活性转化生长因子-β与肺结核药物治疗后肉芽肿的表型变化有关。

Fibrogenesis & Tissue Repair Pub Date : 2016-04-27 eCollection Date: 2016-01-01 DOI:10.1186/s13069-016-0043-3
Robert M DiFazio, Joshua T Mattila, Edwin C Klein, Lauren R Cirrincione, Mondraya Howard, Eileen A Wong, JoAnne L Flynn
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引用次数: 43

摘要

背景:结核(TB)化疗可清除患者肺部的细菌负担,并使结核病变通过纤维化过程愈合。愈合过程中留下的肺瘢痕组织会损害肺功能。本研究的目的是确定纤维化介质作为开始探索结核组织修复机制的踏脚石。方法:采用苏木精、伊红染色和马松三色染色法测定非人灵长类动物结核性肉芽肿的胶原水平。然后利用免疫组织化学进一步研究这些肉芽肿与纤维发生相关的标志物,包括转化生长因子-β (tgf -β)、α-平滑肌肌动蛋白(αSMA)、磷酸化SMAD-2/3和CD163。使用单因素方差分析比较不同药物治疗状态的这些标记,并使用Pearson检验来确定这些标记彼此之间的关联。结果:结核活动性动物肉芽肿中存在TGFβ和αSMA。这些分子在结核病化疗后大量减少。与活动性疾病相比,药物治疗1个月后,观察到磷酸化的SMAD-2/3 (TGFβ的一种信号传导介质)的量更高,这表明这一特定途径在活动性疾病中被阻断。在该模型中,组织修复过程中胶原蛋白的产生与tgf - β密切相关,但与CD163+巨噬细胞无关。结论:结核病患者在药物治疗期间发生的组织修复和纤维化与活动性疾病期间产生的活性TGFβ相关。进一步的工作将确定纤维化的机制,并致力于通过针对这些机制的治疗来减轻肺损伤。
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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Active transforming growth factor-β is associated with phenotypic changes in granulomas after drug treatment in pulmonary tuberculosis.

Background: Tuberculosis (TB) chemotherapy clears bacterial burden in the lungs of patients and allows the tuberculous lesions to heal through a fibrotic process. The healing process leaves pulmonary scar tissue that can impair lung function. The goal of this study was to identify fibrotic mediators as a stepping-stone to begin exploring mechanisms of tissue repair in TB.

Methods: Hematoxylin and eosin staining and Masson's trichrome stain were utilized to determine levels of collagenization in tuberculous granulomas from non-human primates. Immunohistochemistry was then employed to further interrogate these granulomas for markers associated with fibrogenesis, including transforming growth factor-β (TGFβ), α-smooth muscle actin (αSMA), phosphorylated SMAD-2/3, and CD163. These markers were compared across states of drug treatment using one-way ANOVA, and Pearson's test was used to determine the association of these markers with one another.

Results: TGFβ and αSMA were present in granulomas from primates with active TB disease. These molecules were reduced in abundance after TB chemotherapy. Phosphorylated SMAD-2/3, a signaling intermediate of TGFβ, was observed in greater amounts after 1 month of drug treatment than in active disease, suggesting that this particular pathway is blocked in active disease. Collagen production during tissue repair is strongly associated with TGFβ in this model, but not with CD163+ macrophages.

Conclusions: Tissue repair and fibrosis in TB that occurs during drug treatment is associated with active TGFβ that is produced during active disease. Further work will identify mechanisms of fibrosis and work towards mitigating lung impairment with treatments that target those mechanisms.

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Matrix and cell phenotype differences in Dupuytren's disease. Activation of hepatic stellate cell in Pten null liver injury model. Protective role for miR-9-5p in the fibrogenic transformation of human dermal fibroblasts. Age-dependent development of liver fibrosis in Glmp (gt/gt) mice. Active transforming growth factor-β is associated with phenotypic changes in granulomas after drug treatment in pulmonary tuberculosis.
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