Metabolic adaptation of Lactococcus lactis in the digestive tract: the example of response to lactose.

Lactococcus lactis is a model of food-grade lactic acid bacterium, which can durably colonize the digestive tract of germ-free mice. To study in vivo the bacterial adaptation to a novel nutritional resource brought by alimentation, the lactose-catabolizing strain IL2661 of L. lactis was established in monoxeny in mice.

Beta-glucuronidase in human intestinal microbiota is necessary for the colonic genotoxicity of the food-borne carcinogen 2-amino-3-methylimidazo[4,5-f]quinoline in rats.

2-amino-3-methylimidazo[4,5-f]quinoline (IQ) is a genotoxic/carcinogenic compound formed in meat and fish during cooking. Following absorption in the upper part of the gastrointestinal tract, IQ is mainly metabolized in the liver by xenobiotic-metabolizing enzymes. Among them, UDP-glucuronosyl transferases lead to harmless glucuronidated derivatives that are partly excreted via the bile into the digestive lumen, where they come into contact with the resident microbiota.

Beta-galactosidase production by Streptococcus thermophilus is higher in the small intestine than in the caecum of human-microbiota-associated mice after lactose supplementation.

Transit kinetics and survival rates of a bacterial species from yoghurt (i.e. Streptococcus thermophilus strain FBI3) were examined in different digestive compartments of gnotoxenic and human-microbiota-associated mice.

Conservation of key elements of natural competence in Lactococcus lactis ssp.

Natural competence is active in very diverse species of the bacterial kingdom and probably participates in horizontal gene transfer. Recently, the genome sequence of various species, including Lactococcus lactis, revealed the presence of homologues of competence genes in bacteria, which were not previously identified as naturally transformable. We investigated the conservation among lactococcal strains of key components of the natural competence process in streptococci: (i) comX which encodes a sigma factor, allowing the expression of the late competence genes involved in DNA uptake, (ii) its recognition site, the cin-box and (iii) dprA which encodes a protein shown to determine the fate of incoming DNA.

Differential activities of four Lactobacillus casei promoters during bacterial transit through the gastrointestinal tracts of human-microbiota-associated mice.

In a previous study using fusion of the deregulated lactose promoter lacTp* and reporter genes, we suggested that Lactobacillus casei could initiate de novo protein synthesis during intestinal transit. In order to confirm this finding and extend it to other promoters, we adopted a reverse transcriptase quantitative PCR (RT-QPCR) approach combined with a transcriptional fusion system consisting of luciferase genes under the control of four promoters (ccpA, dlt, ldh, and lacT*) from L. casei DN-114 001.

Identification of a phosphofructokinase-encoding gene from Streptococcus thermophilus CNRZ1205--a novel link between carbon metabolism and gene regulation?

In order to isolate genes encoding so-called Two-Component Regulatory Systems from the lactic acid bacterium Streptococcus thermophilus, a cloning strategy was employed based on suppression of the alkaline phosphatase-negative phenotype displayed by the Escherichia coli strain ANCC22. Several suppressing clones were obtained which were shown to produce alkaline phosphatase activity. Sequence analysis of four of these clones revealed the presence of overlapping DNA inserts representing two ORFs, designated pfkT and pykT, whose deduced protein products exhibit significant similarity to phosphofructokinases and pyruvate kinases, respectively, from a variety of bacteria.

Lactococcus lactis AbiD1 abortive infection efficiency is drastically increased by a phage protein.

Sensitivity of phage bIL66 to the AbiD1 Lactococcus lactis abortive infection mechanism was previously shown to be determined by the phage middle-time-expressed operon composed of four orfs. Using spontaneous bIL66 mutants resistant to AbiD1, we established that this sensitivity is determined by the orf1 encoded protein. Overproduction of Orf1 in trans in AbiD1(+) cells was shown to increase AbiD1 efficiency on both wild-type phage bIL66 and mutants resistant to AbiD1.

The peptidyl-prolyl isomerase motif is lacking in PmpA, the PrsA-like protein involved in the secretion machinery of Lactococcus lactis.

The prsA-like gene from Lactococcus lactis encoding its single homologue to PrsA, an essential protein triggering the folding of secreted proteins in Bacillus subtilis, was characterized. This gene, annotated pmpA, encodes a lipoprotein of 309 residues whose expression is increased 7- to 10-fold when the source of nitrogen is limited. A slight increase in the expression of the PrsA-like protein (PLP) in L.

Lactobacillus casei is able to survive and initiate protein synthesis during its transit in the digestive tract of human flora-associated mice.

Live Lactobacillus casei is present in fermented dairy products and has beneficial properties for human health. In the human digestive tract, the resident flora generally prevents the establishment of ingested lactic acid bacteria, the presence of which is therefore transient. The aim of this work was to determine if L.

Sequence analysis of the lactococcal bacteriophage bIL170: insights into structural proteins and HNH endonucleases in dairy phages.

The complete 31754 bp genome of bIL170, a virulent bacteriophage of Lactococcus lactis belonging to the 936 group, was analysed. Sixty-four ORFs were predicted and the function of 16 of them was assigned by significant homology to proteins in databases. Three putative homing endonucleases of the HNH family were found in the early region.

