Local Multiple-site Injections of a Plasmid Encoding Human MnSOD Mitigate Radiation-induced Skin Injury by Inhibiting Ferroptosis.

IF 2.8 4区 医学 Q2 PHARMACOLOGY & PHARMACY Current drug delivery Pub Date : 2024-01-01 DOI:10.2174/1567201820666230508120720
Xiaoying Wang, Yuxin Lu, Xiaochen Cheng, Xuefeng Zhu, Dujuan Li, Haiying Duan, Shenhui Hu, Fengjun Xiao, Li Du, Qinglin Zhang
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Abstract

Background: Most patients who undergo radiotherapy develop radiation skin injury, for which effective treatment is urgently needed. MnSOD defends against reactive oxygen species (ROS) damage and may be valuable for treating radiation-induced injury. Here, we (i) investigated the therapeutic and preventive effects of local multiple-site injections of a plasmid, encoding human MnSOD, on radiation-induced skin injury in rats and (ii) explored the mechanism underlying the protective effects of pMnSOD.

Methods: The recombinant plasmid (pMnSOD) was constructed with human cytomegalovirus (CMV) promoter and pUC-ori. The protective effects of pMnSOD against 20-Gy X-ray irradiation were evaluated in human keratinocytes (HaCaT cells) by determining cell viability, ROS levels, and ferroptosisrelated gene expression. In therapeutic treatment, rats received local multiple-site injections of pMnSOD on days 12, 19, and 21 after 40-Gy γ-ray irradiation. In preventive treatment, rats received pMnSOD injections on day -3 pre-irradiation and on day 4 post-irradiation. The skin injuries were evaluated based on the injury score and pathological examination, and ferroptosis-related gene expression was determined.

Results: In irradiated HaCaT cells, pMnSOD transfection resulted in an increased SOD2 expression, reduced intracellular ROS levels, and increased cell viability. Moreover, GPX4 and SLC7A11 expression was significantly upregulated, and erastin-induced ferroptosis was inhibited in HaCaT cells. In the therapeutic and prevention treatment experiments, pMnSOD administration produced local SOD protein expression and evidently promoted the healing of radiation-induced skin injury. In the therapeutic treatment experiments, the injury score in the high-dose pMnSOD group was significantly lower than in the PBS group on day 33 post-irradiation (1.50 vs. 2.80, P < 0.05). In the prevention treatment experiments, the skin injury scores were much lower in the pMnSOD administration groups than in the PBS group from day 21 to day 34. GPX4, SLC7A11, and Bcl-2 were upregulated in irradiated skin tissues after pMnSOD treatment, while ACSL4 was downregulated.

Conclusion: The present study provides evidence that the protective effects of MnSOD in irradiated HaCaT cells may be related to the inhibition of ferroptosis. The multi-site injections of pMnSOD had clear therapeutic and preventive effects on radiation-induced skin injury in rats. pMnSOD may have therapeutic value for the treatment of radiation-induced skin injury.

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局部多部位注射编码人类 MnSOD 的质粒可通过抑制铁凋亡减轻辐射诱发的皮肤损伤
背景:大多数接受放疗的患者都会出现放射性皮肤损伤,急需有效的治疗方法。MnSOD 能抵御活性氧(ROS)损伤,可能对治疗辐射引起的损伤有价值。在此,我们(i)研究了局部多部位注射编码人MnSOD的质粒对辐射诱导的大鼠皮肤损伤的治疗和预防作用,(ii)探索了pMnSOD保护作用的机制:方法:用人巨细胞病毒(CMV)启动子和 pUC-ori 构建重组质粒(pMnSOD)。通过测定细胞活力、ROS 水平和铁变态反应相关基因的表达,评估了 pMnSOD 在人类角朊细胞(HaCaT 细胞)中对 20-Gy X 射线辐照的保护作用。在治疗过程中,大鼠在接受 40Gy γ 射线照射后的第 12、19 和 21 天接受局部多部位注射 pMnSOD。在预防性治疗中,大鼠在辐照前第 3 天和辐照后第 4 天接受 pMnSOD 注射。根据损伤评分和病理检查对皮肤损伤进行评估,并测定铁变态反应相关基因的表达:结果:在辐照过的 HaCaT 细胞中,pMnSOD 转染导致 SOD2 表达增加,细胞内 ROS 水平降低,细胞存活率提高。此外,HaCaT 细胞中 GPX4 和 SLC7A11 的表达明显上调,厄拉斯特诱导的铁蛋白沉着受到抑制。在治疗和预防治疗实验中,服用 pMnSOD 能促进局部 SOD 蛋白的表达,并明显促进辐射引起的皮肤损伤的愈合。在治疗实验中,高剂量 pMnSOD 组的损伤评分在辐射后第 33 天显著低于 PBS 组(1.50 对 2.80,P<0.05)。在预防治疗实验中,从第 21 天到第 34 天,pMnSOD 给药组的皮肤损伤评分远远低于 PBS 组。pMnSOD 处理后,辐照皮肤组织中 GPX4、SLC7A11 和 Bcl-2 上调,而 ACSL4 下调:本研究提供的证据表明,MnSOD 对辐照 HaCaT 细胞的保护作用可能与抑制铁变态反应有关。多部位注射 pMnSOD 对辐射诱导的大鼠皮肤损伤有明显的治疗和预防作用。
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来源期刊
Current drug delivery
Current drug delivery PHARMACOLOGY & PHARMACY-
CiteScore
5.10
自引率
4.20%
发文量
170
期刊介绍: Current Drug Delivery aims to publish peer-reviewed articles, research articles, short and in-depth reviews, and drug clinical trials studies in the rapidly developing field of drug delivery. Modern drug research aims to build delivery properties of a drug at the design phase, however in many cases this idea cannot be met and the development of delivery systems becomes as important as the development of the drugs themselves. The journal aims to cover the latest outstanding developments in drug and vaccine delivery employing physical, physico-chemical and chemical methods. The drugs include a wide range of bioactive compounds from simple pharmaceuticals to peptides, proteins, nucleotides, nucleosides and sugars. The journal will also report progress in the fields of transport routes and mechanisms including efflux proteins and multi-drug resistance. The journal is essential for all pharmaceutical scientists involved in drug design, development and delivery.
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