二甲双胍对银屑病样小鼠模型皮损炎症状态及磷酸化Stat3蛋白表达的影响

doi:10.3760/cma.j.issn.0412-4030.2019.07.006

摘要/Abstract

摘要： 【摘要】目的探讨二甲双胍对咪喹莫特诱导的小鼠银屑病样模型的影响及相关机制。方法将50只雄性Balb/c小鼠随机分为对照组、咪喹莫特组、咪喹莫特联合二甲双胍组（IM-Met组），其中IM-Met组根据二甲双胍干预浓度差异（100、150和200 g/L）分成3个亚组，即100、150、200 g/L IM-Met组。对照组每日背部外用凡士林乳膏，且腹腔内注射生理氯化钠溶液0.3 ml；咪喹莫特组每日背部外用咪喹莫特乳膏且腹腔内注射生理氯化钠溶液0.3 ml；IM-Met组每日背部外用咪喹莫特乳膏，3个亚组分别腹腔注射100、150和200 g/L二甲双胍溶液0.3 ml。肉眼观察各组小鼠皮损红斑面积、鳞屑和银屑病皮损面积与严重度指数（PASI）随时间的变化；7 d后处死小鼠，Western印迹检测各组小鼠背部皮肤组织中白细胞介素（IL）-17、磷酸化信号转导和转录激活因子3（p-Stat3）的蛋白表达水平；ELISA检测各组小鼠血清炎症因子IL-17、IL-6和肿瘤坏死因子α（TNF-α）的水平。多组间比较采用单因素方差分析，两组间均数比较采用LSD-t检验。结果与咪喹莫特组小鼠相比，各IM-Met组银屑病样皮损红斑、鳞屑严重程度减轻，PASI积分、皮损IL-17、p-Stat3蛋白表达水平和血清炎症因子IL-17、IL-6和TNF-α水平均显著降低，差异均有统计学意义（P < 0.05）。7 d后，150 g/L IM-Met组PASI积分显著低于100 g/L IM-Met组（t = 4.18，P＜0.05），但同200 g/L IM-Met组比较差异无统计学意义（t = 0.29，P＞0.05）。150 g/L IM-Met组皮损IL-17、p-Stat3蛋白表达水平均显著低于100 g/L IM-Met组（t值分别为-5.95、-2.80，P ≤ 0.01），但同200 g/L IM-Met组比较差异无统计学意义（t = -0.42，P = 0.69；t = -0.32，P = 0.76）。150 g/L IM-Met组血清炎症因子IL-17、IL-6和TNF-α水平分别为（33.388 ± 1.556）、（210.741 ± 4.440）和（249.434 ± 8.594） ng/L，显著高于200 g/L IM-Met组［（26.720 ± 2.156）、（174.997 ± 9.501）、（193.034 ± 6.661） ng/L］，t值分别为7.93、10.79和16.403，均P＜0.05，但显著低于100 g/L IM-Met组［（44.008 ± 1.722）、（260.926 ± 7.724）、（271.409 ± 3.037） ng/L］，t值分别为-14.47、 -17.81和-7.62，均P＜0.05。结论二甲双胍可一定程度上缓解小鼠银屑病样皮损，并减轻炎症状态，可能与减少p-Stat3蛋白表达有关。

