Receptors in the Pseudomonas aeruginosa adherence to injured and repairing airway epithelium.

In the normal respiratory tract, the airway epithelial surface is protected from pathogenic bacterial colonization by the mucociliary clearance. The mucins present in the gel mucus layer exhibit a high diversity of carbohydrate receptors that allow specific bacterial recognition followed by bacterial and mucus elimination. As soon as the mucociliary clearance mechanism is impaired, the bacterial attachment to mucins in association with mucus stasis represent critical pathways for bacterial colonization of the airway epithelium.

Role of the physiochemical properties of mucus in the protection of the respiratory epithelium.

The respiratory mucus is a very complex biological material, which possesses both flow and deformation rheological properties, characterized by non-linear and time-dependent viscoelasticity and physical properties of adhesiveness and wettability. Viscosity and elasticity are directly involved in the transport capacity of mucus, whereas wettability and adhesiveness contribute to the optimal interface properties between the mucus and the epithelial surface. Optimal conditions for the protective and lubricant properties of respiratory mucus are represented by high wettability, and adhesiveness high enough not to induce flow of mucus in the respiratory bronchioles under gravity but low enough to mobilize mucus by airflow during coughing.

Semi-automatic quantitation of dense markers in cytochemistry.

The quantitation of electron dense labelling is very tedious when it is done "by hand". Accordingly we developed software allowing, at electron microscopic level, a semi-automatic counting of dense markers in biological specimens. It includes the digitization of images and extraction of dense particles from the grey level of the background.

Streptococcus pneumoniae and Staphylococcus aureus surface properties in relation to their adherence to human buccal epithelial cells.

Adherence to host cells by pathogenic bacteria is achieved through both specific and non-specific mechanisms. The former involve bacterial adhesin and corresponding cell receptors (Gibbons and Van Houte, 1980), while the second include electric charges and hydrophobicity of bacterial cell walls. In a previous study (Beck et al.

Effect of growth on surface charge and hydrophobicity of Staphylococcus aureus.

Modifications in the surface charge and hydrophobicity of Staphylococcus aureus Oxford during growth were studied by analysing electrophoretic mobility and adherence to hydrocarbons (hexadecane), respectively. Bacterial concentration had no effect upon the measurements. Both surface charge and hydrophobicity varied during the exponential phase of growth (1 to 4 h): surface charge decreased significantly (p less than 0.