Toll‐like receptor 2 stimulation augments esophageal barrier integrity

Ruffner, Melanie A.; Song, Li; Maurer, Kelly; Shi, Lei; Carroll, Margaret C; Wang, Joshua X.; Muir, Amanda B.; Spergel, Jonathan M.; Sullivan, Kathleen E.

doi:10.1111/all.13968

Cited by 30 publications

(32 citation statements)

References 66 publications

(157 reference statements)

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“…[ 26,46 ] Although these mechanisms remain challenging to examine in humans, dietary oral acetate treatment may be of benefit in upper gastrointestinal conditions such as eosinophilic oesophagitis, in which HDAC regulation has been implicated to contribute to immunopathology. [ 47 ] Furthermore, it is important to acknowledge that many of the foods found in this study may also contain other beneficial by‐products of fermentation, such as anti‐oxidant polyphenols present in vinegar. [ 48 ]…”

Section: Discussionmentioning

confidence: 99%

Delivery of Acetate to the Peripheral Blood after Consumption of Foods High in Short‐Chain Fatty Acids

Gill

Bogatyrev

Zelm

et al. 2021

Molecular Nutrition Food Res

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Scope To promote local and systemic benefits of short‐chain fatty acids (SCFA), methods of increasing their delivery to the gastrointestinal tract are needed. SCFA in foods and beverages represents a poorly characterized source. Main aims of this study are: 1) quantify SCFA in commonly consumed foods and beverages, and 2) explore the pharmacokinetics of consuming oral SCFA from dietary sources. Methods and results Gas‐chromatography coupled to flame ionization detection is used measure SCFA in 38 commonly consumed foods and beverages. Acetate is the most abundant SCFA detected, with kombucha and vinegar found to provide >1000 mg of acetate per serve. An acute pharmacokinetic study is conducted in 10 participants. Acetate is stable across the 2‐h sampling period after consumption of a control drink, with consumption of a vinegar drink containing 25 mmol acetate significantly increasing plasma acetate concentration after 60 min and increasing acetate delivery to the blood upon assessment of the area under the pharmacokinetic curve. Conclusion Fermented foods and beverages are a natural source of dietary SCFA that acutely deliver SCFA to the blood. If systemic delivery is needed for immunological and metabolic effects to occur, these may be achieved if delivered over a longer period of time.

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Section: Discussionmentioning

confidence: 99%

Delivery of Acetate to the Peripheral Blood after Consumption of Foods High in Short‐Chain Fatty Acids

Gill

Bogatyrev

Zelm

et al. 2021

Molecular Nutrition Food Res

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“…It is involved in the posttranscriptional regulation of IL-4 and downregulated in PBMCs from milk allergic children 171. Due to the importance of barrier (dys) function in atopic diseases,[172][173][174] measurement of skin integrity may be a very important tool to identify high-risk populations. Electrical impedance spectroscopy, successfully tested in rodents, may be capable of assessing this biomarker also in humans 175.…”

mentioning

confidence: 99%

Biomarkers for diagnosis and prediction of therapy responses in allergic diseases and asthma

Breiteneder

Peng

Agache

et al. 2020

Allergy

174

150

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“…More recently, direct methods of evaluating barrier integrity of the esophageal epithelium have been developed capitalizing on the ability of esophageal cells to differentiate when exposed to an ALI (Nguyen et al, 2018; Ruffner et al., 2019; Sherrill et al., 2014). ALI culture involves growing epithelium on a porous membrane.…”

Section: Commentarymentioning

confidence: 99%

Modeling Epithelial Homeostasis and Reactive Epithelial Changes in Human and Murine Three‐Dimensional Esophageal Organoids

Nakagawa

Kasagi

Karakasheva

et al. 2020

CP Stem Cell Biology

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The homeostatic proliferation‐differentiation gradient in the esophageal epithelium is perturbed under inflammatory disease conditions such as gastroesophageal reflux disease and eosinophilic esophagitis. Herein we describe the protocols for rapid generation (<14 days) and characterization of single‐cell‐derived, three‐dimensional (3D) esophageal organoids from human subjects and mice with normal esophageal mucosa or inflammatory disease conditions. While 3D organoids recapitulate normal epithelial renewal, proliferation, and differentiation, non‐cell autonomous reactive epithelial changes under inflammatory conditions are evaluated in the absence of the inflammatory milieu. Reactive epithelial changes are reconstituted upon exposure to exogenous recombinant cytokines. These changes are modulated pharmacologically or genetically ex vivo. Molecular, structural, and functional changes are characterized by morphology, flow cytometry, biochemistry, and gene expression analyses. Esophageal 3D organoids can be translated for the development of personalized medicine in assessment of individual cytokine sensitivity and molecularly targeted therapeutics in esophagitis patients © 2020 by John Wiley & Sons, Inc. Basic Protocol 1: Generation of esophageal organoids from biopsy or murine esophageal epithelial sheets Basic Protocol 2: Propagation and cryopreservation of esophageal organoids Basic Protocol 3: Harvesting of esophageal organoids for RNA isolation, immunohistochemistry, and evaluation of 3D architecture Basic Protocol 4: Modeling of reactive epithelium in esophageal organoids.

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Toll‐like receptor 2 stimulation augments esophageal barrier integrity

Cited by 30 publications

References 66 publications

Delivery of Acetate to the Peripheral Blood after Consumption of Foods High in Short‐Chain Fatty Acids

Delivery of Acetate to the Peripheral Blood after Consumption of Foods High in Short‐Chain Fatty Acids

Biomarkers for diagnosis and prediction of therapy responses in allergic diseases and asthma

Modeling Epithelial Homeostasis and Reactive Epithelial Changes in Human and Murine Three‐Dimensional Esophageal Organoids

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