基于转录组的美国长脚蕨细胞重组蛋白表达分子机制分析。

Chenjing Ma, Xin Zhang, Xian Li, Weifeng Ding, Hang Chen, Ying Feng
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摘要

昆虫细胞-杆状病毒表达载体系统(IC-BEVS)被广泛用于生产各种基因产品,包括蛋白质、疫苗和基因治疗载体;然而,它也有一些局限性,包括宿主范围有限和蛋白质产量低。在之前的一项研究中,我们建立了 RIRI-PA1 细胞系,该细胞系来源于 Periplaneta americana。与常用的工程细胞系 Sf21 相比,该细胞系易受 Autographa californica 多核多面体病毒(AcMNPV)感染,因此能在感染后 24-48 小时的短时间内获得更高的重组蛋白产量。为了阐明这一现象的基础,我们使用 RNA 测序和转录组分析方法,对感染 AcMNPV-GFP 的 RIRI-PA1 和 Sf21 细胞进行了感染后 24、72 和 168 小时的分析。在这两种细胞系中都发现了差异表达基因(DEGs)。利用 GO、eggNOG 和 KEGG 注释分析确定 DEGs,并筛选出可能调控重组蛋白表达的候选基因。结果表明,核糖体通路调控与重组蛋白表达之间存在重要联系。与 Sf21 细胞相比,RIRI-PA1 细胞在感染 AcMNPV-GFP 24 小时后产生的蛋白水平相对较高,而 Sf21 细胞中核糖体蛋白相关 DEGs 的富集程度较低(7:12)。此外,还观察到 AcMNPV-GFP 感染与重组蛋白合成之间的基因表达模式存在相关性,包括与核糖体、Toll 和 Imd 信号转导以及细胞色素 P450 通路相关的基因。总之,我们的研究结果表明,在 RIRI-PA1 感染的早期阶段,核糖体途径可能更多地参与了蛋白质表达的调控。这一过程的内在机制未来可能会应用于细胞改造工程,以缩短重组蛋白的生产时间,并促进 IC-BEVS 的使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transcriptome-based analysis of the molecular mechanism of recombinant protein expression in Periplaneta americana cells.

The Insect Cell-Baculovirus Expression Vector System (IC-BEVS) is widely used for the generation of a variety of gene products, including proteins, vaccines, and gene therapy vectors; however, it has some limitations, including a constrained host range and low protein yields. In a previous study, we established the RIRI-PA1 cell line, which was derived from Periplaneta americana. This cell line is susceptible to Autographa californica multiple nucleopolyhedrovirus (AcMNPV) infection, which results in a higher yield production of recombinant protein within a short post-infection period of 24-48 h compared to the commonly used engineered cell line Sf21. To elucidate the basis for this phenomenon, we used RNA sequencing and transcriptome analysis of RIRI-PA1 and Sf21 cells infected with AcMNPV-GFP at 24, 72, and 168 h post-infection. Differentially expressed genes (DEGs) were identified in both cell lines. GO, eggNOG, and KEGG annotation analyses were used to identify DEGs and select candidate genes that could regulate recombinant protein expression. The results indicated a significant link between ribosomal pathway regulation and recombinant protein expression. After 24 h of AcMNPV-GFP infection, relatively high levels of protein were produced in RIRI-PA1 cells compared to Sf21 cells, which exhibited lesser enrichment of ribosomal protein-related DEGs (7 : 12). Moreover, a correlation was observed in the gene expression patterns between AcMNPV-GFP infection and recombinant protein synthesis, including genes associated with the ribosome, Toll and Imd signaling, and the cytochrome P450 pathway. Overall, our findings suggested that the ribosomal pathway might be more involved in regulation of protein expression during the early stages of RIRI-PA1 infection. The mechanisms underlying this process could have potential future applications in engineering cell modifications to reduce production time for recombinant proteins and to promote the use of IC-BEVS.

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