关键词: 银屑病；二甲双胍；疾病模型, 动物；白细胞介素类；肿瘤坏死因子α；信号转导和转录激活因子3

Abstract: 【Abstract】 Objective To evaluate the effect of metformin on an imiquimod-induced psoriasis-like mouse model, and to explore its related mechanism. Methods A total of 50 male Balb/c mice were randomly divided into several groups: control group, imiquimod group （IM group） and imiquimod combined with metformin group （IM-Met group）. The IM-Met group were classified into 3 subgroups （100, 150 and 200 g/L IM-Met groups） according to the concentration of metformin. Mice in the control group were treated with topical vaseline cream on the back and intraperitoneal injection of 0.9% sodium chloride physiological solution of 0.3 millilitres every day. Mice in the IM group were treated with topical imiquimod cream on the back and intraperitoneal injection of 0.9% sodium chloride physiological solution of 0.3 millilitres every day. Mice in the 100, 150 or 200 g/L IM-Met groups were treated with topical imiquimod cream on the back and intraperitoneal injection of 100, 150 or 200 g/L metformin of 0.3 millilitres respectively every day. The changes of the erythema area, scales and psoriasis area and severity index （PASI） over time in each group were observed by naked eyes. These mice were sacrificed after 7 days of treatment. Western blot analysis was performed to determine the protein expression of interleukin （IL）-17 and phosphorylated signal transducer and activator of transcription 3 （p-Stat3） in the dorsal skin tissues of these mice, and enzyme-linked immunosorbent assay （ELISA） to detect serum levels of IL-17, IL-6 and tumor necrosis factor-α （TNF-α） in these mice. Comparison among these groups was carried out by using one-way analysis of variance, and means of two groups were compared by using least significant difference （LSD）-t test. Results Compared with the IM group, the 100, 150 and 200 g/L IM-Met groups showed alleviated erythema and scaling severity, and significantly decreased PASI score, protein expression of IL-17 and p-Stat3, and serum levels of inflammation factors such as IL-17, IL-6 and TNF-α （all P < 0.05）. Seven days later, the PASI score and protein expression of IL-17 and p-Stat3 were all significantly lower in the 150 g/L IM-Met group than in the 100 g/L IM-Met group （t = 4.18, -5.95, -2.80 respectively, P＜0.05, ≤ 0.01, ≤ 0.01 respectively）, but no significant differences were observed between the 150 g/L IM-Met group and 200 g/L IM-Met group（t = 0.29, -0.42, -0.32 respectively, P＞0.05, = 0.69, = 0.76 respectively）. The serum levels of IL-17, IL-6 and TNF-α in the 150 g/L IM-Met group were 33.388 ± 1.556 ng/L, 210.741 ± 4.440 ng/L and 249.434 ± 8.594 ng/L respectively, which were significantly higher than those in the 200 g/L IM-Met group （26.720 ± 2.156 ng/L, 174.997 ± 9.501 ng/L, 193.034 ± 6.661 ng/L respectively; t = 7.93, 10.79 and 16.403 respectively, all P＜0.05）, but significantly lower than those in the 100 g/L IM-Met group （44.008 ± 1.722 ng/L, 260.926 ± 7.724 ng/L, 271.409 ± 3.037 ng/L respectively; t = -14.47, -17.81 and -7.62 respectively, all P＜0.05）. Conclusion Metformin can alleviate psoriasis-like skin lesions and inflammation status in the imiquimod-induced psoriasis-like mouse model to a certain extent, which may be related to the decrease of p-Stat3 protein expression.

Key words: Psoriasis, Metformin, Disease models, animal, Interleukins, Tumor necrosis factor?alpha, Signal transducer and activator of transcription 3

苏蓓蓓甘泉甘才斌. 二甲双胍对银屑病样小鼠模型皮损炎症状态及磷酸化Stat3蛋白表达的影响[J]. 中华皮肤科杂志, 2019, 52(7): 475-480.

Su Beibei, Gan Quan, Gan Caibin. Effects of metformin on inflammatory status and phosphorylated Stat3 expression in lesions of a psoriasis?like mouse model[J]. Chinese Journal of Dermatology, 2019, 52(7): 475-480.