Streptococcus thermophilus is able to produce a beta-galactosidase active during its transit in the digestive tract of germ-free mice.

This work presents data on the application of a bacterial luciferase used to monitor gene expression of Streptococcus thermophilus in the digestive tract. The main result is that the bacterium was able to produce an active beta-galactosidase in the digestive tract, although it did not multiply during its transit. This production was enhanced when lactose (the inducer) was added to the diet.

Characterization of the lactococcal abiD1 gene coding for phage abortive infection.

Lactococcal phage abortive infection (AbiD1) determined by plasmid pIL105 is active on both prolate- and small-isometric-head phages of the C6A and 936 phage groups, respectively, which are considered two different species. The Abi phenotype was found to be encoded by a single gene, designated abiD1. The abiD1-encoded protein (351 amino acids) does not show homology with any known protein and has a deduced isoelectric point of 10.

Nucleotide sequence of the Pseudomonas aeruginosa phoB gene, the regulatory gene for the phosphate regulon.

The nucleotide sequence of Pseudomonas aeruginosa phoB was determined. The sequence data suggest that the PhoB polypeptide consists of 229 amino acid residues and has a predicted molecular weight of 25,708. In the regulatory region of the gene, a very well conserved phosphate box was found.

Improving the stability of a foreign protein in the periplasmic space of Escherichia coli.

An efficient expression/export vector comprising the entire phoS (phosphate binding protein) gene fused to a synthetic gene encoding the human growth hormone releasing factor (mhGRF) has recently been constructed [1]. The hybrid protein (PhoS-mhGRF) was exported to the periplasmic space. However, in this location proteolytic degradation occurred at the C-terminal region.

Production and purification of human growth-hormone-releasing factor from continuous cultures of recombinant-plasmid-containing Escherichia coli.

A recombinant gene comprising phoS (the gene for the phosphate-binding protein PhoS) fused to a synthetic gene for a modified human growth-hormone-releasing factor (mhGRF) has been constructed. This gene was highly expressed in cells growing under conditions of phosphate starvation. Various conditions of continuous culture, varying in phosphate concentrations and dilution rates, have been tested to optimize the expression of the hybrid gene product (PhoS-mhGRF).

Conditions leading to secretion of a normally periplasmic protein in Escherichia coli.

The phosphate-binding protein (PhoS) is a periplasmic protein which is part of the high-affinity phosphate transport system of Escherichia coli. Hyperproduction of PhoS in strains carrying a multicopy plasmid containing phoS led to partial secretion of the protein. By 6 h after transfer to phosphate-limiting medium, about 13% of the total newly synthesized PhoS was secreted to the medium.

Expression vector promoting the synthesis and export of the human growth-hormone-releasing factor in Escherichia coli.

We have studied the synthesis, processing and export of human growth-hormone-releasing factor (hGRF) in Escherichia coli transformed with a plasmid constructed for the expression of hGRF as a hybrid protein. A DNA fragment containing the entire sequence of phosphate-binding protein gene (phoS) is fused to a modified hGRF-coding sequence (phoS-mhGRF). The hybrid protein, PhoS-mhGRF, was recovered in the supernatant fluid after spheroplasting treatment indicating correct export to the periplasmic space.

Lack of effect of leader peptidase overproduction on the processing in vivo of exported proteins in Escherichia coli.

The kinetics of maturation of certain exported proteins were analysed in Escherichia coli strains that also concomitantly overproduce either a periplasmic protein or the leader peptidase. The results led to three conclusions. Overproduction of leader peptidase has no effect on the rate of maturation of at least two exported proteins, one periplasmic (TEM beta-lactamase), one outer membrane (PhoE); therefore, the quantity of leader peptidase is not rate-limiting for normal export.

Direct evidence for a coupling between synthesis and export of PhoS in E. coli.

The accumulation of pre-PhoS under conditions of PhoS overproduction has been previously described. It is now demonstrated that during the induction of PhoS, a delay in the completion of polypeptide chain elongation can be detected. This delay is related to the extent of jamming of export sites by pre-PhoS or by other exported proteins.

Protein export in Escherichia coli.

Hyperproduction of phosphate-binding protein (PhoS) resulted in saturation of export sites, and pre-PhoS was accumulated both in the inner membrane and in the cytoplasm. The cytoplasmic pre-PhoS could not be exported post-translationally; only the membrane-associated precursor could be matured and exported. Preliminary evidence has been obtained for the existence of a translation stop.

Normal precursors of periplasmic proteins accumulated in the cytoplasm are not exported post-translationally in Escherichia coli.

Hyperproduction of phosphate-binding protein, PhoS, in strains carrying a multicopy plasmic containing the phoS gene, resulted in saturation of export sites. As a consequence, pre-PhoS was accumulated both in the inner membrane and in the cytoplasm. This was evidenced both in electron-microscopy and after cell fractionation.

The periseptal annulus in Escherichia coli.

Evidence is presented that two circumferential zones of cell envelope differentiation, the periseptal annuli, exist in E. coli as previously observed in S. typhimurium.