posted on 2015-08-07, 00:00authored byBokyung Lee, Sybille Tachon, Richard
A. Eigenheer, Brett S. Phinney, Maria L. Marco
We
found that incubation of probiotic Lactobacillus casei BL23 in milk at 4 °C prior to ingestion increased its survival
in the mammalian digestive tract. To investigate the specific molecular
adaptations of L. casei to milk, we used tandem mass
spectrometry to compare proteins produced by L. casei BL23 at 4 °C in milk to those in exponential and stationary
phase cells in laboratory culture medium at either 37 or 4 °C.
These comparisons revealed a core of expressed L. casei proteins as well as proteins produced in either a growth-phase or
temperature-specific manner. In total, 205 L. casei proteins were uniquely expressed or detected in higher abundance
specifically as a result of incubation in milk and included an over-representation
of proteins for cell surface modification, fatty acid metabolism,
amino acid transport and metabolism, and inorganic ion transport.
Genes for DltD (d-alanine transfer protein), FabH (3-oxoacyl-ACP
synthase), RecA (recombinase A), and Sod (superoxide dismutase) were
targeted for inactivation. The competitive fitness of the mutants
was altered in the mouse intestine compared with wild-type cells.
These results show that the food matrix can have a profound influence
on dietary (probiotic) bacteria and their functional significance
in the mammalian gut.