小鼠念珠菌性阴道炎中维A酸相关孤儿受体、白细胞介素17表达

摘要/Abstract

摘要： 目的探讨Th17/白细胞介素（IL）17轴在小鼠念珠菌性阴道炎发病中作用。方法 120只雌性BALB/c小鼠随机分为雌激素感染组（Ei）、雌激素非感染组（En）、对照感染组（Ci）和对照非感染组（Cn）。Ei、En组在阴道接种前3 d于后腿皮下注射雌二醇0.05 mg，而Ci、Cn组皮下注射灭菌大豆油0.1 ml，以后隔日注射1次直至实验结束；Ei、Ci组在接种日在阴道内接种白念珠菌悬液10 μl（5 × 104个孢子），而En、Cn组阴道内注入10 μl无菌磷酸盐缓冲液。接种后3、7、14 d，每组于各时间点分别随机取10只小鼠处死，完整切取阴道组织作液氮冷冻或石蜡包埋，实时荧光定量PCR（qRT?PCR）、Western印迹和免疫荧光染色分别检测阴道组织中维A酸相关孤儿受体（ROR）γt、RORα、IL?17 mRNA、蛋白表达及免疫荧光强度。结果激光共聚焦显微镜显示，En、Cn组中RORγt、RORα和IL?17主要表达于阴道固有膜及血管中炎症细胞，Ci组中主要表达于黏膜上皮及其表面附着的菌丝、固有膜及血管中炎症细胞，Ei组中则广泛分布于黏膜上皮、固有膜及血管中炎症细胞、阴道腔和黏膜上皮中内吞菌丝。qRT?PCR和免疫荧光检查显示，En、Ci和Ei组中RORγt、RORα、IL?17 mRNA表达及其免疫荧光强度在相同时间点均显著高于Cn组（均P < 0.05），且Ei组显著高于En、Ci组（P < 0.05）；除Cn组外，其余各组中RORγt、RORα、IL?17 mRNA表达及其免疫荧光强度均随时间延长有增加的趋势，其中RORγt、RORα mRNA和免疫荧光强度及IL?17 mRNA一般在14 d时最高，而IL?17免疫荧光强度在7 d时最高（P < 0.05）。Western印迹显示，Ci、Ei组中RORγt和IL?17蛋白表达在相同时间点均明显高于Cn、En组（RORγt：F组别 = 45.685，P < 0.001；IL?17：F组别 = 29.655，P < 0.01），其中Ei组表达水平最高（P < 0.05），而Cn、En组表达差异无统计学意义（P > 0.05）；Ci、Ei组中二者表达均在感染后7 d明显上调，14 d无显著增加（RORγt：F时间 = 13.137，P < 0.001；IL?17：F时间 = 11.182，P < 0.001）。结论阴道念珠菌感染可上调RORγt、RORα、IL?17表达，提示Th17/IL?17轴可能参与BALB/c小鼠念珠菌性阴道炎发生。

Abstract: Luo Dan, Zhang Jin′e, Chen Rongyi, Yang Yanping, Zhou Ying, Fan Yiming Department of Dermatology, Affiliated Hospital of Guangdong Medical University, Zhanjiang 524001, Guangdong, China Corresponding author: Fan Yiming, Email: ymfan1963@163.com 【Abstract】 Objective To investigate the role of T helper 17 cells/interleukin-17 （Th17/IL-17） axis in the occurrence of vaginal candidiasis in mice. Methods A total of 120 female BALB/c mice were randomly and equally divided into Ei, En, Ci and Cn groups. Three days before vaginal inoculation, estrogen （Ei and En） groups and control （Ci and Cn） groups received subcutaneous injection of 0.05 mg estradiol and 0.1 ml sterilized soybean oil at the hind legs, respectively, and then the hormone treatment continued every other day until the end of experiment. Infected （Ei and Ci） groups and noninfected （En and Cn） groups were inoculated intravaginally with 10 μl （5 × 104 conidia） of Candida albicans suspension and 10 μl of sterilized phosphate-buffered saline, respectively. Ten mice were randomly selected from each group and sacrificed on day 3, 7 and 14 after inoculation. The intact vagina tissues were resected and then frozen in liquid nitrogen or embedded in paraffin. Real-time fluorescence-based quantitative PCR （qRT-PCR） and immunofluorescent staining were performed to measure mRNA and immunofluorescence intensities of retinoic acid-related orphan receptorγt （RORγt）, RORα and IL-17, respectively. Western blot analysis was conducted to determine protein of RORγt and IL-17. Results Laser scanning confocal microscopy showed that RORγt, RORα and IL-17 immunofluorescence was mainly located at inflammatory cells of the lamina propria and blood vessels in En and Cn groups, at mucosal epithelium, adherent hyphae, and inflammatory cells of the lamina propria and blood vessels in Ci group, and at mucosal epithelium, vaginal canal and endocytosed hyphae, and inflammatory cells of the lamina propria and blood vessels in Ei group. qRT-PCR and immunofluorescent staining uncovered that mRNA and immunofluorescence intensities of RORγt, RORα and IL-17 were significantly higher in En, Ci and Ei groups than in Cn group at the same time points （all P < 0.05）, as well as in the Ei group than in En and Ci groups （both P < 0.05）, and were increased gradually over time in En, Ci and Ei groups, but not in the Cn group. Additionally, mRNA and immunofluorescence intensities of RORγt and RORα and IL-17 generally peaked on day 14 after inoculation, while the immunofluorescence intensity of IL-17 peaked on day 7 （P < 0.05）. Western blot analysis revealed that protein of RORγt and IL-17 was significantly higher in the infected （Ei and Ci） groups than in the noninfected （En and Cn） groups at the same time points （RORγt: F = 45.685, P < 0.001; IL-17: F = 29.655, P < 0.01）, and was highest in the Ei group （P < 0.05）; however, no significant differences were observed between Cn and En groups （both P > 0.05）. Moreover, RORγt and IL-17 protein in Ci and Ei groups was obviously up-regulated on day 7 after inoculation （RORγt: F = 13.137, P < 0.001; IL-17: F = 11.182, P < 0.001）, but was not increased further on day 14. Conclusion Vaginal candida infection can up-regulate the of RORγt, RORα and IL-17, suggesting that Th17/IL-17 axis may be involved in the occurrence of vaginal candidiasis in BALB/c mice.

