首页|hPP10-Cu,Zn-SOD融合蛋白的制备、穿膜效应及其抗氧化、抗炎症功效

hPP10-Cu,Zn-SOD融合蛋白的制备、穿膜效应及其抗氧化、抗炎症功效

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目的 探究人源性细胞膜穿透肽hPP10携带人源性抗氧化蛋白Cu,Zn-SOD的穿膜效应并观察其抗氧化、抗炎功效。方法 利用RT-PCR技术扩增人源性SOD基因片段、酶切连接法构建重组质粒pET15b-Cu,Zn-SOD,pET15b-hPP10-Cu,Zn-SOD;利用镍柱亲和层析法、分子筛方法纯化Cu,Zn-SOD、hPP10-Cu,Zn-SOD融合蛋白并利用Western blotting法鉴定其正确性;利用免疫荧光法、荧光共定位实验、Western blotting法鉴定hPP10-Cu,Zn-SOD在细胞中的穿膜效应;利用Western blotting法鉴定hPP10-Cu,Zn-SOD融合蛋白穿膜时间梯度和浓度梯度效应;利用SOD酶活性测定试剂盒检测hPP10-Cu,Zn-SOD穿膜后的SOD酶活性;利用MTT法检测hPP10对细胞活性的影响。利用H2O2建立HEK293氧化应激细胞模型,通过流式细胞分析术(FCM)分析hPP10-Cu,Zn-SOD穿膜后细胞凋亡情况;并RT-qPCR分析hPP10-Cu,Zn-SOD穿膜后凋亡相关因子的表达情况;通过ROS检测分析hPP10-Cu,Zn-SOD穿膜后抗氧化能力。TPA诱导建立小鼠耳部炎症模型(5只/组,共4组),然后RT-qPCR分析hPP10-Cu,Zn-SOD穿膜后,NFκB,IL-1β、IL-6、TNFα因子的转录情况;Western blotting检测NFκB p65、p-NFκB p65、IL-1β、TNFα基因的表达;免疫组化分析炎性因子p-NFκB p65、TNFα基因的表达。结果 成功构建了重组质粒pET15b-Cu,Zn-SOD,pET15b-hPP10-Cu,Zn-SOD,并获得Cu,Zn-SOD蛋白和hPP10-Cu,Zn-SOD融合蛋白;免疫荧光试验结果表明5 µmol/L浓度的hPP10-Cu,Zn-SOD转导HEK293细胞具有明显的穿膜效应;荧光共定位实验显示融合蛋白hPP10-Cu,Zn-SOD入胞后定位在细胞膜内,部分蛋白定位在细胞核内;Western blotting实验结果表明hPP10-Cu,Zn-SOD转导Hela(P<0。05),HEK293(P<0。01)细胞具有浓度依赖性,细胞内hPP10-Cu,Zn-SOD存在可持续24 h;5 µmol/L的hPP10-Cu,Zn-SOD转导细胞具有较好的抗氧化活性(P<0。01);MTT结果显示高达10 µmol/L浓度的hPP10-Cu,Zn-SOD对于细胞活力的影响小。在氧化应激模型中,FCM结果显示hPP10-Cu,Zn-SOD融合蛋白孵育细胞降低了细胞的早期凋亡(P<0。01)和晚期凋亡(P<0。05);RT-qPCR结果显示hPP10-Cu,Zn-SOD融合蛋白孵育细胞使Bcl2、Mcl1、Deptor等抗凋亡因子升高(P<0。05),降低了Bad、P21、P27等促凋亡因子的表达(P<0。05);ROS结果显示hPP10-Cu,Zn-SOD融合蛋白孵育细胞显著降低了细胞内的活性氧含量(P<0。01)。在炎症模型中,hPP10-Cu,Zn-SOD融合蛋白可显著降低IL-1β、IL-6、TNFα因子的转录(P<0。05);p-NFκB p65、IL-1β及TNFα的表达都呈现了抑制作用(P<0。05);hPP10-Cu,Zn-SOD融合蛋白处理组较Cu,Zn-SOD蛋白处理组,降低了炎性因子p-NFκB p65及TNFα基因的表达(P<0。05)。结论 融合蛋白hPP10-Cu,Zn-SOD具有明显的穿膜入胞、抗氧化、抗炎功效,且对细胞毒副作用很小。这些结果为hPP10作为新的递送载体奠定基础,也为hPP10-Cu,Zn-SOD应用于护肤品等提供了理论依据。
Cell membrane-penetrating capacity of hPP10-Cu,Zn-SOD fusion protein and its antioxidant and anti-inflammatory activity
Objective To investigate the cell membrane-penetrating capacity of human cell-penetrating peptide hPP10 carrying human antioxidant protein Cu-Zn superoxide dismutase(Cu,Zn-SOD)and assess the antioxidant and anti-inflammatory activity of these fusion proteins.Methods The fusion protein hPP10-Cu,Zn-SOD was obtained by genetic engineering and identified by Western blotting.The membrane-penetrating ability of the fusion protein was evaluated by immunofluorescence assay,fluorescence