梅毒螺旋体对巨噬细胞极化的诱导作用

doi:10.35541/cjd.20210175

Abstract

Abstract: 【Abstract】 Objective To investigate the phagocytosis of Treponema pallidum （Tp） by macrophages and the polarization direction of macrophages after Tp stimulation. Methods Human THP-1 monocyte-derived M0 macrophages were stimulated with the Tp Nichols strain, and the phagocytosis of Tp by macrophages and changes in the intracellular structure of macrophages were observed by transmission electron microscopy and immunofluorescence staining. After 12-hour stimulation by Tp, Tp was removed, the M0 macrophages continued to be cultured for 24, 48, 72 hours and 6 days. Western blot analysis and immunofluorescence staining were performed to determine the expression of the M1 macrophage marker CD86 and M2 macrophage marker CD163, and enzyme-linked immunosorbent assay was conducted to detect levels of M1-type cytokines interleukin （IL）-12 p70, interferon （IFN）- γ, chemokine ligand 10 （CXCL10）, IL-6, tumor necrosis factor （TNF）-α and IL-1β, as well as the M2-type cytokine transforming growth factor （TGF）-β1 in the culture supernatant of macrophages. Dunnett-t test was used for multiple comparisons. Results As transmission electron microscopy showed, after the stimulation by Tp, the macrophages extended pseudopodia and engulfed Tp, leading to swelling and obviously irregular hyperplasia of endoplasmic reticulum as well as enlargement of mitochondria. Moreover, after additional culture for 24, 48, 72 hours and 6 days, CD86 was highly expressed, but CD163 was lowly expressed in the Tp-treated macrophages; at 24 hours, the supernatant levels of IL-12 p70, IFN-γ, CXCL10, IL-6, TNF-α and IL-1β were significantly higher in the Tp-treated group than in the control group （all P＜0.001）, but there was no significant difference in the TGF-β1 supernatant level between the 2 groups （P＞0.05）. Conclusions After engulfment of Tp, the structures of endoplasmic reticulum and mitochondria in THP-1-derived macrophages markedly changed. Tp could induce the polarization of M0 macrophages into M1 macrophages, and phenotypic switch from M1 to M2 macrophage polarization was not observed within 6 days after Tp stimulation.

Key words: Treponema pallidum, Macrophage activation, Cell differentiation, Cytokines, Inflammation

Zhang Haini, Kou Caixia, Liu Jinquan, Zhang Ruihua, Ma Yinni, Zhang Ruili, Wang Qianqiu. Inductive effect of Treponema pallidum on macrophage polarization[J]. Chinese Journal of Dermatology, 2021, 54(8): 688-695.doi:10.35541/cjd.20210175

