Micronutrients at Supplemental Levels, Tight Junctions and Epithelial Barrier Function: A Narrative Review.

Disease modifiers, whether from cancer, sepsis, systemic inflammation, or microbial pathogens, all appear to induce epithelial barrier leak, with induced changes of the Tight Junctional (TJ) complex being pivotal to the process. This leak-and the ensuant breakdown of compartmentation-plays a central role in disease morbidity on many levels. Accumulation of lung water in the luminal compartment of airways was a major driver of morbidity and mortality in COVID-19 and is an excellent example of the phenomenon.

Calcitriol modifies tight junctions, improves barrier function, and reduces TNF-α-induced barrier leak in the human lung-derived epithelial cell culture model, 16HBE 14o.

Using the 16HBE 14o- human airway epithelial cell culture model, calcitriol (Vitamin D) was shown to improve barrier function by two independent metrics - increased transepithelial electrical resistance (TER) and reduced transepithelial diffusion of C-D-mannitol (J ). Both effects were concentration dependent and active out to 168 h post-treatment. Barrier improvement associated with changes in the abundance of specific tight junctional (TJ) proteins in detergent-soluble fractions, most notably decreased claudin-2.

The multiphasic TNF-α-induced compromise of Calu-3 airway epithelial barrier function.

Airway epithelial barrier leak and the involvement of proinflammatory cytokines play a key role in a variety of diseases. This study evaluates barrier compromise by the inflammatory mediator Tumor Necrosis Factor-α (TNF-α) in the human airway epithelial Calu-3 model. We examined the effects of TNF-α on barrier function in Calu-3 cell layers using Transepithelial Electrical Resistance (TER) and transepithelial diffusion of radiolabeled probe molecules.

Micronutrient Improvement of Epithelial Barrier Function in Various Disease States: A Case for Adjuvant Therapy.

The published literature makes a very strong case that a wide range of disease morbidity associates with and may in part be due to epithelial barrier leak. An equally large body of published literature substantiates that a diverse group of micronutrients can reduce barrier leak across a wide array of epithelial tissue types, stemming from both cell culture as well as animal and human tissue models. Conversely, micronutrient deficiencies can exacerbate both barrier leak and morbidity.

Improving Transient Transfection Efficiency in a Differentiated, Polar Epithelial Cell Layer.

Polar, differentiated epithelial cell culture models (especially at confluence) are difficult to transfect compared with the higher transfection efficiencies that one obtains with relatively less differentiated, nonpolar cell culture models. Here, we sought to develop a strategy to enhance the efficiency of transfecting polar, differentiated epithelial cells. We found that chemically abrading the differentiated CACO-2 human intestinal epithelial cell layer by a trypsin and EDTA pretreatment (before the use of detergent-like transfection reagents) dramatically improved transfection efficiency in this polar, differentiated model.

Spontaneous and cytokine-induced hole formation in epithelial cell layers: Implications for barrier function studies with the gingival cell culture, Gie-3B11, and other epithelial models.

Epithelial barrier function studies often attribute alterations in barrier function to induced changes in tight junctional (TJ) complexes. The occurrence of spontaneous and cytokine-induced, focal cell detachment in cell layers of the human gingival epithelial cell line, Gie-3B11, highlights the danger of this assumption without confirmatory experimentation. Gie-3B11 cell layers manifest morphological polarity, TJ complexes and barrier function after confluence but fail to then maintain a stable epithelial barrier.

Improvement of Human-Oral-Epithelial-Barrier Function and of Tight Junctions by Micronutrients.

The oral epithelium represents a major interface between an organism and its external environment. Improving this barrier at the molecular level can provide an organism added protection from microbial-based diseases. Barrier function of the Gie-3B11-human-gingival-epithelial-cell-culture model is enhanced by the micronutrients zinc, quercetin, retinoic acid, and acetyl-11-keto-β-boswellic acid, as observed by a concentration-dependent increase in transepithelial electrical resistance and a decrease in transepithelial C-d-mannitol permeability.

The Host Microbiome Regulates and Maintains Human Health: A Primer and Perspective for Non-Microbiologists.

Humans consider themselves discrete autonomous organisms, but recent research is rapidly strengthening the appreciation that associated microorganisms make essential contributions to human health and well being. Each person is inhabited and also surrounded by his/her own signature microbial cloud. A low diversity of microorganisms is associated with a plethora of diseases, including allergy, diabetes, obesity, arthritis, inflammatory bowel diseases, and even neuropsychiatric disorders.

Zinc reduces epithelial barrier compromise induced by human seminal plasma.

Human semen has the potential to modulate the epithelial mucosal tissues it contacts, as seminal plasma (SP) is recognized to contain both pro- and anti-barrier components, yet its effects on epithelial barrier function are largely unknown. We addressed the role of human SP when exposed to the basal-lateral epithelial surface, a situation that would occur clinically with prior mechanical or disease-related injury of the human epithelial mucosal cell layers in contact with semen. The action of SP on claudins-2, -4, -5, and -7 expression, as well as on a target epithelium whose basolateral surface has been made accessible to SP, showed upregulation of claudins-4 and -5 in CACO-2 human epithelial cell layers, despite broad variance in SP-induced modulation of transepithelial electrical resistance and mannitol permeability.

Sieving characteristics of cytokine- and peroxide-induced epithelial barrier leak: Inhibition by berberine.

Aim: To study whether the inflammatory bowel disease (IBD) colon which exhibits varying severity and cytokine levels across its mucosa create varying types of transepithelial leak.

Methods: We examined the effects of tumor necrosis factor-α (TNF-α), interferon-γ (IFN-γ), interleukin-1-β (IL1β) and hydrogen peroxide (H2O2) - singly and in combinations - on barrier function of CACO-2 cell layers. Our focus was on the type (not simply the magnitude) of transepithelial leak generated by these agents as measured by transepithelial electrical resistance (TER) and transepithelial flux of (14)C-D-mannitol, (3)H-Lactulose and (14)C-Polyethylene glycol as radiolabeled probe molecules.

Methionine restriction fundamentally supports health by tightening epithelial barriers.

Dietary methionine restriction (MR) has been found to affect one of the most primary tissue-level functions of an organism: the efficiency with which the epithelial linings of major organs separate the fluid compartments that they border. This process, epithelial barrier function, is basic for proper function of all organs, including the lung, liver, gastrointestinal tract, reproductive tract, blood-brain barrier, and kidney. Specifically, MR has been found to modify the protein composition of tight junctional complexes surrounding individual epithelial cells in a manner that renders the complexes less leaky.

Remodeling of Tight Junctions and Enhancement of Barrier Integrity of the CACO-2 Intestinal Epithelial Cell Layer by Micronutrients.

The micronutrients zinc, quercetin, butyrate, indole and berberine were evaluated for their ability to induce remodeling of epithelial tight junctions (TJs) and enhance barrier integrity in the CACO-2 gastrointestinal epithelial cell culture model. All five of these chemically very diverse micronutrients increased transepithelial electrical resistance (Rt) significantly, but only berberine also improved barrier integrity to the non-electrolyte D-mannitol. Increases of Rt as much as 200% of untreated controls were observed.

Zinc and gastrointestinal disease.

This review is a current summary of the role that both zinc deficiency and zinc supplementation can play in the etiology and therapy of a wide range of gastrointestinal diseases. The recent literature describing zinc action on gastrointestinal epithelial tight junctions and epithelial barrier function is described. Zinc enhancement of gastrointestinal epithelial barrier function may figure prominently in its potential therapeutic action in several gastrointestinal diseases.