Tufts University Graduate School of Biomedical Sciences, Boston, Massachusetts, USA.
Tufts Medical Centergrid.67033.31, Boston, Massachusetts, USA.
Infect Immun. 2022 Nov 17;90(11):e0039722. doi: 10.1128/iai.00397-22. Epub 2022 Oct 26.
is a leading cause of diarrhea and death in young children and untreated AIDS patients and causes waterborne outbreaks. Pathogenic mechanisms underlying diarrhea and intestinal dysfunction are poorly understood. We previously developed stem-cell derived human intestinal enteroid (HIE) models for Cryptosporidium parvum which we used in this study to investigate the course of infection and its effect on intestinal epithelial integrity. By immunofluorescence and confocal microscopy, there was robust infection of undifferentiated and differentiated HIEs in two and three-dimensional (2D, 3D) models. Infection of differentiated HIEs in the 2D model was greater than that of undifferentiated HIEs but lasted only for 3 days, whereas infection persisted for 21 days and resulted in completion of the life cycle in undifferentiated HIEs. Infection of undifferentiated HIE monolayers suggest that C. parvum infects LGR5+ stem cells. Transepithelial electrical resistance measurement of HIEs in the 2D model revealed that infection resulted in decreased epithelial integrity which persisted in differentiated HIEs but recovered in undifferentiated HIEs. Compromised epithelial integrity was reflected in disorganization of the tight and adherens junctions as visualized using the markers ZO-1 and E-cadherin, respectively. Quantitation using the image analysis tools Tight Junction Organizational Rate and Intercellular Junction Organization Quantification, measurement of monolayer height, and RNA transcripts of both proteins by quantitative reverse transcription PCR confirmed that disruption persisted in differentiated HIEs but recovered in undifferentiated HIEs. These models, which more accurately recapitulate human infection, will be useful tools to dissect pathogenic mechanisms underlying diarrhea and intestinal dysfunction in cryptosporidiosis.
是导致幼儿和未接受治疗的艾滋病患者腹泻和死亡的主要原因,也是水源性爆发的原因。腹泻和肠道功能障碍的发病机制尚不清楚。我们之前开发了源自干细胞的人类肠道类器官 (HIE) 模型,用于研究微小隐孢子虫,我们在这项研究中使用这些模型来研究感染过程及其对肠道上皮完整性的影响。通过免疫荧光和共聚焦显微镜,在二维 (2D) 和三维 (3D) 模型中,未分化和分化的 HIE 中均存在强烈的感染。2D 模型中分化的 HIE 感染程度大于未分化的 HIE,但仅持续 3 天,而未分化的 HIE 感染持续 21 天,并完成生命周期。未分化 HIE 单层的感染表明微小隐孢子虫感染 LGR5+干细胞。2D 模型中 HIE 的跨上皮电阻测量表明,感染导致上皮完整性下降,这种情况在分化的 HIE 中持续存在,但在未分化的 HIE 中恢复。上皮完整性受损反映在紧密连接和黏着连接的紊乱上,分别使用 ZO-1 和 E-钙黏蛋白标记物可视化。使用图像分析工具紧密连接组织率和细胞间连接组织定量、单层高度测量以及定量逆转录 PCR 测量两种蛋白质的 RNA 转录证实,在分化的 HIE 中持续存在破坏,但在未分化的 HIE 中恢复。这些更准确地再现人类感染的模型将是研究隐孢子虫病腹泻和肠道功能障碍发病机制的有用工具。