colocalization assay and Western blotting,its SOD enzyme activity was detected using a commercial kit,and its effect on cell viability was assessed with MTT assay.In a HEK293 cell model of H2O2-induced oxidative stress,the effect of hPP10-Cu,Zn-SOD on cell apoptosis was analyzed with flow cytometry and RT-qPCR,and its antioxidant effect was assessed using reactive oxygen species(ROS)assay;its anti-inflammatory effect was evaluated in mouse model of TPA-induced ear inflammation by detecting expression of the inflammatory factors using RT-qPCR,Western blotting and immunohistochemistry.Results The fusion protein hPP10-Cu,Zn-SOD was successfully obtained.Immunofluorescence assay confirmed obvious membrane penetration of this fusion protein in HEK293 cells,localized both in the cell membrane and the cell nuclei after cell entry.hPP10-Cu,Zn-SOD at the concentration of 5 µmol/L exhibited strong antioxidant activity with minimal impact on cell viability at the concentration up to 10 µmol/L.The fusion protein obviously inhibited apoptosis and decreased intracellular ROS level in the oxidative stress cell model and significantly reduced mRNA and protein expression of the inflammatory factors in the mouse model of ear inflammation.Conclusion The fusion protein hPP10-Cu,Zn-SOD capable of penetrating the cell membrane possesses strong antioxidant and anti-inflammatory activities with only minimal cytotoxicity,demonstrating the value of hPP10 as an efficient drug delivery vector and the potential of hPP10-Cu,Zn-SOD in the development of skincare products

human cell membrane penetrating peptide hPP10Cu-Zn superoxide dismutase Cu,Zn-SODantioxidantanti-inflammatoryenzyme activity assay

张洁、姚君妍、杨英桂、王飞、郑清友、李欣、柳长柏

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运城护理职业学院,山西 运城 04400

南方医科大学深圳医院 麻醉手术中心,广东 深圳 518100

南方医科大学深圳医院 泌尿外科,广东 深圳 518100

海南省人民医院泌尿外科,海南 海口 570100

南方医科大学深圳医院 临床医学创新中心,广东 深圳 518100

三峡大学肿瘤微环境与免疫治疗湖北省重点实验室,湖北 宜昌 443002

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人源性细胞膜穿透肽hPP10 铜锌超氧化物歧化酶Cu,Zn-SOD 抗氧化 抗炎 酶活力测定

国家自然科学基金深圳市科技计划海南省重点研发项目基金(社发方向)

81902788JCYJ20210324130801004SQ2021SHFZ0739

2024

10.12122/j.issn.1673-4254.2024.06.06

南方医科大学学报
南方医科大学

南方医科大学学报

CSTPCD北大核心
影响因子:1.654
ISSN:1673-4254
年,卷(期):2024.44(6)
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