Direct Probing by Atomic Force Microscopy of the Cell Surface Softness of a Fibrillated and Nonfibrillated Oral Streptococcal Strain

Direct Probing by Atomic Force Microscopy of the Cell Surface Softness of a Fibrillated and Nonfibrillated Oral Streptococcal Strain

Henny C. van der Mei,^* Henk J. Busscher,^* Rolf Bos,^* Joop de Vries,^* Christophe J. P. Boonaert, and Yves F. Dufrêne

^*Department of Biomedical Engineering, University of Groningen, Antonius Deusinglaan 1, 9713 AV Groningen, the Netherlands, and Unité de Chimie des Interfaces, Université Catholique de Louvain, B-1348 Louvain-la-Neuve, Belgium

In this paper, direct measurement by atomic force microscopy (AFM) of the cell surface softness of a fibrillated oral streptococcalstrain Streptococcus salivarius HB and of a nonfibrillated strainS. salivarius HBC12 is presented, and the data interpretationis validated by comparison with results from independent techniques.Upon approach of the fibrillated strain in water, the AFM tipexperienced a long-range repulsion force, starting at ~100 nm,attributed to the compression of the soft layer of fibrils presentat the cell surface. In 0.1 M KCl, repulsion was only experiencedwhen the tip was closer than ~10 nm, reflecting a stiffer cellsurface due to collapse of the fibrillar mass. Force-distancecurves indicated that the nonfibrillated strain, probed both inwater and in 0.1 M KCl, was much stiffer than the fibrillatedstrain in water, and a repulsion force was experienced by thetip at close approach only (20 nm in water and 10 nm in 0.1 MKCl). Differences in cell surface softness were further supportedby differences in cell surface morphology, the fibrillated strainimaged in water being the only specimen that showed characteristictopographical features attributable to fibrils. These resultsare in excellent agreement with previous indirect measurementsof cell surface softness by dynamic light scattering and particulatemicroelectrophoresis and demonstrate the potential of AFM to directlyprobe the softness of microbial cellsurfaces.

Biophys J, May 2000, p. 2668-2674, Vol. 78, No. 5
© 2000 by the Biophysical Society 0006-3495/00/05/2668/07 $2.00

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