结核分枝杆菌EsxV/W融合蛋白对耻垢分枝杆菌表型及巨噬细胞功能的影响

大理大学学报 ›› 2024, Vol. 9 ›› Issue (2): 32-38.

结核分枝杆菌EsxV/W融合蛋白对耻垢分枝杆菌表型及巨噬细胞功能的影响

余海燕，李玉洁，任　芹，杨国平*

（大理大学基础医学院，云南大理　671000）

收稿日期:2023-06-20 修回日期:2023-07-10 出版日期:2024-02-15 发布日期:2024-02-23
通讯作者: 杨国平，副教授，博士，E-mail：qjygpp33@163.com。
作者简介:余海燕，硕士研究生，主要从事感染免疫研究。
基金资助:
云南省地方本科高校基础研究联合专项资金项目（2017FH001-085）；大理大学高层次人才资助项目（KYBS201708）

Effects of Mycobacterium tuberculosis EsxV/W Fusion Protein on the Phenotype of Mycolicibacterium smegmatis and Macrophage Function

Yu Haiyan, Li Yujie, Ren Qin, Yang Guoping*

（Pre-clinical College, Dali University, Dali, Yunnan 671000, China）

Received:2023-06-20 Revised:2023-07-10 Online:2024-02-15 Published:2024-02-23

摘要/Abstract

摘要： 目的：构建表达结核分枝杆菌EsxV/W融合蛋白的重组耻垢分枝杆菌（MS），分析重组MS的表型及对巨噬细胞功能的
影响。方法：原核表达获取EsxV/W融合蛋白，纯化后免疫小鼠制备多克隆抗体；电击转化法构建重组菌株MS-EsxV/W及空载
菌株MS-vec，使用制备的多克隆抗体检测融合蛋白在MS中的表达；分析表达EsxV/W融合蛋白的重组MS的菌落形态、生物膜
及生长速率；菌落计数法检测重组MS在溶菌酶、孔雀绿、低pH、SDS、H2O2、NaNO2等不同环境条件下的存活能力，分析EsxV/W
融合蛋白对MS表型的影响；重组MS侵染ANA-1巨噬细胞，Griess法检测ANA-1细胞 NO的释放量，酶联免疫吸附实验检测
ANA-1细胞肿瘤坏死因子-α（TNF-α）及白细胞介素-6（IL-6）的释放量，菌落计数法检测重组MS在ANA-1细胞内的存活能
力。结果：成功构建能表达EsxV/W融合蛋白的重组菌株MS-EsxV/W，表达EsxV/W融合蛋白对MS的菌落形态、生物膜形成及
生长速率无显著影响；表达EsxV/W融合蛋白不改变MS对溶菌酶、孔雀绿与低pH的耐受力，但可降低对SDS的耐受力，增强对
H2O2与NaNO2的耐受力；侵染ANA-1细胞一定时间后，与MS-vec比较，MS-EsxV/W侵染的ANA-1细胞NO、TNF-α、IL-6释放
量明显增加，且MS-EsxV/W的细胞内存活能力高于MS-vec。结论：EsxV/W融合蛋白可改变MS的表型并调控ANA-1巨噬细
胞的免疫应答反应，有助于后续对esxV/W 基因功能的探究。

