Limited information is available regarding the effect of Lactobacillus on the gut-bone axis. We examined whether 10-week administration of milk products fermented by Lactobacillus fermentum MF27 and/or Lactobacillus casei 393 modified gut-bone dysbiosis induced by ovariectomy and lipopolysaccharide (OVX-LPS) in rats. The fermented milk products selectively modulated gut microbiota composition and improved intestinal barrier function; they suppressed osteoclastogenesis, thereby increasing trabecular bone volume in OVX-LPS rats. These findings suggest that the gut-bone axis can be modulated not only by viable Lactobacillus strains but also by milk products fermented by Lactobacillus, which may contain metabolites and/or bioactive peptides.
This study was performed to help the researchers who are investigating or screening functional Lactobacillus strains with some kinds of prebiotics such as oligosaccharide, polysaccharide and fibre throughout serial in vitro study. We selected some Lactobacillus strains with prebiotics to be treated on two cell lines that we hypothesised them as gut and brain when the host consumes synergistic synbiotics. Selected synergistic synbiotics candidate significantly protected each cell against different stressors. The results may be used to develop supplementary functional dairy product as diet therapy or as medication to protect gut and brain who suffer from brain-related disease.
This study aimed to assess the anti-inflammatory effect of Lactobacillus casei 3260 (LC) alone and LC-fermented Gleditsia sinensis thorn (GST) extract in mouse model of type II collagen induced rheumatoid arthritis (RA). In our previous work, we confirmed the antiinflammatory effects of LC and GST against LPS-induced inflammation in vitro. In this study, LC and GST were fermented and their effects were assessed in an animal model of RA. Both LC and fermented GST (fGST) treatment reduced mice serum nitrite and total cholesterol and triggered myeloperoxidase (MPO) activity. In addition, both LC and fGST reduced inflammation-related serum biomarkers such as tumor necrosis factor-α, interleukin (IL)-6, IL-17, and IL-1β. As per the morphological analysis, both LC and fGST protected hind paw joints against RA, and its related mRNA markers improved. Finally, arthritis scores were measured as an indicator of RA of the whole experimental period; the scores suggested that both LC and fGST protect against collagen-induced RA-related inflammation in a mouse model.
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