Self-organized intestinal epithelial monolayers in crypt and villus-like domains show effective barrier function

Altay, Gizem; Larrañaga, Enara; Tosi, Sébastien; Barriga, Francisco M.; Batlle, Eduard; Fernández‐Majada, Vanesa; Martínez, Elena

doi:10.1038/s41598-019-46497-x

Cited by 95 publications

(92 citation statements)

References 60 publications

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“…3D enteroids were cultured on chamber slides (Nunc Lab-Tek II™; ThermoFisher Scientific, Waltham MA) while 2D monolayers were grown on Transwell™ inserts prior to staining. Enteroids in both conditions were fixed in 10% NBF at room temperature for 20 min, followed by permeabilization in Triton x 100 for 20 min [21]. 3D murine enteroids were then stained with F-actin marker, ActinRed™ 555 ReadyProbes Reagent (Invitrogen, ThermoFisher Scientific, Waltham, MA), while 2D enteroids were stained with tight junction proteins claudin-3 (CLDN3) and zonula occludens-1 (ZO1; Abcam, Cambridge, MA).…”

Section: Immunofluorescence Stainingmentioning

confidence: 99%

Intestinal enteroids recapitulate the effects of short-chain fatty acids on the intestinal epithelium

et al. 2020

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Enteroids are cultured primary intestinal epithelial cells that recapitulate epithelial lineage development allowing for a more complex and physiologically relevant model for scientific study. The large presence of intestinal stem cells (ISC) in these enteroids allows for the study of metabolite effects on cellular processes and resulting progeny cells. Short-chain fatty acids (SCFA) such as butyrate (BUT) are bacterial metabolites produced in the gastrointestinal tract that are considered to be beneficial to host cells. Therefore, the objective was to study the effects of SCFAs on biomarkers of ISC activity, differentiation, barrier function and epithelial defense in the intestine using mouse and human enteroid models. Enteroids were treated with two concentrations of acetate (ACET), propionate (PROP), or BUT for 24 h. Enteroids treated with BUT or PROP showed a decrease in proliferation via EdU uptake relative to the controls in both mouse and human models. Gene expression of Lgr5 was shown to decrease with BUT and PROP treatments, but increased with ACET. As a result of BUT and PROP treatments, there was an increase in differentiation markers for enterocyte, Paneth, goblet, and enteroendocrine cells. Gene expression of antimicrobial proteins Reg3β, Reg3γ, and Defb1 were stimulated by BUT and PROP, but not by ACET which had a greater effect on expression of tight junction genes Cldn3 and Ocln in 3D enteroids. Similar results were obtained with human enteroids treated with 10 mM SCFAs and grown in either 3D or Trans-well™ model cultures, although tight junctions were influenced by BUT and PROP, but not ACET in monolayer format. Furthermore, BUT and PROP treatments increased transepithelial electrical resistance after 24 h compared to ACET or control. Overall, individual SCFAs are potent stimulators of cellular gene expression, however, PROP and especially BUT show great efficacy for driving cell differentiation and gene expression.

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Section: Immunofluorescence Stainingmentioning

confidence: 99%

Intestinal enteroids recapitulate the effects of short-chain fatty acids on the intestinal epithelium

et al. 2020

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“…Следовательно, согласно существующим представлениям, длина кишечных крипт является соразмерной с толщиной собственной пластинки слизистой оболочки. Действительно, гистологические срезы, полученные в поперечном сечении тонкой кишки, выявляют данные трубчатые образования именно в таком ракурсе [15][16][17][18][19][20]. Но в литературе имеются данные, согласно которым в пейеровых бляшках кишечные крипты подвержены топографической дифференцировке относительно к их лимфоидным узелкам, в связи с чем среди них выделяются две разновидности, одна из которых ассоциирована с лимфоидной тканью соответствующих узелков, тогда как вторая -находится за их пределами.…”

Section: ____________________________________________________________unclassified

Architecture of the intestinal crypts of the payers’ patches of the albino rats’ small intestine.