关键词: 结核分枝杆菌, 耻垢分枝杆菌, EsxV/W融合蛋白, ANA-1细胞

Abstract: Objective：To construct recombinant Mycolicibacterium smegmatis（MS） expressing Mycobacterium tuberculosis EsxV/W
fusion protein and analyze the phenotype of the recombinant MS and its effect on the macrophage function. Methods: The EsxV/W
fusion protein was obtained by prokaryotic expression, and polyclonal antibody was prepared by immunizing mice with purified EsxV/W
fusion protein. The recombinant strain MS-EsxV/W and the control strain MS-vec were constructed by electroporation, and the
expression of the fusion protein in MS was detected by using the generated polyclonal antibody. The colony morphology, biofilm
formation, and growth rate of the recombinant MS expressing EsxV/W fusion protein were analyzed. The survival ability of the
recombinant MS under different conditions, such as lysozyme, malachite green, low pH, SDS, H2O2 and NaNO2, was determined using
colony counting method to assess the impact of EsxV/W fusion protein on the phenotype of MS. The recombinant MS was used to infect
ANA-1 macrophages. The release of NO from ANA-1 cells was detected by Griess method. Enzyme-linked immunosorbent assay was
performed to measure the release of tumor necrosis factor-α （TNF-α） and interleukin-6 （IL-6） from ANA-1 cells, and the survival
ability of the recombinant MS in ANA-1 cells was determined using colony counting method. Results：The recombinant strain MSEsxV/
W expressing EsxV/W fusion protein, was successfully constructed. The expression of EsxV/W fusion protein had no significant
effect on the colony morphology, biofilm formation and growth rate of MS. The expression of EsxV/W fusion protein did not change the
tolerance of MS to lysozyme, malachite green or low pH, but decreased the tolerance to SDS and increased the tolerance to H2O2 and
NaNO2. After infecting ANA-1 cells for a certain period of time, the release of NO, TNF-α and IL-6 in ANA-1 cells infected by MSEsxV/
W was significantly increased compared with MS-vec, and the intracellular survival ability of MS-EsxV/W was higher than that
of MS-vec. Conclusion：The EsxV/W fusion protein can change the phenotype of MS and regulate the immune response of ANA-1
macrophages, which is conducive to the subsequent investigation of the function of esxV/W gene

Key words: Mycobacterium tuberculosis, Mycolicibacterium smegmatis, EsxV/W fusion protein, ANA-1 cells

中图分类号:

R392.12

余海燕, 李玉洁, 任　芹, 杨国平. 结核分枝杆菌EsxV/W融合蛋白对耻垢分枝杆菌表型及巨噬细胞功能的影响[J]. 大理大学学报, 2024, 9(2): 32-38.

Yu Haiyan, Li Yujie, Ren Qin, Yang Guoping. Effects of Mycobacterium tuberculosis EsxV/W Fusion Protein on the Phenotype of Mycolicibacterium smegmatis and Macrophage Function[J]. Journal of Dali University, 2024, 9(2): 32-38.

参考文献

〔1〕 FINE P E M. Variation in Protection by BCG： Implications
of and for Heterologous Immunity〔J〕. Lancet，1995，346
（8986）：1339-1345.
〔2〕 CRAMPIN A C，GLYNN J R，FINE P E M. What Has
Karonga Taught Us? Tuberculosis Studied over Three De⁃
cades〔J〕. Int J Tuberc Lung Dis，2009，13（2）：153-164.
〔3〕 BEHR M A，WILSON M A，GILL W P，et al. Comparative
Genomics of BCG Vaccines by Whole Genome DNA Micro⁃
array〔J〕. Science，1999，284（5419）：1520-1523.
〔4〕 MUSTAFA A S. Vaccine Potential of Mycobacterium
tuberculosis-Specific Genomic Regions：In vitro Studies in
Humans〔J〕. Expert Rev Vaccines，2009，8（10）：1309-
1312.