参考文献 22

［1］	Lowes MA, Bowcock AM, Krueger JG. Pathogenesis and therapy of psoriasis［J］. Nature, 2007,445（7130）:866⁃873. doi: 10.1038/nature05663.
［2］	O′Shea JJ, Shea JJ, Plenge R. JAK and STAT signaling molecules in immunoregulation and immune⁃mediated disease［J］. Immunity, 2012,36（4）:542⁃550. doi: 10.1016/j.immuni.2012.03.014.
［3］	Calautti E, Avalle L, Poli V. Psoriasis: a STAT3⁃centric view［J］. Int J Mol Sci, 2018, 19（1）. pii: E171. doi: 10.3390/ijms19010171.
［4］	Miyoshi K, Takaishi M, Nakajima K, et al. Stat3 as a therapeutic target for the treatment of psoriasis: a clinical feasibility study with STA⁃21, a Stat3 inhibitor［J］. J Invest Dermatol, 2011,131（1）:108⁃117. doi: 10.1038/jid.2010.255.
［5］	高玉梅, 马伟元, 孙青. 二甲双胍在皮肤病治疗中的应用进展［J］. 中华皮肤科杂志, 2015,48（9）:670⁃672. doi: 10.3760/cma.j.issn.0412⁃4030.2015.09.029.
［6］	Yang Y, Jin G, Liu H, et al. Metformin inhibits esophageal squamous cell carcinoma⁃induced angiogenesis by suppressing JAKSTAT3 signaling pathway［J］. Oncotarget, 2017,8（43）:74673⁃ 74687.
［7］	Yue W, Lin Y, Chen C, et al. Abstract 2153: metformin and aspirin synergistically inhibit mTOR and JAKSTAT3 signaling pathway and induce cell death in pancreatic cancer cells［J］.Cancer Res, 2014,74（19 Supplement）:2153. doi: 10.1158/1538⁃7445.AM2014⁃2153.
［8］	Palamara F, Meindl S, Holcmann M, et al. Identification and characterization of pDC⁃like cells in normal mouse skin and melanomas treated with imiquimod［J］. J Immunol, 2004,173（5）:3051⁃3061.
［9］	Sano S, Chan KS, Carbajal S, et al. Stat3 links activated keratinocytes and immunocytes required for development of psoriasis in a novel transgenic mouse model［J］. Nat Med, 2005,11（1）:43⁃49. doi: 10.1038/nm1162.
［10］	冉立伟, 兰东, 贾红侠. 寻常性银屑病皮损中STAT3的表达及磷酸化STAT3的水平［J］. 中国皮肤性病学杂志, 2011,25（9）:675⁃677.
［11］	Brauchli YB, Jick SS, Curtin F, et al. Association between use of thiazolidinediones or other oral antidiabetics and psoriasis: a population based case⁃control study［J］. J Am Acad Dermatol, 2008,58（3）:421⁃429. doi: 10.1016/j.jaad.2007.11.023.
［12］	Wu CY, Shieh JJ, Shen JL, et al. Association between antidiabetic drugs and psoriasis risk in diabetic patients: results from a nationwide nested case⁃control study in Taiwan［J］. J Am Acad Dermatol, 2015,72（1）:123⁃130. doi: 10.1016/j.jaad.2014.08.042.
［13］	Singh S, Bhansali A. Randomized placebo control study of metformin in psoriasis patients with metabolic syndrome （Systemic Treatment Cohort）［J］. Indian J Endocrinol Metab, 2017,21（4）:581⁃587. doi: 10.4103/ijem.IJEM_46_17.
［14］	Li W, Ma W, Zhong H, et al. Metformin inhibits proliferation of human keratinocytes through a mechanism associated with activation of the MAPK signaling pathway［J］. Exp Ther Med,2014,7（2）:389⁃392. doi: 10.3892/etm.2013.1416.
［15］	Liu Y, Yang F, Ma W, et al. Metformin inhibits proliferation and proinflammatory cytokines of human keratinocytes in vitro via mTOR⁃signaling pathway［J］. Pharm Biol, 2015,54（7）:1173⁃1178. doi: 10.3109/13880209.2015.1057652.
［16］	Wang X, Li R, Zhao X, et al. Metformin promotes HaCaT cell apoptosis through generation of reactive oxygen species via, Raf⁃1⁃ERK12⁃Nrf2 inactivation［J］. Inflammation, 2018,41（7429）:1⁃11. doi: 10.1007/s10753⁃017⁃0657⁃7.
［17］	Kerns ML, Hakim JM, Lu RG, et al. Oxidative stress and dysfunctional NRF2 underlie pachyonychia congenita phenotypes［J］. J Clin Invest, 2016,126（6）:2356⁃2366.
［18］	卢博, 桂书彦, 周欢欢, 等. 二甲双胍抑制多发性骨髓瘤细胞增殖作用的实验研究［J］. 中国实验血液学杂志, 2017,25（4）:1097⁃1100. doi: 10.7534/j.issn.1009⁃2137.2017.04.024.
［19］	Isoda K, Young JL, Zirlik A, et al. Metformin inhibits proinflammatory responses and nuclear factor⁃kappaB in human vascular wall cells［J］. Arterioscler Thromb Vasc Biol, 2006,26（3）:611⁃617. doi: 10.1161/01.ATV.0000201938.78044.75.
［20］	Araújo AA, ASBF P, CACX M, et al. Effects of metformin on inflammation, oxidative stress, and bone loss in a rat model of periodontitis［J/OL］. PLoS One, 2017,12（8）:e0183506. ［2018⁃05⁃01］. https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0183506. doi: 10.1371/journal.pone.0183506.
［21］	江萌, 马伟元, 孙青. 二甲双胍对HaCaT细胞增殖及miR⁃21⁃5p和PDCD4表达的影响［J］. 中华皮肤科杂志, 2015,48（3）：200⁃203. doi: 10.3760/cma.j.issn.0412⁃4030.2015.03.017.
［22］	宋翠豪, 王睿, 陈双景, 等. 二甲双胍对HaCaT细胞增殖分化和炎症因子分泌的影响［J］. 中华皮肤科杂志, 2019,52（1）:25⁃32. doi: 10.3760/cma.j.issn.0412⁃4030.2019.01.006.