Neuronal cells co-ordinate myeloid-epithelial cell interaction to regulate intestinal inflammation

Deepika Sharma, Ankit Malik, Shaina McGrath, Sarah Zabala, Daping Yang, Isaac M. Chiu, B. Jabri
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Abstract

Epithelial response to injury is coordinated through an intricate interaction with neuronal and myeloid cells, however the signaling modules involved are not well understood. In humans, somatic mutations in Tet methylcytosine dioxygenase 2 (TET2), a DNA demethylase, are commonly observed during ageing in myeloid cells and known to modulate inflammatory responses. Using a mouse model that lacks TET2 in myeloid cells (Tet2 ΔLysM), we show that myeloid cells and sympathetic neurons form a signaling nexus that controls differentiation of enterochromaffin cells and serotonin production during colonic inflammation. Under physiological conditions, TET2 restricts IL-1β production by myeloid cells which in turn controls the intestinal sympathetic architecture. During inflammation, IL1R signaling limits sympathetic cues that drive differentiation of enterochromaffin cells through α1-adrenergic signaling. As a result, enterochromaffin differentiation and colitis progression in response to mucosal injury is attenuated in Tet2 ΔLysMmice. Further, protection from colitis in Tet2 ΔLysMmice is mediated by its catalytic activity, and dependent on sympathetic neurons and IL1R signaling. Adrenergic control of epithelial response and pro-colitic serotonin production is also evident under conditions of physiological stress that leads to increased colitis susceptibility. Overall, our study reveals a sympathetic-epithelial axis that controls the severity of colitis and is modulated by myeloid-derived IL-1β and physiological stress. Our findings may also explain why inflammatory bowel disease in the elderly, where TET2 mutations in myeloid cells are common, is less severe and suggests TET2 activity as an attractive target for IBD. Supported by the US National Institutes of Health (DK067180) to B.J, the University of Chicago's Center for Interdisciplinary Study of Inflammatory Intestinal Disorders (C-IID) Pilot & Feasibility Award (NIDDK P30 DK042086) to A.M. and D.S, Crohn’s and Colitis Foundation Career Development Award #964209 to A.M. and G.I. Research Foundation Associates Board Award to A.M. and D.S.
神经细胞协调髓上皮细胞相互作用调节肠道炎症
上皮细胞对损伤的反应是通过与神经元和髓样细胞的复杂相互作用来协调的,然而所涉及的信号模块尚未得到很好的理解。在人类中,Tet甲基胞嘧啶双加氧酶2 (TET2)(一种DNA去甲基化酶)的体细胞突变通常在髓细胞衰老过程中被观察到,并已知可调节炎症反应。通过在骨髓细胞中缺乏TET2的小鼠模型(TET2 ΔLysM),我们发现骨髓细胞和交感神经元形成信号联系,控制肠嗜铬细胞的分化和结肠炎症期间血清素的产生。在生理条件下,TET2限制髓细胞产生IL-1β,从而控制肠道交感神经结构。在炎症过程中,IL1R信号限制了通过α1-肾上腺素能信号驱动肠染色质细胞分化的交感信号。因此,小肠色素分化和结肠炎进展对粘膜损伤的反应在Tet2 ΔLysMmice中减弱。此外,Tet2 ΔLysMmice对结肠炎的保护作用是通过其催化活性介导的,并依赖于交感神经元和IL1R信号。在导致结肠炎易感性增加的生理应激条件下,肾上腺素能控制上皮反应和促结肠炎血清素的产生也很明显。总的来说,我们的研究揭示了交感上皮轴控制结肠炎的严重程度,并受到髓源性IL-1β和生理应激的调节。我们的发现也可以解释为什么老年炎症性肠病(骨髓细胞中TET2突变很常见)不那么严重,并表明TET2活性是IBD的一个有吸引力的靶标。由美国国立卫生研究院(DK067180)支持B.J,芝加哥大学炎症性肠道疾病跨学科研究中心(C-IID)试点和可行性奖(NIDDK P30 DK042086),克罗恩病和结肠炎基金会职业发展奖#964209和G.I.研究基金会联合董事会奖给A.M.和D.S.
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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