Barone Monica, Chain Florian, Sokol Harry, Brigidi Patrizia, Bermúdez-Humarán Luis G, Langella Philippe, Martín Rebeca
Department of Pharmacy and Biotechnology, University of Bologna, Bologna, Italy.
Commensals and Probiotics-Host Interactions Laboratory, Micalis Institute, INRA, AgroParisTech, Université Paris-Saclay, Jouy-en-Josas, France.
Front Microbiol. 2018 Mar 27;9:565. doi: 10.3389/fmicb.2018.00565. eCollection 2018.
Murine colitis models are crucial tools for understanding intestinal homeostasis and inflammation. However, most current models utilize a highly inbred strain of mice, and often only one sex is employed to limit bias. This targeted approach, which in itself is biased, means that murine genetic diversity and sex-related differences are ignored, making it even more difficult to extend findings to humans, who are highly heterogeneous. Furthermore, most models do not examine the chronic form of colitis, an important fact taking into account the chronic nature of the inflammatory bowel diseases (IBD). Here, we attempted to create a more realistic murine colitis model by addressing these three issues. Using chemically induced chronic colon inflammation in an outbred strain of mice (RjOrl:SWISS [CD-1]), we (i) mimicked the relapsing nature of the disease, (ii) better represented normal genetic variability, and (iii) employed both female and male mice. Colitis was induced by intrarectal administration of dinitrobenzene sulfonic acid (DNBS). After a recovery period and 3 days before the mice were euthanized, colitis was reactivated by a second administration of DNBS. Protocol length was 24 days. Colitis severity was assessed using body mass, macroscopic scores, and histological scores. Myeloperoxidase (MPO) activity, cytokine levels, and lymphocyte populations were also characterized. Our results show that the intrarectal administration of DNBS effectively causes colitis in both female and male CD-1 mice in a dose-dependent manner, as reflected by loss of body mass, macroscopic scores and histological scores. Furthermore, colon cytokine levels and mesenteric lymph node characteristics indicate that this model involves immune system activation. Although some variables were sex-specific, most of the results support including both females and males in the model. Our ultimate goal is to make this model available to researchers for testing candidate anti-inflammatory agents, such as classical or next-generation probiotics; we also aim for the results to be more easily transferrable to human trials.
小鼠结肠炎模型是理解肠道内稳态和炎症的关键工具。然而,目前大多数模型使用高度近交系小鼠,并且通常仅采用一种性别以限制偏差。这种本身就有偏差的靶向方法意味着忽略了小鼠的遗传多样性和性别相关差异,使得将研究结果推广到高度异质的人类更加困难。此外,大多数模型未研究结肠炎的慢性形式,鉴于炎症性肠病(IBD)的慢性本质,这是一个重要问题。在此,我们试图通过解决这三个问题来创建一个更现实的小鼠结肠炎模型。利用化学诱导远交系小鼠(RjOrl:SWISS [CD-1])的慢性结肠炎症,我们(i)模拟了疾病的复发性质,(ii)更好地体现了正常的遗传变异性,以及(iii)同时使用了雌性和雄性小鼠。通过直肠内给予二硝基苯磺酸(DNBS)诱导结肠炎。在恢复期后且在小鼠安乐死前提早3天,通过再次给予DNBS重新激活结肠炎。实验方案时长为24天。使用体重、宏观评分和组织学评分评估结肠炎严重程度。还对髓过氧化物酶(MPO)活性、细胞因子水平和淋巴细胞群体进行了表征。我们的结果表明,直肠内给予DNBS以剂量依赖方式在雌性和雄性CD-1小鼠中均有效诱发结肠炎,这通过体重减轻、宏观评分和组织学评分得以体现。此外,结肠细胞因子水平和肠系膜淋巴结特征表明该模型涉及免疫系统激活。尽管一些变量具有性别特异性,但大多数结果支持在模型中同时纳入雌性和雄性。我们的最终目标是将该模型提供给研究人员用于测试候选抗炎剂,如经典或新一代益生菌;我们还旨在使结果更易于转化为人体试验。