Гринь¹,

Kostylenko²

2019

Morphologia

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Architecture of the intestinal crypts of the payers' patches of the albino rats' small intestine. Ukrainian Medical Stomatological Academy, Poltava, Ukraine ABSTRACT. Background. In the Peyer's patches, intestinal crypts are topographically differentiated with respect to their lymphoid nodules. Consequently, two types are distinguished. The first type is associated with the lymphoid tissue of the corresponding nodules, and the second one is located outside of them. Objective. To study the features of architecture of the intestinal crypts of the Payer's patches of albino rats' small intestine. Methods. 30 mature albino male rats weighted 200,0±20,0 g were involved into the study. Sections of the small intestine with Peyer's patches were fixed in 10% neutral buffered formalin solution. Subsequently, serial paraffin sections of 4 μm thick (Microm HM 325), stained with hematoxylineosin, were obtained using the conventional histological methods. Another part of the preparations was plasticized in the epoxy. The analysis of the obtained preparations was carried out using the MBS-9 binocular magnifier and "Konus" light microscope equipped with Sigeta DCM-900 9.0MP digital microphotographic attachment, object-micrometer Sigeta X 1 mm/100 Div.x0.01mm. Results. Payer's patches contain two types of the intestinal crypts, discrete by the bundles of smooth muscle fibers. Lymphoid-associated crypts (i.e., intranodular) are actually offshoots of the extranodular crypt network laid at the base of the intestinal villi of the Peyer's patches. Their penetration into the thickness of the lymphoid nodules occurs around their circumference through local splitting of the bundles of smooth muscle fibers, as a result of which they appear i n the thickness of their peripheral regions, corresponding to T-dependent zones. Conclusions. Despite the common origin, these crypts, differing in localization, differ in thickness (the diameter of lymphoid-associated crypts is on the average of 70 μm, while extranodular crypts are 10 μm narrower in the diameter), as well as in the cytological composition and contents of the internal lumen.

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“…These monolayers can be cultured for up to three weeks (Stefania Senger, unpublished observations). Recent studies [60][61][62] have developed techniques to generate monolayers that exhibited compartmentalization of proliferative crypt-like domains and differentiated villus-like regions closely resembling in vivo distribution. Liu et al [60] generated self-renewing 2D monolayers by plating intestinal stem cells on a thin layer (10 µM) of Matrigel coated onto glass sheets, while Wang et al [63] relied on the presence of collagen hydrogels in tissue culture plates.…”

Section: Intestinal Organoids/enteroidsmentioning

confidence: 99%

“…These models do not provide access to the basolateral side of the monolayers. To overcome this limitation, Altay and colleagues [62] cultured mouse-derived intestinal enteroids on Transwells coated with Matrigel that provided proper mechanical stiffness. The authors also boosted the proliferation of the stem cells by supplementing the culture medium for the basolateral compartment with conditioned medium from intestinal sub-epithelial myofibroblasts.…”

Section: Intestinal Organoids/enteroidsmentioning

confidence: 99%

Spheres of Influence: Insights into Salmonella Pathogenesis from Intestinal Organoids

et al. 2020

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The molecular complexity of host-pathogen interactions remains poorly understood in many infectious diseases, particularly in humans due to the limited availability of reliable and specific experimental models. To bridge the gap between classical two-dimensional culture systems, which often involve transformed cell lines that may not have all the physiologic properties of primary cells, and in vivo animal studies, researchers have developed the organoid model system. Organoids are complex three-dimensional structures that are generated in vitro from primary cells and can recapitulate key in vivo properties of an organ such as structural organization, multicellularity, and function. In this review, we discuss how organoids have been deployed in exploring Salmonella infection in mice and humans. In addition, we summarize the recent advancements that hold promise to elevate our understanding of the interactions and crosstalk between multiple cell types and the microbiota with Salmonella. These models have the potential for improving clinical outcomes and future prophylactic and therapeutic intervention strategies.

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Self-organized intestinal epithelial monolayers in crypt and villus-like domains show effective barrier function

Cited by 95 publications

References 60 publications

Intestinal enteroids recapitulate the effects of short-chain fatty acids on the intestinal epithelium

Intestinal enteroids recapitulate the effects of short-chain fatty acids on the intestinal epithelium

Architecture of the intestinal crypts of the payers’ patches of the albino rats’ small intestine.

Spheres of Influence: Insights into Salmonella Pathogenesis from Intestinal Organoids

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