Among the proteins, whose expression was affected by the presence

Among the proteins, whose expression was affected by the presence of mucus, it is worth pointing out the lower concentration of a putative elongation factor Ts. This protein associates with the elongation factor Tu during protein translation in the ribosome, but they can also be displayed on the surface of the bacteria, where they have been reported to act as mediators of adhesion processes to mucins (Granato et al., 2004; Wu et al., 2008). Ketol acid reductoisomerase

1, a protein involved in the synthesis of branched chain amino acids (BCAAs), significantly increased its concentation as a response to the presence of mucus. BCAAs are the most abundant amino acids in membrane proteins, and it is known that many membrane proteins are induced in bacteria as a response to mucus (Ruas-Madiedo et al., 2008; Tu et al., 2008), suggesting an enrichment of BCAA-reach proteins, mTOR inhibitor likely membrane proteins, in the

presence of mucus. Furthermore, ribose 5-phosphate isomerase (RpiA) was drastically overproduced in the presence of mucus. RpiA is an enzyme that catalyses the interconversion between ribose-5-phosphate and ribulose-5-phosphate in the pentose phosphate pathway. These data suggest that the carbohydrate preferences of B. longum could change when mucus is present in the medium, and could indicate a shift in the carbohydrate catabolism of this bacteria, which prompted us to determine some glycosyl hydrolase activities, the glucose consumption and the abundance of some secondary metabolites. Enzymatic activities were determined for the cytoplasmic fraction and for Aprepitant the secreted fraction (Table 2). We

detected some minor changes in β-d-galactopyranosidase, IWR-1 α-l-arabinofuranosidase, N-acetyl-β-d-glucosaminidase, α-d-galactopyranosidase and β-d-xylopyranosidase activities. Remarkably, the N-acetyl-β-d-glucosaminidase activity showed a reduction in the cytoplasmic protein extracts, and an increase in the extracellular milieu, when the cells were grown in the presence of mucus. Bacterial N-acetyl-β-d-glucosaminidases are glycoprotein-degrading enzymes that have been related to the colonization of mucus environments (Homer et al., 1994; Karamanos et al., 1995). The increase of the secreted activity in the presence of mucus could support the possible role of this enzyme in mucus degradation. Finally, we found a significant increase in the glucose consumption of cells grown in the presence of mucus (295.43 ± 19.38 mg of glucose consumed in 100 mL), in relation to those conditions in which mucus was not present (226.71 ± 23.70 mg of glucose consumed in 100 mL). Consistent with an activation of the glucose catabolism in the presence of mucus, we also detected a higher production of lactic and acetic acids when mucus was present in the growth medium (50.78 ± 5.02 mg 100 mL−1 of lactic acid and 85.14 ± 7.96 mg 100 mL−1 of acetic acid in the absence of mucus; 78.62 ± 4.95 mg 100 mL−1 of lactic acid and 115.13 ± 4.

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