Choice for Host-specific High-adhesive Lactobacillus Strains

Adhesive ability was tested in seven lactobacillus so-lated from the chicken digestive tract after cultivation with CaCo-2 cells (intestinal epithelial cells), MDCK (dog kidney) cells and CEF (chicken embryo fiber) cells. We noted the following important observations regarding the adhesive ability between different lac-tobacillus strains and three cell types: the adhesive interaction between the SDnB 7 , SDnE 1 and SDnA 3 lactobacillus strains and CaCo-2 cells was greater compared to controls, the adhesive effect between SDnB 1 and CEF cells was also greater than controls and lactobacillus showed only minimal adherence to MDCK cells. Incubation time also affected lactoba-cillus adherence to CaCo-2 cells: adhesive ability was optimal at 37˚C when incubated for 2 days and this was confirmed by a local increase in the concentration of lactobacillus around CaCo-2 cells when incu-bated for 24 h as opposed to 3 h. Adherence ability in lactobacillus was also tested at various concentrations 5 and 10 4). The number of lactobacil-lus that adhered around the cells was significantly increased in the treatment with 10 8 bacterial cells. Transmission electron microscopy revealed that the cellularity of the junction between CaCo-2 cells and lactobacillus was not compromised. Transmission electron microscopy also revealed that the thalli fabric structure remained intact


INTRODUCTION
The definition for probiotics has gradually changed with an increasing understanding of how it influences human and animal health.A potentially successful probiotic strain is expected to have several desirable properties in order to show benefit.These properties include the ability to adhere to cells while remaining non-pathogenic.Adherence to the intestinal mucosa is considered selec-tion criteria for probiotic microorganisms [1][2][3][4][5][6][7][8][9][10][11].
Lactobacillus bacteria have the capacity to adhere to intestinal epithelial cells.Different species of these bacterium vary in their adherence ability.Rinkinen (2003) and Gusils (2002) suggested that the adhesive ability of probiotic strains is species specific but not host-specific [12,13].We, on the other hand, aimed to demonstrate that strains were not only species-specific but also hostspecific.
We isolated lactobacillus bacteria from the chicken digestive tract and tested their adherence to CaCo-2 cells, CEF cells and MDCK cells.The choice of high adhesive strains based on host-specificity will serve to advance research in adhesive mechanisms and production.

CaCo-2 Cells, MDCK Cells and CEF Cells
CaCo-2 cells (intestinal epithelial cells) were obtained from the cell bank, China science college, Shanghai.MD-CK cells were obtained from the medical science college of Beijing.CEF cells were retrieved after 10 days from an SPF chicken embryo.

Lactobacillus Adherence Assay
Briefly, cell monolayers were prepared on glass coverslips and then placed in 24-well corning tissue culture plates.For the various strains, we added liquids at a volume of 200 μl and 400 μl to the 24-well plates (concentration of the strains was 1 × 10 8 bacteria per ml culture supernatants), incubated at 37˚C in 5% CO 2 -95% air and after 3 h or 24 h of incubation, the glass was removed and the monolayers were washed six times with sterile PBS.After drying, fixation in methanol, and staining with a Gram stain, samples were examined microscopically.For each separate strain adherence assay, the number of adherent bacteria were evaluated in 20 random microscopic sections.Adhesion assays were evaluated by two different technicians to eliminate bias.

Transmission Electrictron Microscopy
We mixed CaCo-2 cell suspensions (at a concentration of 10 5 /ml) with lactobacillus suspenstions (at a concentration of 10 7 /ml), then incubated at 37˚C in 5% CO 2 -95% air for 3 h.Liquids were then collected, washed six times with sterile PBS and centrifuged (1000 rpm/min, 5 min) to remove non-adherent bacteria.Cell were fixed with 3.5% glutaraldehyde and post-fixed with agar.Supernatant liquids were washed with 0.1 M phosphate buffer for 1 h, post-fixed with 1% O S O 4 , washed with 0.1 M phosphate buffer and dehydrated in an alcohol gradient (30, 50, 70, 80, 90 and 100% ethanol) suprr resin sock wrap up; LKB super film slicer have on film slice acetate shaddock-lemmon acid lead dye; the specimens were then examined with a JEOL-1200EX transmission electron microscope.