References ［37］

［1］	Mily A, Kalsum S, Loreti MG, et al. Polarization of M1 and M2 human monocyte⁃derived cells and analysis with flow cytometry upon Mycobacterium tuberculosis Infection［J］. J Vis Exp, 2020,（163）doi: 10.3791/61807.
［2］	Peeling RW, Mabey D, Kamb ML, et al. Syphilis［J］. Nat Rev Dis Primers, 2017,3:17073. doi: 10.1038/nrdp.2017.73.
［3］	Huang Z, Luo Q, Guo Y, et al. Mycobacterium tuberculosis⁃induced polarization of human macrophage orchestrates the formation and development of tuberculous granulomas in vitro［J/OL］. PLoS One, 2015,10（6）:e0129744. doi: 10.1371/journal.pone.0129744.
［4］	Byndloss MX, Tsai AY, Walker GT, et al. Brucella abortus infection of placental trophoblasts triggers endoplasmic reticulum stress⁃mediated cell death and fetal loss via type iv secretion system⁃dependent activation of CHOP［J］. mBio, 2019,10（4）. doi: 10.1128/mBio.01538⁃19.
［5］	Rashid HO, Yadav RK, Kim HR, et al. ER stress: autophagy induction, inhibition and selection［J］. Autophagy, 2015,11（11）:1956⁃1977. doi: 10.1080/15548627.2015.1091141.
［6］	Moretti J, Blander JM. Cell⁃autonomous stress responses in innate immunity［J］. J Leukoc Biol, 2017,101（1）:77⁃86. doi: 10. 1189/jlb.2MR0416⁃201R.
［7］	许卜方, 王千秋, 张津萍, 等. 梅毒螺旋体诱导巨噬细胞分泌的外泌体特征及其对人脐静脉内皮细胞增殖的影响［J］. 中华皮肤科杂志, 2018,51（5）:341⁃346. doi: 10.3760/cma.j.issn. 0412⁃4030.2018.05.005.
［8］	Chanput W, Mes JJ, Savelkoul HF, et al. Characterization of polarized THP⁃1 macrophages and polarizing ability of LPS and food compounds［J］. Food Funct, 2013,4（2）:266⁃276. doi: 10. 1039/c2fo30156c.
［9］	Cruz AR, Ramirez LG, Zuluaga AV, et al. Immune evasion and recognition of the syphilis spirochete in blood and skin of secondary syphilis patients: two immunologically distinct compartments［J］. PLoS Negl Trop Dis, 2012,6（7）:e1717. doi: 10.1371/journal.pntd.0001717.
［10］	Lukehart SA. Activation of macrophages by products of lymphocytes from normal and syphilitic rabbits［J］. Infect Immun, 1982,37（1）:64⁃69. doi: 10.1128/IAI.37.1.64⁃69.1982.
［11］	Hawley KL, Cruz AR, Benjamin SJ, et al. IFNγ enhances CD64⁃potentiated phagocytosis of Treponema pallidum opsonized with human syphilitic serum by human macrophages［J］. Front Immunol, 2017,8:1227. doi: 10.3389/fimmu.2017.01227.
［12］	张晓东, 脱朝伟, 王德权等. 巨噬细胞内梅毒螺旋体的超微形态计量学研究［J］. 辽宁医学杂志, 2003,17（1）:15⁃16. doi: 10. 3969/j.issn.1001⁃1722.2003.01.008.
［13］	Naj X, Linder S. Actin⁃dependent regulation of Borrelia burgdorferi phagocytosis by macrophages［J］. Curr Top Microbiol Immunol, 2017,399:133⁃154. doi: 10.1007/82_2016_26.
［14］	Hoffman W, Lakkis FG, Chalasani G. B cells, antibodies, and more［J］. Clin J Am Soc Nephrol, 2016,11（1）:137⁃154. doi: 10. 2215/CJN.09430915.
［15］	Unanue ER, Askonas BA. The immune response of mice to antigen in macrophages［J］. Immunology, 1968,15（2）:287⁃296.
［16］	Kahlert H, Grage⁃Griebenow E, Stüwe HT, et al. T cell reactivity with allergoids: influence of the type of APC［J］. J Immunol, 2000,165（4）:1807⁃1815. doi: 10.4049/jimmunol.165.4.1807.
［17］	Grover S, Sharma T, Singh Y, et al. The PGRS domain of Mycobacterium tuberculosis PE_PGRS protein Rv0297 is involved in endoplasmic reticulum stress⁃mediated apoptosis through Toll⁃like receptor 4［J］. mBio, 2018,9（3）:e01017⁃18. doi: 10.1128/mBio.01017⁃18.
［18］	Muriach M, Flores⁃Bellver M, Romero FJ, et al. Diabetes and the brain: oxidative stress, inflammation, and autophagy［J］. Oxid Med Cell Longev, 2014,2014:102158. doi: 10.1155/2014/102158.
［19］	Li W, Zhou X, Cai J, et al. Recombinant Treponema pallidum protein Tp0768 promotes proinflammatory cytokine secretion of macrophages through ER stress and ROS/NF⁃κB pathway［J］. Appl Microbiol Biotechnol, 2021,105（1）:353⁃366. doi: 10.1007/s00253⁃020⁃11018⁃8.
