BACKGROUND: Glycocalyx collapses during dehydration to produce electron-dense accretions. Confocal laser scanning microscopy (CLSM) may be used to visualize fully hydrated microbial biofilms. OBJECTIVES: Using CLSM, to analyse glycocalyx production by Staphylococcus aureus cells in skin lesions of bullous impetigo, atopic dermatitis and pemphigus foliaceus. A second objective was to compare numbers of S. aureus cells in tissue sections prepared by different methods for routine light microscopy. METHODS: S. aureus cells in skin lesions of impetigo, atopic dermatitis and pemphigus were stained with safranin, and positive staining with fluorescein isothiocyanate-conjugated concanavalin A was considered to indicate the presence of glycocalyx. RESULTS: All S. aureus cells tested in skin lesions of impetigo, atopic dermatitis and pemphigus were covered with glycocalyx and formed microcolonies. The numbers of S. aureus cells in a routine light microscopy section were significantly lower than those in a frozen section that had not been dehydrated with ethanol. CONCLUSIONS: S. aureus cells generally produce glycocalyx in skin lesions of bullous impetigo, atopic dermatitis and pemphigus foliaceus, which accounts for the difficulty of removing S. aureus cells from these skin lesions. The glycocalyx may collapse during dehydration and most of the S. aureus cells may be carried away during preparation of routine light microscope sections.
BACKGROUND: Glycocalyx collapses during dehydration to produce electron-dense accretions. Confocal laser scanning microscopy (CLSM) may be used to visualize fully hydrated microbial biofilms. OBJECTIVES: Using CLSM, to analyse glycocalyx production by Staphylococcus aureus cells in skin lesions of bullous impetigo, atopic dermatitis and pemphigus foliaceus. A second objective was to compare numbers of S. aureus cells in tissue sections prepared by different methods for routine light microscopy. METHODS:S. aureus cells in skin lesions of impetigo, atopic dermatitis and pemphigus were stained with safranin, and positive staining with fluorescein isothiocyanate-conjugated concanavalin A was considered to indicate the presence of glycocalyx. RESULTS: All S. aureus cells tested in skin lesions of impetigo, atopic dermatitis and pemphigus were covered with glycocalyx and formed microcolonies. The numbers of S. aureus cells in a routine light microscopy section were significantly lower than those in a frozen section that had not been dehydrated with ethanol. CONCLUSIONS:S. aureus cells generally produce glycocalyx in skin lesions of bullous impetigo, atopic dermatitis and pemphigus foliaceus, which accounts for the difficulty of removing S. aureus cells from these skin lesions. The glycocalyx may collapse during dehydration and most of the S. aureus cells may be carried away during preparation of routine light microscope sections.
Authors: Andreas E Zautner; Merit Krause; Gerhard Stropahl; Silva Holtfreter; Hagen Frickmann; Claudia Maletzki; Bernd Kreikemeyer; Hans Wilhelm Pau; Andreas Podbielski Journal: PLoS One Date: 2010-03-01 Impact factor: 3.240
Authors: Julian G Hurdle; Raghunandan Yendapally; Dianqing Sun; Richard E Lee Journal: Antimicrob Agents Chemother Date: 2009-07-06 Impact factor: 5.191
Authors: Tammy Gonzalez; Mariana L Stevens; Asel Baatyrbek Kyzy; Rosario Alarcon; Hua He; John W Kroner; Daniel Spagna; Brittany Grashel; Elaine Sidler; Lisa J Martin; Jocelyn M Biagini Myers; Gurjit K Khurana Hershey; Andrew B Herr Journal: Allergy Date: 2020-08-09 Impact factor: 13.146