PM2.5 Extracts Induce INFγ-Independent Activation of CIITA, MHCII, and Increases Inflammation in Human Bronchial Epithelium.

Toxics Pub Date : 2024-04-16 DOI:10.3390/toxics12040292

Héctor Jirau-Colón, B. Jiménez-Vélez

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Abstract

The capacity of particulate matter (PM) to enhance and stimulate the expression of pro-inflammatory mediators has been previously demonstrated in non-antigen-presenting cells (human bronchial epithelia). Nonetheless, many proposed mechanisms for this are extrapolated from known canonical molecular pathways. This work evaluates a possible mechanism for inflammatory exacerbation after exposure to PM2.5 (from Puerto Rico) and CuSO4, using human bronchial epithelial cells (BEAS-2B) as a model. The induction of CIITA, MHCII genes, and various pro-inflammatory mediators was investigated. Among these, the phosphorylation of STAT1 Y701 was significantly induced after 4 h of PM2.5 exposure, concurrent with a slight increase in CIITA and HLA-DRα mRNA levels. INFγ mRNA levels remained low amidst exposure time, while IL-6 levels significantly increased at earlier times. IL-8 remained low, as expected from attenuation by IL-6 in the known INFγ-independent inflammation pathway. The effects of CuSO4 showed an increase in HLA-DRα expression after 8 h, an increase in STAT1 at 1 h, and RF1 at 8 h We hypothesize and show evidence that an inflammatory response due to PM2.5 extract exposure in human bronchial epithelia can be induced early via an alternate non-canonical pathway in the absence of INFγ.

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PM2.5 提取物可诱导 INFγ 独立激活 CIITA、MHCII 并增加人类支气管上皮细胞的炎症反应。

颗粒物（PM）能够增强和刺激非抗原递呈细胞（人类支气管上皮细胞）中促炎症介质的表达。然而，许多相关机制都是从已知的典型分子途径中推断出来的。这项研究以人类支气管上皮细胞（BEAS-2B）为模型，评估了暴露于 PM2.5（来自波多黎各）和 CuSO4 后炎症加重的可能机制。研究了 CIITA、MHCII 基因和各种促炎介质的诱导情况。其中，在 PM2.5 暴露 4 小时后，STAT1 Y701 的磷酸化被显著诱导，同时 CIITA 和 HLA-DRα mRNA 水平也略有上升。INFγ mRNA水平在暴露时间内保持较低水平，而IL-6水平在暴露时间较早时明显升高。IL-8的水平仍然很低，这是由于在已知的INFγ不依赖的炎症途径中，IL-6的作用会减弱。CuSO4 的影响显示，8 小时后 HLA-DRα 表达增加，1 小时后 STAT1 增加，8 小时后 RF1 增加。我们假设并证明，在没有 INFγ 的情况下，PM2.5 提取物暴露导致的人类支气管上皮炎症反应可通过另一种非经典途径早期诱导。

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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Toxics

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