［20］	Duan L, Gan H, Golan DE, et al. Critical role of mitochondrial damage in determining outcome of macrophage infection with Mycobacterium tuberculosis［J］. J Immunol, 2002,169（9）:5181⁃5187. doi: 10.4049/jimmunol.169.9.5181.
［21］	Peeling RW, Mabey D, Kamb ML, et al. Syphilis［J］. Nat Rev Dis Primers, 2017,3:17073. doi: 10.1038/nrdp.2017.73.
［22］	Parveen N, Fernandez MC, Haynes AM, et al. Non⁃pathogenic Borrelia burgdorferi expressing Treponema pallidum TprK and Tp0435 antigens as a novel approach to evaluate syphilis vaccine candidates［J］. Vaccine, 2019,37（13）:1807⁃1818. doi: 10.1016/j.vaccine.2019.02.022.
［23］	Grillová L, Bawa T, Mikalová L, et al. Molecular characterization of Treponema pallidum subsp. pallidum in Switzerland and France with a new multilocus sequence typing scheme［J］. PLoS One, 2018,13（7）:e0200773. doi: 10.1371/journal.pone.0200773.
［24］	Giacani L, Denisenko O, Tompa M, et al. Identification of the Treponema pallidum subsp. pallidum TP0092 （RpoE） regulon and its implications for pathogen persistence in the host and syphilis pathogenesis［J］. J Bacteriol, 2013,195（4）:896⁃907. doi: 10.1128/JB.01973⁃12.
［25］	Fitzgerald TJ. The Th1/Th2⁃like switch in syphilitic infection: is it detrimental?［J］. Infect Immun, 1992,60（9）:3475⁃3479. doi: 10.1128/IAI.60.9.3475⁃3479.1992.
［26］	Xia W, Zhao J, Su B, et al. Syphilitic infection impairs immunity by inducing both apoptosis and pyroptosis of CD4（+） and CD8（+） T lymphocytes［J］. Innate Immun, 2021,27（1）:99⁃106. doi: 10.1177/1753425920952840.
［27］	Lim YJ, Choi JA, Lee JH, et al. Mycobacterium tuberculosis 38⁃kDa antigen induces endoplasmic reticulum stress⁃mediated apoptosis via toll⁃like receptor 2/4［J］. Apoptosis, 2015,20（3）:358⁃370. doi: 10.1007/s10495⁃014⁃1080⁃2.
［28］	Jouanguy E, Döffinger R, Dupuis S, et al. IL⁃12 and IFN⁃gamma in host defense against mycobacteria and salmonella in mice and men［J］. Curr Opin Immunol, 1999,11（3）:346⁃351. doi: 10. 1016/s0952⁃7915（99）80055⁃7.
［29］	Rottenberg ME, Gigliotti⁃Rothfuchs A, Wigzell H. The role of IFN⁃gamma in the outcome of chlamydial infection［J］. Curr Opin Immunol, 2002,14（4）:444⁃451. doi: 10.1016/s0952⁃7915（02）00361⁃8.
［30］	Shaughnessy LM, Swanson JA. The role of the activated macrophage in clearing Listeria monocytogenes infection［J］. Front Biosci, 2007,12:2683⁃2692. doi: 10.2741/2364.
［31］	Martinez FO, Gordon S. The M1 and M2 paradigm of macrophage activation: time for reassessment［J］. F1000Prime Rep, 2014,6:13. doi: 10.12703/P6⁃13.
［32］	彭卓颖, 李想, 丛喆, 等. 流式细胞术分析PMA诱导THP⁃1分化为巨噬细胞的表型特征［J］. 中国比较医学杂志, 2017,27（10）:10⁃15,22. doi: 10.3969.j.issn.1671⁃7856.2017.10.003.
［33］	Shapouri⁃Moghaddam A, Mohammadian S, Vazini H, et al. Macrophage plasticity, polarization, and function in health and disease［J］. J Cell Physiol, 2018,233（9）:6425⁃6440. doi: 10.1002/jcp.26429.
［34］	Pidwill GR, Gibson JF, Cole J, et al. The role of macrophages in Staphylococcus aureus infection［J］. Front Immunol, 2020,11:620339. doi: 10.3389/fimmu.2020.620339.
［35］	Huang Z, Luo Q, Guo Y, et al. Mycobacterium tuberculosis⁃induced polarization of human macrophage orchestrates the formation and development of tuberculous granulomas in vitro［J］. PLoS One, 2015,10（6）:e0129744. doi: 10.1371/journal.pone.0129744.
［36］	Lukehart SA, Shaffer JM, Baker⁃Zander SA. A subpopulation of Treponema pallidum is resistant to phagocytosis: possible mechanism of persistence［J］. J Infect Dis, 1992,166（6）:1449⁃1453. doi: 10.1093/infdis/166.6.1449.
［37］	Lin LR, Liu W, Zhu XZ, et al. Treponema pallidum promotes macrophage polarization and activates the NLRP3 inflammasome pathway to induce interleukin⁃1β production［J］. BMC Immunol, 2018,19（1）:28. doi: 10.1186/s12865⁃018⁃0265⁃9.

