Effects of a bioengineered allogeneic cellular construct on burn-related macrophage phenotype.

IF 3.8 3区 医学 Q2 CELL BIOLOGY
Wound Repair and Regeneration Pub Date : 2024-11-01 Epub Date: 2024-10-03 DOI:10.1111/wrr.13227
Beatriz Hernaez-Estrada, Lindsay A Steele, Kara L Spiller
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Abstract

Bioengineered allogeneic cellularised constructs (BACC) exert pro-healing effects in burn wounds and skew macrophage phenotype towards a predominately reparative phenotype. However, whether BACC can modulate the phenotype of dysregulated macrophages, like those present in burn wounds, is not known. To better understand the macrophage modulatory characteristics of the BACC, primary human macrophages were polarised to the M2b phenotype, an immunosuppressive phenotype relevant to burn wounds, by simultaneously exposing macrophages to polystyrene plate-coated immunoglobulin G and the endotoxin lipopolysaccharide (LPS). The resulting macrophage phenotype upregulated both inflammatory and reparative genes, and increased secretion of the M2b marker CCL1 compared to five different in vitro macrophage phenotypes. M2b macrophages were cultured with the BACC in the presence or absence of LPS to mimic infection, which is a common occurrence in burn wounds. The BACC caused up-regulation of reparative gene sets and down-regulation of pro-inflammatory gene sets, even when LPS was present in the cell culture media. Co-cultures were maintained for 1, 3, or 5 days in the presence of LPS, and by day 1 both non-activated macrophages and M2b macrophages exhibited signs of endotoxin tolerance, as demonstrated by a reduced secretion of tumour necrosis factor α (TNFα) in response to fresh LPS stimulus. The BACC was not able to prevent endotoxin tolerance, but reparative genes were upregulated in macrophages chronically exposed to LPS. These results suggest that the BACC can promote a reparative phenotype in dysregulated macrophages relevant to the pathophysiology of burns.

生物工程异体细胞构建物对烧伤相关巨噬细胞表型的影响
生物工程异体细胞化构建物(BACC)可促进烧伤创面的愈合,并使巨噬细胞表型偏向以修复为主的表型。然而,BACC 是否能调节失调巨噬细胞(如烧伤创面中的巨噬细胞)的表型尚不清楚。为了更好地了解 BACC 的巨噬细胞调节特性,我们将原代人类巨噬细胞极化为 M2b 表型,这是一种与烧伤伤口相关的免疫抑制表型,方法是同时将巨噬细胞暴露于聚苯乙烯板包被的免疫球蛋白 G 和内毒素脂多糖(LPS)。与五种不同的体外巨噬细胞表型相比,由此产生的巨噬细胞表型会上调炎症基因和修复基因,并增加 M2b 标志物 CCL1 的分泌。在有或没有 LPS 的情况下,用 BACC 培养 M2b 巨噬细胞,以模拟烧伤伤口中常见的感染。即使细胞培养基中存在 LPS,BACC 也会导致修复基因集的上调和促炎基因集的下调。共培养物在 LPS 存在的情况下维持 1、3 或 5 天,到第 1 天时,非活化巨噬细胞和 M2b 巨噬细胞都表现出内毒素耐受的迹象,表现为肿瘤坏死因子 α(TNFα)在新鲜 LPS 刺激下的分泌减少。BACC 无法阻止内毒素耐受,但在长期暴露于 LPS 的巨噬细胞中,修复基因上调。这些结果表明,BACC 可促进与烧伤病理生理学有关的巨噬细胞修复表型。
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来源期刊
Wound Repair and Regeneration
Wound Repair and Regeneration 医学-皮肤病学
CiteScore
5.90
自引率
3.40%
发文量
71
审稿时长
6-12 weeks
期刊介绍: Wound Repair and Regeneration provides extensive international coverage of cellular and molecular biology, connective tissue, and biological mediator studies in the field of tissue repair and regeneration and serves a diverse audience of surgeons, plastic surgeons, dermatologists, biochemists, cell biologists, and others. Wound Repair and Regeneration is the official journal of The Wound Healing Society, The European Tissue Repair Society, The Japanese Society for Wound Healing, and The Australian Wound Management Association.
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