丁酸修饰表观遗传组蛋白下调KIT并减弱肥大细胞功能。

IF 5.3 2区 医学 Q1 Biochemistry, Genetics and Molecular Biology
Ravindra Gudneppanavar, Emma Elizabeth Sabu Kattuman, Lakshminarayan Reddy Teegala, Erik Southard, Ramakumar Tummala, Bina Joe, Charles K. Thodeti, Sailaja Paruchuri
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引用次数: 0

摘要

短链脂肪酸丁酸是由肠腔中不可消化纤维的细菌发酵产生的,在小鼠哮喘模型中,它已被证明可以减轻肺部炎症。肥大细胞是过敏原炎症反应的发起者,在哮喘中起着重要作用。MC的生存和增殖受其生长因子干细胞因子(SCF)的调节,SCF通过受体KIT发挥作用。先前已经表明丁酸盐通过过敏原刺激来减弱MCs的激活。然而,丁酸盐如何在机制上影响SCF信号传导以影响MC功能仍然未知。在此,我们报道了丁酸盐处理通过丁酰化和乙酰化触发MC组蛋白的修饰,并抑制组蛋白脱乙酰酶(HDAC)活性。此外,丁酸盐治疗导致SCF受体KIT和相关磷酸化的下调,导致SCF介导的MC增殖和促炎细胞因子分泌的显著减弱。从机制上讲,丁酸通过抑制KIT和下游p38和Erk磷酸化来抑制MC功能,并且它通过组蛋白的修饰介导这些作用,作为HDAC抑制剂,而不是通过其传统的GPR41(FFAR3)或GPR43(FFAR2)丁酸受体。一致认为,I类HDAC(HDAC1/3)的药理学抑制反映了丁酸的作用,表明丁酸通过HDAC1/3抑制影响MC功能。总之,丁酸盐表观遗传学修饰组蛋白并下调SCF/KIT/p38/Erk信号轴,导致MC功能减弱,验证了其抑制MC介导的炎症的能力。因此,补充丁酸盐可以通过MC的表观遗传学改变为过敏和哮喘提供一种潜在的治疗策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Epigenetic histone modification by butyrate downregulates KIT and attenuates mast cell function

Epigenetic histone modification by butyrate downregulates KIT and attenuates mast cell function

Short-chain fatty acid butyrate is produced from the bacterial fermentation of indigestible fiber in the intestinal lumen, and it has been shown to attenuate lung inflammation in murine asthma models. Mast cells (MCs) are initiators of inflammatory response to allergens, and they play an important role in asthma. MC survival and proliferation is regulated by its growth factor stem cell factor (SCF), which acts through the receptor, KIT. It has previously been shown that butyrate attenuates the activation of MCs by allergen stimulation. However, how butyrate mechanistically influences SCF signalling to impact MC function remains unknown. Here, we report that butyrate treatment triggered the modification of MC histones via butyrylation and acetylation, and inhibition of histone deacetylase (HDAC) activity. Further, butyrate treatment caused downregulation of SCF receptor KIT and associated phosphorylation, leading to significant attenuation of SCF-mediated MC proliferation, and pro-inflammatory cytokine secretion. Mechanistically, butyrate inhibited MC function by suppressing KIT and downstream p38 and Erk phosphorylation, and it mediated these effects via modification of histones, acting as an HDAC inhibitor and not via its traditional GPR41 (FFAR3) or GPR43 (FFAR2) butyrate receptors. In agreement, the pharmacological inhibition of Class I HDAC (HDAC1/3) mirrored butyrate's effects, suggesting that butyrate impacts MC function by HDAC1/3 inhibition. Taken together, butyrate epigenetically modifies histones and downregulates the SCF/KIT/p38/Erk signalling axis, leading to the attenuation of MC function, validating its ability to suppress MC-mediated inflammation. Therefore, butyrate supplementations could offer a potential treatment strategy for allergy and asthma via epigenetic alterations in MCs.

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来源期刊
CiteScore
10.00
自引率
1.90%
发文量
496
审稿时长
28 weeks
期刊介绍: Bridging physiology and cellular medicine, and molecular biology and molecular therapeutics, Journal of Cellular and Molecular Medicine publishes basic research that furthers our understanding of the cellular and molecular mechanisms of disease and translational studies that convert this knowledge into therapeutic approaches.
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