of the HephD568H variant to gain insights into the molecular basis of its protective activity. We showed that HephD568H forms a complex with Fpn1 and possesses full ferroxidase activity. Although HephD568H is more efficiently recruited to the plasma membrane, it is impaired in binding iron-deficient Tfn, whose interaction with wild-type (WT) ferroxidase emerged as a novel mechanism to perceive brain iron needs. Heph is expressed in the human lung by pericytes and fibroblasts, and lung pericytes were shown to respond to iron demand by upregulating the iron exporter pair. These results extend the paradigm of local iron regulation discovered at the blood-brain barrier to the pulmonary vasculature. Furthermore, they establish a mechanistic link between changes in iron sensing and the risk of developing asbestos-related malignancies.

摘要

导致氧化应激的局部铁稳态破坏被认为是石棉相关基因毒性的主要机制之一。石棉暴露后发生病理后果风险的另一个影响因素是个体遗传因素。在之前的一项研究中,我们在铁转运蛋白基因()中鉴定出一个编码单核苷酸多态性(SNP),它可预防石棉相关的胸段癌症。铁转运蛋白是一种铁氧化酶,与通透酶铁转运蛋白1(Fpn1)协同促进铁输出。在此,我们对HephD568H变体进行了深入的功能表征,以深入了解其保护活性的分子基础。我们发现HephD568H与Fpn1形成复合物,并具有完整的铁氧化酶活性。尽管HephD568H更有效地被招募到质膜,但它与缺铁转铁蛋白(Tfn)的结合受损,而缺铁转铁蛋白与野生型(WT)铁氧化酶的相互作用是感知脑铁需求的一种新机制。铁转运蛋白由周细胞和成纤维细胞在人肺中表达,并且已证明肺周细胞通过上调铁输出蛋白对来响应铁需求。这些结果将在血脑屏障发现的局部铁调节模式扩展到肺血管系统。此外,它们在铁感应变化与发生石棉相关恶性肿瘤的风险之间建立了机制联系。

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本文引用的文献

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