Abstract

A number of isolates of Vibrio cholerae were examined with respect to their (i) surface hydrophobicity as measured by hydrophobic interaction chromatography, (ii) capacity to agglutinate erythrocytes, and (iii) ability to bind to an ion-exchange matrix. V. cholerae isolates, cultured under a variety of growth conditions, were conspicuously hydrophobic. The hydrophobicity was accentuated when these strains were (i) cultivated in a chemically defined synthetic medium, (ii) harvested at the exponential phase of growth, and (iii) cultured at a lower temperature. Rough strains were more hydrophobic than smooth strains. Of the various surface components examined, the outer membrane proteins were conspicuously hydrophobic. The cell-bound hemagglutinating activity of V. cholerae strains was increased when these strains were cultured in synthetic medium and harvested at the stationary phase of growth. This property was unaffected by the growth temperature. Only D-mannose, at a high concentration, inhibited hemagglutination of 80% of the isolates examined. L-Fucose did not inhibit the hemagglutinating activity. V. cholerae strains adhered strongly to the anion-exchange matrix DEAE-cellulose. The surface charge density was accentuated when these strains were grown in synthetic medium. These results suggest that the V. cholerae surface contains both specific (hemagglutinating) and nonspecific (hydrophobic and ionic) factors which may influence its eventual adherence to the host cell surface.

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