2015
DOI: 10.1016/j.ejpb.2015.01.010
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Mimicking microbial strategies for the design of mucus-permeating nanoparticles for oral immunization

Abstract: Dealing with mucosal delivery systems means dealing with mucus. The name mucosa comes from mucus, a dense fluid enriched in glycoproteins, such as mucin, which main function is to protect the delicate mucosal epithelium. Mucus provides a barrier against physiological chemical and physical aggressors (i.e., host secreted digestive products such as bile acids and enzymes, food particles) but also against the potentially noxious microbiota and their products. Intestinal mucosa covers 400m(2) in the human host, an… Show more

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Cited by 31 publications
(21 citation statements)
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“…In addition, from a microscopic point of view ( Figure 6), it was clear that bare nanoparticles displayed a different behaviour than thiamine-nanoparticles (T-NPA and T-NPB). Thus, within the gut mucosa, NP was localized in the protective mucus layer confirming their mucoadhesive capability (Arbós et al, 2002;Gamazo et al, 2015). On the contrary, thiamine nanoparticles appeared to be capable of reaching the intestinal epithelium, confirming their mucus permeating properties.…”
Section: Discussionmentioning
confidence: 79%
“…In addition, from a microscopic point of view ( Figure 6), it was clear that bare nanoparticles displayed a different behaviour than thiamine-nanoparticles (T-NPA and T-NPB). Thus, within the gut mucosa, NP was localized in the protective mucus layer confirming their mucoadhesive capability (Arbós et al, 2002;Gamazo et al, 2015). On the contrary, thiamine nanoparticles appeared to be capable of reaching the intestinal epithelium, confirming their mucus permeating properties.…”
Section: Discussionmentioning
confidence: 79%
“…The particles can deliver the coated or “decorated” compounds or molecules to follicle associated epithelium (FAE, e.g., Peyer's patches), where covered with M cells, specialized for the antigen sampling (Pelaseyed et al., ). Oral delivery of nanocarriers can mimic microbial invasion to circumvent mucosal barriers to reach to the epithelial cells and induce the mucosal immunity and protective responses in a long term (Gamazo, Martín‐Arbella, Brotons, Camacho, & Irache, ). Utilization of nanoparticles or microparticles as delivery systems would protect pigs against T. spiralis infection in a lifelong period after a single immunization, which would be suitable for the free‐ranging pigs.…”
Section: Challenges and Opportunitiesmentioning
confidence: 99%
“…[1][2][3][4][5] Besides all the advantages of the oral route, factors like low aqueous solubility of drugs, limited gastrointestinal (GI) absorption, rapid metabolism of drug, and low mucosal permeability play a major role in the disappointing in vivo results. [5][6][7][8] The intestinal mucosa plays an effective role as a physical barrier that covers the surfaces of the GI tract, allowing selective absorption of nutrients, electrolytes, and fluids, at the same time protecting the host from environmental pathogens.…”
Section: Introductionmentioning
confidence: 99%
“…18,19 In this context, mannosylated nanocarriers obtained by the decoration of particulates with mannose or its derivatives have been considered promising non-live vectors. 4,10,13,20 Moreover, M-cells may be exploited by some pathogenic microorganisms, such as Salmonella, Yersinia, Typhimurium (Salmonella typhimurium), Mycobacterium sp., and retrovirus, as a portal for the host organism. 11,12,21 M. leprae is an intracellular pathogen and the endocytic/phagocytic pathway may represent an interesting approach to allow targeted drug delivery intracellularly.…”
Section: Introductionmentioning
confidence: 99%
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