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Query: UMLS:C0085631 (
agitation
)
12,064
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Candida albicans has become one of the most important pathogens in intensive care units. Adherence of C. albicans to the vascular endothelium is believed to represent a critical step in the pathogenesis of disseminated candidiasis and may involve molecules analogous to human beta 2-integrins such as the
complement receptor
3 (CR3) analogue of C. albicans (C.a.-CR3). Its expression was detected by a sensitive rosetting assay when Candida was present in its hyphal form but not in its yeast form, the latter being generally considered to be less pathogenic. However, the presence of hyphae alone was not sufficient: C.a.-CR3 expression was found to be temperature-dependent for 4 (out of 10) clinical isolates. Two rosetted better after growth at 30 degrees C, the other 2 after growth at 37 degrees C. This temperature dependence was most pronounced for 1 laboratory strain: C.a.-CR3 expression was best at 30 degrees C and markedly decreased with increasing temperatures. At 37 degrees C no rosettes were detected at all. Modifications of the culture conditions (e.g.
agitation
, pH) exerted a marked influence on the morphology of this strain but always allowed rosette formation once hyphae were formed at 30 degrees C. However, none of these modifications was able to induce rosettes at 37 degrees C. Adhesion of C. albicans isolates to an endothelial cell line was also temperature-dependent but not strongly correlated with C.a.-CR3 expression. Most strains exhibited a better adherence when grown at 30 degrees C. This finding may be of importance for exogenous infections, with Candida spp. invading the body from the outside, where the temperature is usually lower than the physiological body temperature.
...
PMID:Temperature-dependent surface expression of the beta-2-integrin analogue of Candida albicans and its role in adhesion to the human endothelium. 916 70
The choice of host cell receptor and the mechanism of binding (opsonic versus nonopsonic) may influence the intracellular fate of Mycobacterium tuberculosis. We have identified two substrains of M. tuberculosis H37Rv, designated H37Rv-CC and -HH, that differed in their modes of binding to
complement receptor
type 3 (CR3) expressed in transfected Chinese hamster ovary (CHO-Mac-1) cells: H37Rv-CC bound nonopsonically, whereas H37Rv-HH bound only after opsonization in fresh serum. H37Rv-CC also bound nonopsonically to untransfected CHO cells, whereas H37Rv-HH binding was enhanced by serum and was mediated by the 1D1 antigen, a bacterial adhesin previously identified as a polar phosphatidylinositol mannoside. H37Rv-CC and -HH had identical IS6110 DNA fingerprint patterns. Of five M. tuberculosis clinical isolates examined, four displayed the same binding phenotype as H37Rv-CC, as did the Erdman strain, whereas one isolate, as well as Mycobacterium smegmatis, behaved like H37Rv-HH. Nonopsonic binding of H37Rv-CC to CHO cell-expressed CR3 was apparently to the beta-glucan lectin site, as it was cation independent and inhibited by laminarin (seaweed beta-glucan) and N-acetylglucosamine; laminarin also inhibited the binding of H37Rv-CC to monocyte-derived macrophages. Further, binding of H37Rv-CC to CHO-Mac-1 cells was inhibited by prior
agitation
of bacteria with glass beads (which strips outer capsular polysaccharides) and by preincubation with amyloglucosidase, as well as by the presence of capsular D-glucan and D-mannan from M. tuberculosis Erdman, but not by Erdman D-arabino-D-mannan, yeast mannan, or capsular components from H37Rv-HH. Analysis of capsular carbohydrates revealed that H37Rv-CC expressed 5-fold more glucose and 2.5-fold more arabinose and mannose than H37Rv-HH. Flow cytometric detection of surface epitopes indicated that H37Rv-CC displayed twofold less surface-exposed phosphatidylinositol mannoside and bound complement C3 less efficiently than H37Rv-HH; these differences were eliminated after treatment of H37Rv-CC with glass beads. Thus, outer capsular polysaccharides mediate the binding of H37Rv-CC to CR3, likely to the beta-glucan site. Moreover, there are strain-dependent differences in the thickness or composition of capsular polysaccharides that determine the mode of binding of M. tuberculosis to mammalian cells.
...
PMID:Nonopsonic binding of Mycobacterium tuberculosis to complement receptor type 3 is mediated by capsular polysaccharides and is strain dependent. 931 35
