This is the first time shown that 20-kDaPS is discrete from PIA a

This is the first time shown that 20-kDaPS is discrete from PIA and this statement is based on concrete basis. Transposon insertion in icaADBC, the locus encoding PARP inhibitor synthetic enzymes for PIA synthesis, does not abrogate production of 20-kDaPS. In mutant 1457-M10 in which Tn917 was inserted in icaA in the same transcriptional orientation, outward directed transcription resulted in transcripts comprising the complete sequences of icaD icaB and icaC[44]. Expression of 20-kDaPS in mutant 1457-M10 where icaA synthesis is inhibited and in

mutant M22 and M3 where icaC expression was inhibited shows that 20-kDaPS synthesis does not require an intact icaA or icaC gene. The fact that 20-kDaPS was detected in M24, where Tn917 was inserted in the opposite transcriptional direction to the ica operon and no-ica specific transcripts were identified [44], provides evidence that 20-kDaPS synthesis is Q-VD-Oph manufacturer independent of ica operon. In contrast, PIA synthesis is completely inhibited not only by the disruption of

the entire icaADBC operon but also by the isolated inhibition of icaA (M10) and icaC (M22, M23) gene expression. Proteinase K does not disrupt antigenic properties of 20-kDaPS reconfirming its polysaccharide nature. Furthermore, DspB, which specifically cleaves β-1,6-linked N-acetylDMXAA mouse glucosamine polymer disrupting PIA chain [38, 39], did not affect 20-kDaPS. Although sodium meta-periodate is an agent commonly used to disrupt polysaccharide molecules, it did not affect integrity of 20-kDaPS antigen. Taking into account that periodate preferably degrades cis-diols, it is suggested

that monomeric units of the polysaccharide core form glycosidic bonds between the anomeric C-1 and the C-3 or C-4. This is not the case for PIA, where a β-1,6-glycosidic bond is present leaving free vicinal hydroxyl groups why of glucosamine at C-3 and C-4. The above structural data suggest that 20-kDa PS and PIA are two discrete and different polysaccharides. Preliminary data in our laboratories showed that 20-kDaPS is not affected upon treatment with glycosaminoglycan- degrading enzymes (heparin lyases, keratanases and chondroitinases), suggesting a non glycosaminoglycan-related structure. Absence of 20-kDaPS in Q-Sepharose fractions containing maximum PIA reactivity is due to different physicochemical properties among the two molecules. Q-Sepharose is a strong anion-exchanger which retains negatively charged molecules. Whereas PIA is eluting, 20-kDaPS may be strongly retained by the column due to its negative charges. Aforementioned differentiation was expected as different isolation procedures are used for the two polysaccharides. As previously described [16, 19], 20-kDaPS is obtained from bacterial extracellular matrix using a linear NaCl gradient on DEAE-Sephacel and elutes at 0.

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