罗单张金娥陈嵘祎杨艳平周英樊翌明. 小鼠念珠菌性阴道炎中维A酸相关孤儿受体、白细胞介素17表达[J]. 中华皮肤科杂志, 2017, 50(1): 33-38.

参考文献 16

［1］	Chen RY, Fan YM, Zhang Q, et al. Estradiol inhibits Th17 cell differentiation through inhibition of RORγT transcription by recruiting the ERα/REA complex to estrogen response elements of the RORγT promoter［J］. J Immunol, 2015, 194（8）: 4019⁃4028. DOI: 10.4049/jimmunol.1400806.
［2］	Cook DN, Kang HS, Jetten AM. Retinoic acid⁃related orphan receptors （RORs）: regulatory functions in immunity, development, circadian rhythm, and metabolism［J］. Nucl Receptor Res, 2015, 2. pii: 101185. DOI: 10.11131/2015/101185.
［3］	Conti HR, Gaffen SL. IL⁃17⁃mediated immunity to the opportu⁃nistic fungal pathogen Candida albicans［J］. J Immunol, 2015, 195（3）: 780⁃788. DOI: 10.4049/jimmunol.1500909.
［4］	Yano J, Kolls JK, Happel KI, et al. The acute neutrophil response mediated by S100 alarmins during vaginal Candida infections is independent of the Th17⁃pathway［J］. PLoS One, 2012, 7（9）: e46311. DOI: 10.1371/journal.pone.0046311.
［5］	Pietrella D, Rachini A, Pines M, et al. Th17 cells and IL⁃17 in protective immunity to vaginal candidiasis［J］. PLoS One, 2011, 6（7）: e22770. DOI: 10.1371/journal.pone.0022770.
［6］	Zhang JE, Luo D, Chen RY, et al. Feasibility of histological scoring and colony count for evaluating infective severity in mouse vaginal candidiasis［J］. Exp Anim, 2013, 62（3）: 205⁃210.
［7］	Fidel PL. The protective immune response against vaginal candidiasis: lessons learned from clinical studies and animal models［J］. Int Rev Immunol, 2002, 21（6）: 515⁃548.
［8］	高涛, 陈嵘祎, 李文, 等. 孕激素在小鼠外阴阴道念珠菌病模型中的作用［J］. 中国皮肤性病学杂志, 2011, 25（4）: 268⁃270, 295.
［9］	Hernández⁃Santos N, Gaffen SL. Th17 cells in immunity to Candida albicans［J］. Cell Host Microbe, 2012, 11（5）: 425⁃435. DOI: 10.1016/j.chom.2012.04.008.
［10］	Zelante T, Iannitti RG, De Luca A, et al. Sensing of mammalian IL⁃17A regulates fungal adaptation and virulence［J］. Nat Commun, 2012, 3: 683. DOI: 10.1038/ncomms1685.
［11］	Kovats S. Estrogen receptors regulate innate immune cells and signaling pathways［J］. Cell Immunol, 2015, 294（2）: 63⁃69. DOI: 10.1016/j.cellimm.2015.01.018.
［12］	Fidel PL, Cutright J, Steele C. Effects of reproductive hormones on experimental vaginal candidiasis［J］. Infect Immun, 2000, 68（2）: 651⁃657.
［13］	Relloso M, Aragoneses⁃Fenoll L, Lasarte S, et al. Estradiol impairs the Th17 immune response against Candida albicans［J］. J Leukoc Biol, 2012, 91（1）: 159⁃165. DOI: 10.1189/jlb.1110645.
［14］	Khan D, Dai R, Karpuzoglu E, et al. Estrogen increases, whereas IL⁃27 and IFN⁃gamma decrease, splenocyte IL⁃17 production in WT mice［J］. Eur J Immunol, 2010, 40（9）: 2549⁃2556. DOI: 10.1002/eji.201040303.
［15］	Ghaleb M, Hamad M, Abu⁃Elteen KH. Vaginal T lymphocyte population kinetics during experimental vaginal candidosis: evidence for a possible role of CD8+ T cells in protection against vaginal candidosis［J］. Clin Exp Immunol, 2003, 131（1）: 26⁃33.
［16］	Chen XR, Liu YL, Xiao DZ, et al. Expression and significance of NF⁃κB, IL⁃1β and COX⁃2 in the murine model of estrogen⁃dependent experimental vulvovaginal candidiasis［J］. Journal of Reproduction and Contraception, 2007, 18（4）: 253⁃260.