Blake Rosemary, Jensen Kirsty, Mabbott Neil, Hope Jayne, Stevens Joanne
The Roslin Institute and Royal (Dick) School of Veterinary Studies, University of Edinburgh, Edinburgh, United Kingdom.
Front Vet Sci. 2022 Jul 4;9:921160. doi: 10.3389/fvets.2022.921160. eCollection 2022.
subspecies (MAP) is the etiological agent of Johne's Disease, a chronic enteritis of ruminants prevalent across the world. It is estimated that approximately 50% of UK dairy herds are infected with MAP, but this is likely an underestimate of the true prevalence. Infection can result in reduced milk yield, infertility and premature culling of the animal, leading to significant losses to the farming economy and negatively affecting animal welfare. Understanding the initial interaction between MAP and the host is critical to develop improved diagnostic tools and novel vaccines. Here we describe the characterisation of three different multicellular models derived from bovine intestinal tissue, and their use for the study of cellular interactions with MAP. In addition to the previously described basal-out 3D bovine enteroids, we have established viable 2D monolayers and 3D apical-out organoids. The apical-out enteroids differ from previously described bovine enteroids as the apical surface is exposed on the exterior surface of the 3D structure, enabling study of host-pathogen interactions at the epithelial surface without the need for microinjection. We have characterised the cell types present in each model system using RT-qPCR to detect predicted cell type-specific gene expression, and confocal microscopy for cell type-specific protein expression. Each model contained the cells present in the original bovine intestinal tissue, confirming they were representative of the bovine gut. Exposure of the three model systems to the K10 reference strain of MAP K10, and a recent Scottish isolate referred to as C49, led to the observation of intracellular bacteria by confocal microscopy. Enumeration of the bacteria by quantification of genome copy number, indicated that K10 was less invasive than C49 at early time points in infection in all model systems. This study shows that bovine enteroid-based models are permissive to infection with MAP and that these models may be useful in investigating early stages of MAP pathogenesis in a physiologically relevant system, whilst reducing the use of animals in scientific research. : urn:lsid:zoobank.org:act:4C90C4FA-6296-4972-BE6A-5EF578677D64.
亚种(MAP)是副结核分枝杆菌病的病原体,副结核分枝杆菌病是一种在全球范围内流行的反刍动物慢性肠炎。据估计,英国约50%的奶牛群感染了MAP,但这可能低估了实际流行率。感染可导致产奶量下降、不孕和动物过早淘汰,给养殖经济造成重大损失,并对动物福利产生负面影响。了解MAP与宿主之间的初始相互作用对于开发改进的诊断工具和新型疫苗至关重要。在此,我们描述了三种源自牛肠道组织的不同多细胞模型的特征,以及它们在研究与MAP细胞相互作用中的应用。除了先前描述的基底向外的3D牛肠类器官外,我们还建立了可行的2D单层和3D顶端向外的类器官。顶端向外的肠类器官与先前描述的牛肠类器官不同,因为顶端表面暴露在3D结构的外表面,无需显微注射即可研究上皮表面的宿主-病原体相互作用。我们使用RT-qPCR检测预测的细胞类型特异性基因表达,并通过共聚焦显微镜检测细胞类型特异性蛋白质表达,对每个模型系统中存在的细胞类型进行了表征。每个模型都包含原始牛肠道组织中存在的细胞,证实它们代表了牛肠道。将这三种模型系统暴露于MAP K10的K10参考菌株和最近称为C49的苏格兰分离株后,通过共聚焦显微镜观察到细胞内细菌。通过基因组拷贝数定量对细菌进行计数,结果表明在所有模型系统中,在感染的早期时间点,K10的侵袭性低于C49。这项研究表明,基于牛肠类器官的模型允许MAP感染,并且这些模型可能有助于在生理相关系统中研究MAP发病机制的早期阶段,同时减少科学研究中动物的使用。:urn:lsid:zoobank.org:act:4C90C4FA-6296-4972-BE6A-5EF578677D64 。
