产生UL128 shRNA转导的成纤维细胞,用于从临床人类巨细胞病毒分离株中释放无细胞病毒。

IF 2.2 4区 工程技术 Q3 BIOCHEMICAL RESEARCH METHODS BioTechniques Pub Date : 2023-11-01 Epub Date: 2023-10-17 DOI:10.2144/btn-2023-0046
Nina Weiler, Kerstin Laib Sampaio, Myriam Scherer, Christian Sinzger
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引用次数: 0

摘要

处理最近分离的人巨细胞病毒(HCMV)由于其严格的细胞相关生长和上清液中缺乏感染性而变得复杂。对无细胞生长的适应与病毒UL128基因座的破坏有关。作者用编码UL128特异性shRNA的慢病毒载体转导成纤维细胞,以在没有遗传改变的情况下释放无细胞感染性。将转导细胞与含有细胞相关分离物的成纤维细胞共培养,并通过免疫印迹验证UL128蛋白的敲除。与对照组相比,与UL128 shRNA共培养的分离物的无细胞感染性增加了1000倍,并且可以通过密度梯度纯化病毒粒子。转导的成纤维细胞还允许从临床标本中直接分离HCMV,并将其无细胞转移到其他细胞类型。总之,UL128 shRNA转导的成纤维细胞允许以前不适合最近分离株的应用。
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Generation of UL128-shRNA transduced fibroblasts for the release of cell-free virus from clinical human cytomegalovirus isolates.

Working with recent isolates of human cytomegalovirus (HCMV) is complicated by their strictly cell-associated growth with lack of infectivity in the supernatant. Adaptation to cell-free growth is associated with disruption of the viral UL128 gene locus. The authors transduced fibroblasts with a lentiviral vector encoding UL128-specific-shRNA to allow the release of cell-free infectivity without genetic alteration. Transduced cells were cocultured with fibroblasts containing cell-associated isolates, and knockdown of the UL128 protein was validated by immunoblotting. Cell-free infectivity increased 1000-fold in isolate cocultures with UL128-shRNA compared with controls, and virions could be purified by density gradients. Transduced fibroblasts also allowed direct isolation of HCMV from a clinical specimen and cell-free transfer to other cell types. In conclusion, UL128-shRNA-transduced fibroblasts allow applications previously unsuitable for recent isolates.

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来源期刊
BioTechniques
BioTechniques 工程技术-生化研究方法
CiteScore
4.40
自引率
0.00%
发文量
68
审稿时长
3.3 months
期刊介绍: BioTechniques is a peer-reviewed, open-access journal dedicated to publishing original laboratory methods, related technical and software tools, and methods-oriented review articles that are of broad interest to professional life scientists, as well as to scientists from other disciplines (e.g., chemistry, physics, computer science, plant and agricultural science and climate science) interested in life science applications for their technologies. Since 1983, BioTechniques has been a leading peer-reviewed journal for methods-related research. The journal considers: Reports describing innovative new methods, platforms and software, substantive modifications to existing methods, or innovative applications of existing methods, techniques & tools to new models or scientific questions Descriptions of technical tools that facilitate the design or performance of experiments or data analysis, such as software and simple laboratory devices Surveys of technical approaches related to broad fields of research Reviews discussing advancements in techniques and methods related to broad fields of research Letters to the Editor and Expert Opinions highlighting interesting observations or cautionary tales concerning experimental design, methodology or analysis.
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