[1]	Hu Mengyao, Li Min, Chen Sihan, Wei Xuecui, Chen Yujie, Xu Song, Chen Xu, . Different regulatory effects of S100A8/A9 expressed by keratinocytes in three common inflammatory skin injury modes [J]. Chinese Journal of Dermatology, 2024, 57(5): 435-444.
[2]	Dou Jinfa, Wang Jianbo, Zhang Shuai, Li Jianguo, Liu Hongwei, Zhang Shoumin. Analysis of disease progression and influencing factors in patients with moderate to severe plaque psoriasis receiving biologic therapy during the coronavirus disease 2019 pandemic: a single-center cross-sectional study [J]. Chinese Journal of Dermatology, 2024, 0(2): 20230167-e20230167.
[3]	Wei Ziyu, Yang Yong. Role of ion channels in the pathogenesis of rosacea [J]. Chinese Journal of Dermatology, 2024, 57(2): 174-177.
[4]	Chen Chunli, Yan Siyu, Wang Dan, Gao Lihua, Tan Lina, Tang Siyuan, Liu Wei, Zeng Jinrong, Lu Jianyun, . Efficacy of acidified aliphatic ester in the treatment of atopic dermatitis in mouse models and preliminary exploration of its mechanisms of action [J]. Chinese Journal of Dermatology, 2023, 56(9): 822-831.
[5]	Committee on Sexually Transmitted Diseases, China Dermatologist Association. Expert consensus on clinical management of serofast state in syphilis （2023） [J]. Chinese Journal of Dermatology, 2023, 56(5): 383-388.
[6]	Lian Panpan, Liu Jun, Su Zhonglan, Wang Hongwei. Effect of peroxisome proliferator-activated receptor γ on skin physiological and pathological processes [J]. Chinese Journal of Dermatology, 2023, 56(4): 365-368.
[7]	Shen Yuqing, Song Xiuzu. Ultraviolet and androgenetic alopecia [J]. Chinese Journal of Dermatology, 2023, 0(2): 20210949-e20210949.
[8]	Zhao Ying, Zhang Xiaoyan, Chen Lu, Su Yuhua, Ding Yujie, Leng Hong, Ji Jiang. Predictive factors for the efficacy of omalizumab in the treatment of refractory chronic spontaneous urticaria [J]. Chinese Journal of Dermatology, 2023, 56(1): 22-28.
[9]	Huang Yaxin, He Yuanmin, Huang Shuli, Xiong Xia, Deng Yongqiong. An investigation into clinical significance of serum chitinase 3-like protein 1 in pemphigus vulgaris [J]. Chinese Journal of Dermatology, 2022, 55(6): 523-527.
[10]	Liu Yixuan, Jiang Peiyu, Liu Yunyi, Zhang Jiawen, Tao Meng, Li Min, Xu Yang. Mechanism of neurogenic inflammation and botulinum toxin treatment in rosacea [J]. Chinese Journal of Dermatology, 2022, 55(6): 552-554.
[11]	Working Group for Atopic Dermatitis, Chinese Society of Dermatology, Working Group for Children′s Diseases, Chinese Society of Dermatology. Treatment of atopic dermatitis with dupilumab: an expert consensus [J]. Chinese Journal of Dermatology, 2022, 55(6): 465-470.
[12]	Li Wei, Yin Huibin. Heterogeneity across skin sites in atopic dermatitis [J]. Chinese Journal of Dermatology, 2022, 55(4): 349-352.
[13]	Wang Ao, Yao Xu. Mechanisms of pruritus in atopic dermatitis [J]. Chinese Journal of Dermatology, 2022, 55(4): 357-361.
[14]	Xie Xiaoyuan, Liu Fang, Chen Huan, Xu Jie, Kong Qingtao, Sang Hong. A preliminary study on the relationship between in vivo metal implants and acquired palmoplantar keratodermas [J]. Chinese Journal of Dermatology, 2022, 55(10): 869-873.
[15]	Lin Luyang, Chen Zhengliang, Zhang Xibao. Major immune-related cells in psoriasis vulgaris lesions [J]. Chinese Journal of Dermatology, 2021, 54(9): 830-834.

Inductive effect of Treponema pallidum on macrophage polarization

PDF

PDF (Mobile)

Knowledge

Abstract

Cite this article

share this article

References ［37］

Related Articles 15

Metrics

Comments

Recommended 10