文章摘要
张晓晓,张 勇,徐 溪,王高文,张 艳,吕 行,吴 朔.脐带间充质干细胞(HUC-MSCs)质体(Cytoplast)来源CD64过表达纳米囊泡的构建方法研究[J].,2024,(7):1209-1215
脐带间充质干细胞(HUC-MSCs)质体(Cytoplast)来源CD64过表达纳米囊泡的构建方法研究
The Construction of CD64 (FcγRI) Coated Nanovesicle From the Cytoplast of Human Umbilical Cord Mesenchymal Stem Cells (HUC-MSCs)
投稿时间:2023-12-08  修订日期:2023-12-31
DOI:10.13241/j.cnki.pmb.2024.07.002
中文关键词: 脐带间充质干细胞(HUC-MSCs)  细胞质体(Cytoplast)  纳米囊泡  CD64(FcγRI)
英文关键词: Human umbilical cord mesenchymal stem cells(HUC-MSCs)  Cytoplast  Nanovesicle  CD64(FcγRI)
基金项目:国家自然科学基金青年项目(81902316)
作者单位E-mail
张晓晓 西京医院呼吸与危重症医学科 陕西 西安 710032 281166325@qq.com 
张 勇 西京医院呼吸与危重症医学科 陕西 西安 710032  
徐 溪 西京医院呼吸与危重症医学科 陕西 西安 710032  
王高文 西京医院呼吸与危重症医学科 陕西 西安 710032  
张 艳 西京医院呼吸与危重症医学科 陕西 西安 710032  
吕 行 西京医院呼吸与危重症医学科 陕西 西安 710032  
吴 朔 西京医院呼吸与危重症医学科 陕西 西安 710032  
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中文摘要:
      摘要 目的:人脐带间充质干细胞(HUC-MSCs)来源的纳米颗粒可通过多种载药方式用于药物靶向,是近年来医药领域的研究热点。本文应用过表达CD64(FcγRI)的脐带间充质干细胞(HUC-MSCs)细胞质体(Cytoplast)为原料,制备可装载IgG1/IgG3靶向抗体的纳米囊泡,并检测纳米囊泡的入胞效率。方法:应用组织块培养法分离HUC-MSCs;建立pLV-CD64慢病毒包装载体并包装慢病毒,用慢病毒感染HUC-MSCs并筛选稳定表达CD64的细胞株;通过细胞松胞菌素B共孵育/离心法去除HUC-MSCs细胞核获得质体;超声法和梯度挤出法制备直径约200 nm的囊泡;将纳米囊泡与抗EGFR的IgG1抗体共孵育以装载靶向抗体,并观察该纳米囊泡进入A549细胞的入胞效率变化。结果:成功获得稳定表达CD64的HUC-MSCs质体,制备装载EGFR抗体的纳米囊泡(粒径为195±82 nm)并有效提高了该囊泡对靶细胞的入胞效率。结论:成功构建可装载IgG1抗体的纳米微泡,该纳米囊泡可高效进入表达EGFR的A549靶细胞。
英文摘要:
      ABSTRACT Objective: The nanovesicle derived from human umbilical cord mesenchymal stem cells (HUC-MSCs) can be used for drug targeting through a variety of methods. The aim of this study is to construct the CD64 (FcγRI) coated nanovesicle from the HUC-MSCs, and to detect the efficiency of antibodies (IgG1/IgG3) loading and cell entry of the nanovesicle. Methods: HUC-MSCs were isolated by tissue-cutting and cell culture method; A pLV-CD64 lentivirus packaging vector was established and packaged in the lentivirus; The lentivirus was transfected into HUC-MSCs, and the cell line that stably express CD64 was selected; The CD64 expressing HUC-MSCs was denuclearizated using the cytochalasin B co-incubation/centrifugation method; The nanovesicle with a diameter of approximately 200 nm was generated by ultrasound and gradient extrusion methods. The nanovesicle was co-incubated with anti-EGFR IgG1 antibodies for antibody loading, and the entry efficiency of the nanovesicle was investigated in A549 cells. Results: The nanovesicle with the diameter of 195±82 nm, was obtained using the cytoplast of HUC-MSCs. The nanovesicle was stably expressing CD64 and successfully loaded with EGFR antibody; The modification effectively improved the entry efficiency of the nanovesicle for target cells. Conclusion: A nanovesicle with the capable of loading IgG1 antibodies was constructed, which could efficiently improve its entry efficiency for target cells.
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