Similar results were observed using the hexa- and pentasaccharides from S. prolificans (M. I. D. Silva , V. C. B. Bittencourt, G. L. Sassaki, R. Wagner, P. A. J. Gorin & E. Barreto-Bergter, unpublished results). Our results showed that the isolated oligosaccharide alditols blocked recognition between rabbit sera and intact PRM in a dose-dependent manner. Thus, O-glycosidically linked oligosaccharide Temozolomide nmr chains, despite being the less abundant carbohydrate components of
the P. boydii and S. prolificans glycocomplexes, may account for a significant part of the antigenicity, associated with the rhamnomannan component of P. boydii/S. prolificans PRMs. To gain a better understanding of PRM function in P. boydii, besides being an antigen, three IgG1 monoclonal antibodies (mAbs), C7, C11 and F10, were generated from a mouse immunised with this molecule.21 Using monoclonal antibodies to peptidorhamnomannan
(PMR), we showed that these mAbs could recognise native PRM and fixed swollen conidia cells by ELISA (Fig 7a and b, respectively). By immunofluorescence (IF) we demonstrated that the PRM from P. boydii is Fulvestrant present on the surface of mycelium and conidia forms of P. boydii (Fig. 8a–f). The mAbs anti-PRM also recognise PRM-like molecules on the surface of the conidia of S. apiospermum and S. prolificans. However, some structural differences were detected, which could be responsible for the different reactivities occurring with the mAbs. The carbohydrate moiety of the PRM molecule from P. boydii is essential for recognition of the IgG1 mAbs. The PNGase F and β-elimination treatment of PRM, for N-linked glycan and O-linked oligosaccharide removal, significantly reduced mAb binding. In contrast, no significant difference was observed
when the protein portion Thymidine kinase was removed by proteinase K treatment (Fig. 9). The influence of mAbs anti-PRM on in vitro P. boydii conidia germination was examined. The mAbs-enhanced conidia germination (increase about 20% in comparison with controls), after 4 h incubation compared with controls, indicated that these mAbs may have accelerated the modification of the inner wall structure (Fig. 10a). The increased metabolic activity, shown by MTT analysis of conidia exposed to the mAbs (Fig. 10b), is consistent with enhancement of cellular processes required for morphogenesis.21 Similar results were observed for S. prolificans and S. apiospermum (M. I. D. Silva & E. Barreto-Bergter, unpublished results). A significant reduction in phagocytosis of S. apiospermum conidia was observed using mAbs anti-PRM, compared with conidia incubated with PBS and opsonised conidia, increasing intracellular survival (Fig. 11). Previous investigations by our group, using HEp2 cells, showed that when conidia of S. apiospermum were pre-incubated with polyclonal antibodies to PRM, adherence and endocytosis processes were both inhibited in a dose-dependent manner.