ECCO Grant Serotonin gets into your genes: the role of histone serotonylation in inflammatory response and visceral hypersensitivity in Crohn’s Disease

M. Ghiboub, W. D. de Jonge, J. P. M. Derikx, Ernst van Heurn, Rene van den Wijngaard
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Abstract

More than 70% of CD patients experience visceral hypersensitivity (VH) despite reaching remission. VH treatment is difficult because the mechanism of its complication is unknown. Serotonin is mainly produced in the gut and regulates several physiological processes, such as intestinal immunity and pain. Disturbances in serotonin levels are associated with CD severity and VH. Intriguingly, we have recently observed that serotonin can covalently bind to glutamine at position 5 on histone H3 tail, leading to histone serotonylation (H3Q5ser) in peripheral blood mononuclear cells (PBMCs). Another study has demonstrated that H3Q5ser can also occur in cultured neuronal cells. Our objective is to investigate the role of this newly discovered epigenetic signature (H3Q5ser) in immune cells and enteric neurons in CD and its potential impact on the transcriptional programs of the inflammatory response and VH. To accomplish this goal, we will first determine the concentrations of serotonin in the mucosa and serum of active CD patients compared to healthy controls and establish how these levels relate to the enhancement of H3Q5ser in immune cells and enteric neurons. To study the functional role of H3Q5ser in cell activation, we will use site-directed or oligonucleotide- mediated mutagenesis to induce a point mutation in cultured enteric neuron cell lines and PBMCs to remove the binding site for serotonin on histone. Both wild-type and mutant cells will be incubated with or without serotonin and subjected to chromatin immunoprecipitation sequencing and RNA sequencing profiling to investigate the effect of H3Q5ser on the transcriptional programs associated with inflammation and VH. This project will provide a comprehensive understanding of the impact of the changes in serotonin concentrations on H3Q5ser-related gene expression in CD- associated VH and the inflammatory response. Our anticipated impact is subsequent studies that monitor H3Q5ser in VH in CD patients during treatment.
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ECCO Grant 血清素进入你的基因:组蛋白血清素化在克罗恩病的炎症反应和内脏超敏反应中的作用
70% 以上的 CD 患者尽管病情得到缓解,但仍会出现内脏过敏(VH)。内脏过敏症的治疗十分困难,因为其并发机制尚不清楚。血清素主要产生于肠道,调节多种生理过程,如肠道免疫和疼痛。血清素水平的紊乱与 CD 的严重程度和 VH 有关。有趣的是,我们最近观察到血清素能与组蛋白 H3 尾部第 5 位的谷氨酰胺共价结合,导致外周血单核细胞(PBMCs)中的组蛋白血清素化(H3Q5ser)。另一项研究表明,H3Q5ser 也可发生在培养的神经元细胞中。我们的目的是研究这种新发现的表观遗传学特征(H3Q5ser)在 CD 免疫细胞和肠道神经元中的作用及其对炎症反应和 VH 转录程序的潜在影响。 为实现这一目标,我们将首先测定活动性 CD 患者粘膜和血清中的血清素浓度,并与健康对照组进行比较,确定这些浓度与免疫细胞和肠道神经元中 H3Q5ser 增强的关系。为了研究 H3Q5ser 在细胞活化中的功能作用,我们将使用定点诱变或寡核苷酸介导的诱变技术,在培养的肠道神经元细胞系和 PBMC 中诱导点突变,以去除组蛋白上的血清素结合位点。野生型和突变型细胞将与或不与血清素一起培养,并进行染色质免疫沉淀测序和 RNA 测序分析,以研究 H3Q5ser 对与炎症和 VH 相关的转录程序的影响。 该项目将使我们全面了解血清素浓度变化对 CD 相关 VH 和炎症反应中 H3Q5ser 相关基因表达的影响。我们预期的影响是在治疗过程中对 CD 患者 VH 中的 H3Q5ser 进行监测的后续研究。
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