Publications by authors named "Jessica-Miranda Bustamante"
Bile acids (BA) are among the most abundant metabolites produced by the gut microbiome. Primary BAs produced in the liver are converted by gut bacterial 7-α-dehydroxylation into secondary BAs, which can differentially regulate host health via signaling based on their varying affinity for BA receptors. Despite the importance of secondary BAs in host health, the regulation of 7-α-dehydroxylation and the role of diet in modulating this process is incompletely defined.
View Article and Find Full Text PDFFecal microbiota transplantation (FMT) is a promising therapeutic modality for the treatment and prevention of metabolic disease. We previously conducted a double-blind, randomized, placebo-controlled pilot trial of FMT in obese metabolically healthy patients in which we found that FMT enhanced gut bacterial bile acid metabolism and delayed the development of impaired glucose tolerance relative to the placebo control group. Therefore, we conducted a secondary analysis of fecal samples collected from these patients to assess the potential gut microbial species contributing to the effect of FMT to improve metabolic health and increase gut bacterial bile acid metabolism.
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- 2D engineered nanomaterials are extensively utilized in products due to their distinct properties, but they can be aerosolized during manufacturing and might negatively interact with biological tissues like the lungs and eyes.
- Eight different 2D nanomaterials, including various forms of graphene and hexagonal boron nitride, were tested for their toxic effects on epithelial cells from murine and human sources.
- Hexagonal boron nitride demonstrated cytotoxicity across multiple cell types but did not inhibit wound healing at lower, non-toxic concentrations, highlighting the need for cautious use of nanomaterials due to varying toxicity depending on cell type.
Do immature lungs have air-blood barriers that are more permeable to inhaled nanoparticles than those of fully developed mature lungs? Data supporting this notion and explaining the underlying mechanisms do not exist as far as we know. Using a rat model of postnatal lung development, here the data exactly supporting this notion, that is, significantly more gold nanoparticles (NPs) cross from the air space of the lungs to the rest of the body in neonates than in adults, are presented. Moreover, in neonates the translocation of gold NPs is not size dependent, whereas in adult animals smaller NPs cross the air-blood lung barrier much more efficiently than larger NPs.
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