Natalia Díaz-Garrido scite author profile

The intestine is fundamental in controlling human health. Intestinal epithelial and immune cells are continuously exposed to millions of microbes that greatly impact on intestinal epithelial barrier and immune function. This microbial community, known as gut microbiota, is now recognized as an important partner of the human being that actively contribute to essential functions of the intestine but also of distal organs. In the gut ecosystem, bidirectional microbiota‐host communication does not involve direct cell contacts. Both microbiota and host‐derived extracellular vesicles (EVs) are key players of such interkingdom crosstalk. There is now accumulating body of evidence that bacterial secreted vesicles mediate microbiota functions by transporting and delivering into host cells effector molecules that modulate host signalling pathways and cell processes. Consequently, vesicles released by the gut microbiota may have great influence on health and disease. Here we review current knowledge on microbiota EVs and specifically highlight their role in controlling host metabolism, intestinal barrier integrity and immune training.

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Membrane vesicles from the probiotic Nissle 1917 and gut resident Escherichia coli strains distinctly modulate human dendritic cells and subsequent T cell responses

Díaz-Garrido

Fábrega

Vera

et al. 2019

Journal of Functional Foods

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Extracellular membrane vesicles (MVs) released by gut microbiota are key players in 2 the communication with the host. The aim of this study was to evaluate the 3 immunomodulatory properties of MVs from the probiotic E. coli Nissle 1917 (EcN) in 4 terms of DC-derived adaptative immune responses and to compare the effects with 5 those elicited by commensal E. coli. The effects of MVs were analysed in monocyte-6 derived DCs by measuring cytokine expression and the ability of activated-DCs to 7 differentiate CD4+ T cells towards specific effector subsets. EcN MVs drived intricated 8 Th1/Th2/Th17/Th22/Treg responses consistent with the beneficial effects of this 9 probiotic. Th2/Th17/Th22 responses were common to commensal E. coli-derived 10 vesicles but specific differences were observed for Th1 and Treg responses. Since MVs 11 activate DCs in a strain-specific manner, probiotic-derived MVs could be explored as a 12 safe (bacteria-free) strategy to develop new functional food ingredients targeting gut 13 microbiota balance or intestinal inflammation.

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Thymol-loaded PLGA nanoparticles: an efficient approach for acne treatment

et al. 2021

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Background Acne is a common skin disorder that involves an infection inside the hair follicle, which is usually treated with antibiotics, resulting in unbalanced skin microbiota and microbial resistance. For this reason, we developed polymeric nanoparticles encapsulating thymol, a natural active compound with antimicrobial and antioxidant properties. In this work, optimization physicochemical characterization, biopharmaceutical behavior and therapeutic efficacy of this novel nanostructured system were assessed. Results Thymol NPs (TH-NP) resulted on suitable average particle size below 200 nm with a surface charge around − 28 mV and high encapsulation efficiency (80%). TH-NP released TH in a sustained manner and provide a slow-rate penetration into the hair follicle, being highly retained inside the skin. TH-NP possess a potent antimicrobial activity against Cutibacterium acnes and minor effect towards Staphylococcus epidermis, the major resident of the healthy skin microbiota. Additionally, the stability and sterility of developed NPs were maintained along storage. Conclusion TH-NP showed a promising and efficient alternative for the treatment of skin acne infection, avoiding antibiotic administration, reducing side effects, and preventing microbial drug resistance, without altering the healthy skin microbiota. Additionally, TH-NP enhanced TH antioxidant activity, constituting a natural, preservative-free, approach for acne treatment. Graphical Abstract

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Cell-to-Cell Communication by Host-Released Extracellular Vesicles in the Gut: Implications in Health and Disease

Díaz-Garrido

Cordero

Olivo-Martinez

et al. 2021

IJMS

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Communication between cells is crucial to preserve body homeostasis and health. Tightly controlled intercellular dialog is particularly relevant in the gut, where cells of the intestinal mucosa are constantly exposed to millions of microbes that have great impact on intestinal homeostasis by controlling barrier and immune functions. Recent knowledge involves extracellular vesicles (EVs) as mediators of such communication by transferring messenger bioactive molecules including proteins, lipids, and miRNAs between cells and tissues. The specific functions of EVs principally depend on the internal cargo, which upon delivery to target cells trigger signal events that modulate cellular functions. The vesicular cargo is greatly influenced by genetic, pathological, and environmental factors. This finding provides the basis for investigating potential clinical applications of EVs as therapeutic targets or diagnostic biomarkers. Here, we review current knowledge on the biogenesis and cargo composition of EVs in general terms. We then focus the attention to EVs released by cells of the intestinal mucosa and their impact on intestinal homeostasis in health and disease. We specifically highlight their role on epithelial barrier integrity, wound healing of epithelial cells, immunity, and microbiota shaping. Microbiota-derived EVs are not reviewed here.

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