〔5〕 MUSTAFA A S. Immunological Characterization of Proteins

Expressed by Genes Located in Mycobacterium tuberculosis-
Specific Genomic Regions Encoding the ESAT6-Like Pro⁃
teins〔J〕. Vaccines，2021，9（1）：27.
〔6〕 SAFAR H A，EL-HASHIM A Z，AMOUDY H，et al. Myco⁃
bacterium tuberculosis-Specific Antigen Rv3619c Effec⁃
tively Alleviates Allergic Asthma in Mice〔J〕. Front Phar⁃
macol，2020，11：532199.
〔7〕 OSMAN M M，SHANAHAN J K，CHU F，et al. The C Ter⁃
minus of the Mycobacterium ESX-1 Secretion System Sub⁃
strate ESAT-6 Is Required for Phagosomal Membrane Dam⁃
age and Virulence〔J〕. Proc Natl Acad Sci USA，2022，119
（11）：e2122161119.
〔8〕 JUNG B G，WANG X S，YI N，et al. Early Secreted
Antigenic Target of 6-kDa of Mycobacterium tuberculosis
Stimulates IL-6 Production by Macrophages through Acti⁃
vation of STAT3〔J〕. Sci Rep，2017，7：40984.
〔9〕 JANG A R，CHOI J H，SHIN S J，et al. Mycobacterium
tuberculosis ESAT6 Induces IFN- β Gene Expression in
Macrophages via TLRS-Mediated Signaling〔J〕. Cytokine，
2018，104：104-109.
〔10〕 T J A S，J R，RAJAN A，et al. Features of the Biochemis⁃
try of Mycobacterium smegmatis，as a Possible Model for
Mycobacterium tuberculosis〔J〕. J Infect Public Health，
2020，13（9）： 1255-1264.
〔11〕 MARMIESSE M，BRODIN P，BUCHRIESER C，et al.
Macro-Array and Bioinformatic Analyses Reveal Myco⁃
bacterial ‘Core’ Genes，Variation in the ESAT-6 Gene
Family and New Phylogenetic Markers for the Mycobacte⁃
rium tuberculosis Complex〔J〕. Microbiology （Reading），
2004，150（Pt2）：483-496.
〔12〕 ZHANG M M，ZHAO J W，SUN Z Q，et al. Identification
of RD5-Encoded Mycobacterium tuberculosis Proteins as
B-Cell Antigens Used for Serodiagnosis of Tuberculo⁃
sis〔J〕. Clin Dev Immunol，2012，2012：738043.
〔13〕 MOHANTY S，DAL MOLIN M，GANGULI G，et al. Myco⁃
bacterium tuberculosis EsxO （Rv2346c） Promotes Bacil⁃
lary Survival by Inducing Oxidative Stress Mediated
Genomic Instability in Macrophages〔J〕. Tuberculosis，
2016，96：44-57.
〔14〕 SAFAR H A，MUSTAFA A S，AMOUDY H A，et al. The
Effect of Adjuvants and Delivery Systems on Th1，Th2，
Th17 and Treg Cytokine Responses in Mice Immunized
with Mycobacterium tuberculosis-Specific Proteins〔J〕.
PLoS One，2020，15（2）：e0228381.

[1]	李祥芳, 王　瑄, 丁寿鹏, 马枫茜, 吴利先. 分枝杆菌感染性肺病患者细胞因子和急性蛋白检测的临床意义分析 [J]. 大理大学学报, 2023, 8(10): 68-71.
[2]	张镜兰, 陈　冉. Xpert MTB/RIF在肺结核病诊断及利福平耐药性检测中的验证性分析[J]. 大理大学学报, 2021, 6(10): 63-.
[3]	李萍，李丛哲，吴利先. 不同毒力结核分枝杆菌诱导小鼠树突状细胞凋亡差异分析[J]. 大理大学学报, 2020, 5(10): 35-39.
[4]	郝贤斌, 聂恒, 王旭东, 吴利先. PFGE 法在HIV/Mtb双重感染者Mtb基因分型中的应用研究[J]. , 2019, 4(4): 26-30.
[5]	聂恒, 高志芳, 吴利先. 结核分枝杆菌MTB8.1蛋白自诱导发酵研究[J]. J4, 2014, 13(8): 18-22.
[6]	董毅, 吴利先. VNTR技术用于大理地区结核分枝杆菌基因分型的研究[J]. J4, 2014, 13(8): 23-25.
[7]	邓仪昊, 何红云, 王勇. 结核分枝杆菌ESX-1分泌系统的研究进展[J]. J4, 2012, 11(12): 20-23.