Department of Veterinary Pathology, Iowa State University, Ames, IA, United States.
Department of Animal Science, Iowa State University, Ames, IA, United States.
Front Cell Infect Microbiol. 2023 Jan 6;12:1042815. doi: 10.3389/fcimb.2022.1042815. eCollection 2022.
Infection with strongly strains of leads to swine dysentery (SD), a production-limiting disease that causes mucohemorrhagic diarrhea and typhlocolitis in pigs. This pathogen has strong chemotactic activity toward mucin, and infected pigs often have a disorganized mucus layer and marked expression of MUC5AC, which is not constitutively expressed in the colon. It has been shown that fucose is chemoattractant for , and a highly fermentable fiber diet can mitigate and delay the onset of SD.
We used lectins targeting sialic acids in α-2,6 or α-2,3 linkages, N-acetylglucosamine (GlcNAc), α-linked L-fucose, and an immunohistochemical stain targeting N-glycolylneuraminic acid (NeuGc) to investigate the local expression of these mucin glycans in colonic tissues of pigs with acute SD. We used a commercial enzyme-linked immunosorbent assay (ELISA) to quantify fecal MUC5AC in infected pigs and assess its potential as a diagnostic monitoring tool and RNA hybridization to detect IL-17A in the colonic mucosa.
Colonic mucin glycosylation during SD has an overall increase in fucose, a spatially different distribution of GlcNAc with more expression within the crypt lumens of the upper colonic mucosa, and decreased expression or a decreased trend of sialic acids in α-2,6 or α-2,3 linkages, and NeuGc compared to the controls. The degree of increased fucosylation was less in the colonic mucosa of pigs with SD and fed the highly fermentable fiber diet. There was a significant increase in MUC5AC in fecal and colonic samples of pigs with SD at the endpoint compared to the controls, but the predictive value for disease progression was limited.
Fucosylation and the impact of dietary fiber may play important roles in the pathogenesis of SD. The lack of predictive value for fecal MUC5AC quantification by ELISA is possibly due to the presence of other non-colonic sources of MUC5AC in the feces. The moderate correlation between IL-17A, neutrophils and MUC5AC confirms its immunoregulatory and mucin stimulatory role. Our study characterizes local alteration of mucin glycosylation in the colonic mucosa of pigs with SD after B. infection and may provide insight into host-pathogen interaction.
感染强毒力的 会导致猪痢疾(SD),这是一种严重限制生产的疾病,可导致猪出现黏液性出血性腹泻和回肠炎。该病原体对粘蛋白具有很强的趋化活性,受感染的猪通常会出现紊乱的黏液层和明显的 MUC5AC 表达,而 MUC5AC 在结肠中并非组成性表达。研究表明,岩藻糖是 的趋化因子,高发酵纤维饮食可以减轻和延迟 SD 的发作。
我们使用针对 α-2,6 或 α-2,3 连接的唾液酸、N-乙酰葡萄糖胺(GlcNAc)、α-连接的岩藻糖以及针对 N-羟乙酰神经氨酸(NeuGc)的免疫组织化学染色,来研究急性 SD 猪结肠组织中这些粘蛋白聚糖的局部表达情况。我们使用商业酶联免疫吸附试验(ELISA)来量化感染猪的粪便 MUC5AC,并评估其作为诊断监测工具的潜力,以及 RNA 杂交来检测结肠黏膜中的 IL-17A。
在 SD 期间,结肠粘蛋白糖基化整体上增加了岩藻糖,GlcNAc 的空间分布不同,在上段结肠黏膜的隐窝腔内表达更多,与对照组相比,α-2,6 或 α-2,3 连接的唾液酸以及 NeuGc 的表达减少或呈减少趋势。与对照组相比,在食用高发酵纤维饮食的 SD 猪的结肠黏膜中,岩藻糖的糖基化程度较低。与对照组相比,在 SD 猪的粪便和结肠样本中,终点时 MUC5AC 的显著增加,但对疾病进展的预测价值有限。
岩藻糖基化和膳食纤维的影响可能在 SD 的发病机制中发挥重要作用。ELISA 量化粪便 MUC5AC 的预测价值有限,可能是由于粪便中存在其他非结肠来源的 MUC5AC。IL-17A、中性粒细胞和 MUC5AC 之间的中度相关性证实了其免疫调节和粘蛋白刺激作用。我们的研究描绘了感染 后 SD 猪结肠黏膜中粘蛋白糖基化的局部改变,可能为宿主-病原体相互作用提供了新的见解。
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