Hyperglycemia minimally alters primary self-renewing human colonic epithelial cells while TNFα-promotes severe intestinal epithelial dysfunction.

IF 1.5 4区 生物学 Q4 CELL BIOLOGY
Johanna S Dutton, Samuel S Hinman, Raehyun Kim, Peter J Attayek, Mallory Maurer, Christopher S Sims, Nancy L Allbritton
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引用次数: 0

Abstract

Hyperglycemia is thought to increase production of inflammatory cytokines and permeability of the large intestine. Resulting intestinal inflammation is then often characterized by excess secretion of tumor necrosis factor alpha (TNFα). Thus, hyperglycemia in hospitalized patients suffering from severe trauma or disease is frequently accompanied by TNFα secretion, and the combined impact of these insults on the intestinal epithelium is poorly understood. This study utilized a simple yet elegant model of the intestinal epithelium, comprised of primary human intestinal stem cells and their differentiated progeny, to investigate the impact of hyperglycemia and inflammatory factors on the colonic epithelium. When compared to epithelium cultured under conditions of physiologic glucose, cells under hyperglycemic conditions displayed decreased mucin-2 (MUC2), as well as diminished alkaline phosphatase (ALP) activity. Conditions of 60 mM glucose potentiated secretion of the cytokine IL-8 suggesting that cytokine secretion during hyperglycemia may be a source of tissue inflammation. TNFα measurably increased secretion of IL-8 and IL-1β, which was enhanced at 60 mM glucose. Surprisingly, intestinal permeability and paracellular transport were not altered by even extreme levels of hyperglycemia. The presence of TNFα increased MUC2 presence, decreased ALP activity, and negatively impacted monolayer barrier function. When TNFα hyperglycemia and ≤30 mM glucose and were combined, MUC2 and ALP activity remained similar to that of TNFα alone, although synergistic effects were seen at 60 mM glucose. An automated image analysis pipeline was developed to assay changes in properties of the zonula occludens-1 (ZO-1)-demarcated cell boundaries. While hyperglycemia alone had little impact on cell shape and size, cell morphologic properties were extraordinarily sensitive to soluble TNFα. These results suggest that TNFα acted as the dominant modulator of the epithelium relative to glucose, and that control of inflammation rather than glucose may be key to maintaining intestinal homeostasis.

高血糖对原发性自我更新人类结肠上皮细胞的影响微乎其微,而 TNFα 则会导致严重的肠上皮功能障碍。
高血糖被认为会增加炎症细胞因子的分泌和大肠的通透性。由此导致的肠道炎症通常表现为肿瘤坏死因子α(TNFα)分泌过多。因此,严重创伤或疾病住院患者的高血糖常常伴随着 TNFα 的分泌,而这些损伤对肠上皮细胞的综合影响却鲜为人知。本研究利用一个简单而优雅的肠上皮细胞模型--由原代人类肠干细胞及其分化后代组成--来研究高血糖和炎症因子对结肠上皮细胞的影响。与在生理葡萄糖条件下培养的上皮细胞相比,高血糖条件下的细胞显示出粘蛋白-2(MUC2)减少以及碱性磷酸酶(ALP)活性降低。60 mM 葡萄糖可促进细胞因子 IL-8 的分泌,这表明高血糖时细胞因子的分泌可能是组织炎症的来源之一。TNFα 可显著增加 IL-8 和 IL-1β 的分泌,在 60 mM 葡萄糖条件下分泌更多。令人惊讶的是,肠道通透性和细胞旁转运并没有因极高的高血糖水平而改变。TNFα 的存在增加了 MUC2 的存在,降低了 ALP 活性,并对单层屏障功能产生了负面影响。当 TNFα 高血糖和≤30 mM 葡萄糖同时存在时,MUC2 和 ALP 活性仍与 TNFα 单独存在时相似,但在 60 mM 葡萄糖时出现了协同效应。研究人员开发了一种自动图像分析管道,用于检测Zonula occludens-1 (ZO-1)划定的细胞边界的特性变化。虽然单纯的高血糖对细胞的形状和大小几乎没有影响,但细胞的形态特性对可溶性TNFα却异常敏感。这些结果表明,相对于葡萄糖,TNFα是上皮细胞的主要调节因子,控制炎症而非葡萄糖可能是维持肠道平衡的关键。
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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来源期刊
Integrative Biology
Integrative Biology 生物-细胞生物学
CiteScore
4.90
自引率
0.00%
发文量
15
审稿时长
1 months
期刊介绍: Integrative Biology publishes original biological research based on innovative experimental and theoretical methodologies that answer biological questions. The journal is multi- and inter-disciplinary, calling upon expertise and technologies from the physical sciences, engineering, computation, imaging, and mathematics to address critical questions in biological systems. Research using experimental or computational quantitative technologies to characterise biological systems at the molecular, cellular, tissue and population levels is welcomed. Of particular interest are submissions contributing to quantitative understanding of how component properties at one level in the dimensional scale (nano to micro) determine system behaviour at a higher level of complexity. Studies of synthetic systems, whether used to elucidate fundamental principles of biological function or as the basis for novel applications are also of interest.
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