The phenotypic effect of mutation of siaP and siaQ/M on LPS struc

The phenotypic effect of mutation of siaP and siaQ/M on LPS structure of NTHi strains was analyzed using gel electrophoresis. In agreement with previous studies using strain Rd [10] and PF477736 cost NTHi 2019 [12], siaP and siaQ/M mutants of NTHi strains 375 and 486 showed altered mobility of LPS consistent with a loss of sialylated LPS glycoforms when selleck screening library compared to the respective wild type (Figure 2). Further, the siaP mutant of strain 486 showed no change in LPS profile upon neuraminidase treatment (Figure 2). These data are fully consistent with the TRAP transporter being the primary means of sialic acid uptake in these NTHi strains.

Figure 2 T-SDS-PAGE analyses of LPS isolated from wild type (wt) strains Rd, 375 and 486 and their respective mutants. Panels (a) and (d) show profiles of LPS without (-) and with (+) neuraminidase treatment. The wt or mutant strains are indicated above each lane. Shown are: panels (a) and (b), strain Rd; panel (c), strain 375; panel (d), strain 486. Sialylation of LPS [28] is known to be an important virulence factor in H. influenzae, conferring increased resistance to killing by normal human serum [2, 3]. There was a marked decrease in the survival of mutants deficient in sialic acid uptake compared to wild type for strains Rd (Figure 3a), 486 (Figure 3b) and 375 (data not shown) following exposure to pooled

human serum for 45 mins, in agreement with previously published

data A1331852 [10]. Figure 3 Resistance (% survival) of H. influenzae strains to the killing effect of normal human serum. 500 organisms of strain Rd (panel a) or NTHi 486 (panel b) or derived mutants were added to different (doubling) dilutions of pooled human serum; percentage survival of inoculum of bacteria (y-axis) is shown for varying serum concentrations (x-axis). Each point is the averaged result of 3 independently performed experiments, error bars (1 standard deviation) are shown. By comparison, for strain Rd, the phenotype of a RdnanE mutant, affected in Neu5Ac catabolism, was relatively unchanged compared to wild type based on electrophoresis of LPS (Figure 2b) and susceptibility to killing in a bactericidal assay (Figure 3b). However, Bcl-w when a RdnanA mutant was compared to wild type by SDS-PAGE it was hypersialylated (Figure 2a) and showed increased serum resistance to killing when compared to the parent strain (Figure 3a). The changes in LPS profile when comparing the wild-type to strains with mutations in sialic acid catabolism genes in the 486 and 375 backgrounds were generally similar to the changes observed for strain Rd (data not shown). NTHi strains 375 and 486 have previously been used to investigate the role of sialic acid as a virulence factor in a well described chinchilla model of OM [3, 5]. For NTHi strains 375, 486 and strain Rd, we compared wild type and siaP mutants; approximately 100 c.f.u.

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