With this in mind, the kinetic of adhesion were studied using six time points, 0, 30, 60, 90, 120 and 240 min (Fig. 4); a 90-min adhesion time is assumed to be sufficient for the occupation of a surface with irreversibly attached cells (Li et al., 2003; Seneviratne et al., 2009). This experiment was performed with the standard strain as well as the catheter isolate on polystyrene plates. No significant differences were observed SAHA HDAC between the strains (P<0.001). As indicated in Fig. 4, 30 min can be considered to be critical for both C. albicans strains to saturate a free surface, with about 60% of the yeasts attached and with a prolonged adhesion maximum until 120 min with
approximately 69% adhesion. On the basis of these results, the changes in BTK inhibitor the adhesion phase during biofilm development after incubation of both C. albicans yeasts with polyclonal
anti-CR3-RP antibody, OKM1 mAb as well as control antibody were selected at 30, 60, 90 and 120 min of adhesion. The main focus of this manuscript was on the hypothesis of whether a reduction in biofilm production can be achieved by decreasing cell attachment to the surface in the first stage of biofilm development – adhesion. For this experiment, the yeasts of both tested C. albicans strains were incubated with polyclonal anti-CR3-RP antibody or OKM1 mAb and compared with control samples incubated with TIB111 mAb. The results summarized in Fig. 5 clearly show that the adhesion of the yeasts was
reduced after incubation with both antibodies, although this process appeared to be strain-dependent. In the standard C. albicans CCY 29-3-192 strain, the proportion of the reduction in adherence using polyclonal anti-CR3-RP antibody or OKM1 mAb compared with the control antibody (0% of reduction) proved to be very similar with regard to time points: 39.4%, 55.8%, 42.3% and 48.1% (P<0.001) and 6.3%, 33.9%, 24.6% and 28.1%, respectively, at 30, 60, 90 and 120 min (P<0.01), with the exception for 30 min, where P>0.05). The antibodies were observed to have different effects on the catheter isolate. Generally, both antibodies reduced its adherence to a greater extent than in the standard strain. While polyclonal anti-CR3-RP antibody showed an approximately similar reduction in adherence (71.6%, 73.8%, 67.0% and 62.6%, respectively, at 30, 60, 90 and 120 min, P<0.001), for the OKM1 mAb it increased continuously Branched chain aminotransferase (63.9%, 66.9%, 77.0% and 83.9%, respectively, P<0.001). It is interesting to note that the proportional reduction of mature biofilm (Fig. 6) was very similar in both strains and antibodies used: 74.5/69.7% for polyclonal anti-CR3-RP antibody and 72.7/64.1% for OKM1 mAb for C. albicans CCY 29-3-162 and the clinical catheter isolate, respectively. For mature biofilm, the duration of adhesion between 30 and 120 min when the maximal number of cells is attached to the plastic surface, seems to have a significant effect on total biofilm production.