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Effect of substrate stiffness on human intestinal enteroids’ infectivity by enteroaggregative Escherichia coli

自愈水凝胶 肠聚集性大肠杆菌 微生物学 粘蛋白 生物膜 生物物理学 细胞外基质 粘液 传染性 细胞生物学 材料科学 化学 生物 免疫学 大肠杆菌 细菌 生物化学 肠杆菌科 病毒 生态学 遗传学 高分子化学 基因
作者
Ganesh Swaminathan,Nabiollah Kamyabi,Hannah Carter,Anubama Rajan,Umesh C. Karandikar,Zachary K. Criss,Noah F. Shroyer,Matthew J. Robertson,Cristian Coarfa,Chenlin Huang,Tate E. Shannon,Madeleine H. Tadros,Mary K. Estes,Anthony W. Maresso,K. Jane Grande‐Allen
出处
期刊:Acta Biomaterialia [Elsevier BV]
卷期号:132: 245-259 被引量:6
标识
DOI:10.1016/j.actbio.2021.07.024
摘要

Human intestinal enteroids (HIE) models have contributed significantly to our understanding of diarrheal diseases and other intestinal infections, but their routine culture conditions fail to mimic the mechanical environment of the native intestinal wall. Because the mechanical characteristics of the intestine significantly alter how pathogens interact with the intestinal epithelium, we used different concentrations of polyethylene glycol (PEG) to generate soft (~2 kPa), medium (~10 kPa), and stiff (~100 kPa) hydrogel biomaterial scaffolds. The height of HIEs cultured in monolayers atop these hydrogels was 18 µm whereas HIEs grown on rigid tissue culture surfaces (with stiffness in the GPa range) were 10 µm. Substrate stiffness also influenced the amount of enteroaggregative E. coli (EAEC strain 042) adhered to the HIEs. We quantified a striking difference in adherence pattern; on the medium and soft gels, the bacteria formed clusters of > 100 and even > 1000 on both duodenal and jejunal HIEs (such as would be found in biofilms), but did not on glass slides and stiff hydrogels. All hydrogel cultured HIEs showed significant enrichment for gene and signaling pathways related to epithelial differentiation, cell junctions and adhesions, extracellular matrix, mucins, and cell signaling compared to the HIEs cultured on rigid tissue culture surfaces. Collectively, these results indicate that the HIE monolayers cultured on the hydrogels are primed for a robust engagement with their mechanical environment, and that the soft hydrogels promote the formation of larger EAEC aggregates, likely through an indirect differential effect on mucus. STATEMENT OF SIGNIFICANCE: Enteroids are a form of in vitro experimental mini-guts created from intestinal stem cells. Enteroids are usually cultured in 3D within Matrigel atop rigid glass or plastic substrates, which fail to mimic the native intestinal mechanical environment. Because intestinal mechanics significantly alter how pathogens interact with the intestinal epithelium, we grew human intestinal enteroids in 2D atop polyethylene glycol (PEG) hydrogel scaffolds that were soft, medium, or stiff. Compared with enteroids grown in 2D atop glass or plastic, the enteroids grown on hydrogels were taller and more enriched in mechanobiology-related gene signaling pathways. Additionally, enteroids on the softest hydrogels supported adhesion of large aggregates of enteroaggregative E. coli. Thus, this platform offers a more biomimetic model for studying enteric diseases.

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