RESULTS
Lactobacillus strains are host-specific and the adhesion number between cell types is variable.The lactobacillus strains that successfully adhered to CaCo-2 cells is shown in Figure 1 and Table 1.The effect of different lactobacillus strains adherence to CaCo-2 cells is vaiable between SDnB 1 , SDnB 7 and SDnE 1 , while SDnA 3 had a significantly increased adhesive effect.Lactobacillus was shown to only slightly adhere to MDCK cells (Fig-

ure 2).
A number of Lactobacillus strains successfully adhere to CEF cells, in particular, the SDnA 3 and SDnB 1 strains demonstrated good adhesion (Figure 3, Table 2).

Concentration of Strains Affects Lactobacillus Adhesion to CaCo-2 Cells
Higher concentrations of all the lactobacillus strains displayed greater adherence to CaCo-2 cells (Table 5).

Incubation Time Affected Lactobacillus Adherence to CaCo-2 Cells
A 24 h incubation time encouraged better lactobacillus adherence to CaCo-2 cells compared to an incubation time of 3 h (Table 6).

Transmission Electron Microscopy Results
Lactobacillus adheres to CaCo-cells; the cellularity of      the junction between CaCo-2 cells and lactobacillus was preserved (Figure 4).

DISCUSSION
The human gastrointestinal tract is colonized by a variety of gram-positive and gram-negative organisms including bacteria belonging to the lactobacillus genus.The human CaCo-2 cell line has proven to be one of the best model systems for studying interactions between bacterial cells and intestinal epithelial cells [14].
We investigated the adherence of lactobacillus species to CaCo-2 cells quantitatively.The two methods we used to calculate the number of lactobacillus adhering to intestinal epithelial cells included: counting and see.fore is directive use numerical value and post by subjective imagination connect them can precise to response adhesion effect.
We found that lactobacillus have the ability to adhere to intestinal epithelial cells and CEF cells but adhestion to MDCK cells was minimal.This observation is a clear example of host-specificity that until now, had not been OPEN ACCESS  reported.Intestinal epithelial cells are tumor derived and for this reason, we also incubated primary intestinal epithelial cells from 10 SPF chicken embryos.The adhesion effect was very similar to that seen in the tumorderived cell line.
Incubation time and concentration have a significant effect on lactobacillus adhesion.We demonstrated that incubation for 2d at 37˚C and a 10 8 cells/mL bacterial concentration enhanced adhestion ability.This culture conditions will be useful for future adhesion experiments.

Figure 2 .
Figure 2. Lactobacillus can hardly adhere to MDCK cell.

Table 4 .Table 5 .Table 6 .
Effect of altering incubation time on the number of lactobacillus SDnB 7 individual plants adherence to CaCo-2 cells.values within column with different superscripts differ significantly (p < 0.05).Effect of different concentrations on the number of lactobacillus individual plants adhering to CaCo-2 cells.± 0.60 e a ,b,c,d,e values within column with different superscripts differ significantly (p < 0.05).Effect of different incubation time on the number of lactobacillus individual plants SDn E 1 adherence to CaCo-2 cells.Action time (h) Level of lactobacillus adhering to CaCo-2 cells (entries/cell) values within column with different superscripts differ significantly (p < 0.05).

Table 1 .
Various lactobacillus individual plants adhere to CaCo-2 cells.

Table 2 .
The number of different lactobacillus individual plants adhere to CEF cell.

Table 3 .
Effect of varying incubation time on the number of lactobacillus individual plants adhering to CEF cells.