TY - JOUR
T1 - Heparin-mediated inhibition of Chlamydia psittaci adherence to HeLa cells
AU - Gutiérrez-Martín, César B.
AU - Ojcius, David M.
AU - Hsia, Ru Ching
AU - Hellio, Raymond
AU - Bavoil, Patrik M.
AU - Dautry-Varsat, Alice
PY - 1997/1
Y1 - 1997/1
N2 - The adherence of human strains of Chlamydia trachomatis has been recently shown to be inhibitable by heparin and heparitinase, leading to the proposal that Chlamydia binding to host cells may be mediated by a glycosaminoglycan (GAG)-dependent mechanism. We here describe the adherence of the guinea-pig pathogen, Chlamydia psittaci GPIC, to HeLa cells, which was measured by cytofluorometry with chlamydiae whose DNA was fluorescently labelled. Adherence could be inhibited by heat or trypsin pretreatment of the bacteria, and binding was much faster at 37°C (reaching a plateau within 1 h) than 4°C. Little binding remained when host cells were pre-fixed with paraformaldehyde, suggesting that host cell receptor mobility may be required for effective adherence. Visualization by confocal microscopy confirmed that the bacteria were at or near the host cell surface during the entire time-course of these experiments. Adherence increased as a function of pH between pH 6 and pH 8.0-8.5. Both adherence and infection of HeLa cells could be inhibited with heparin when the adherence step was performed at 4°C, but only infection was inhibited when the adherence step was performed at 37°C, even though heparitinase could block adherence at either 4°C or 37°C. Even at 4°C, heparin-mediated inhibition was significantly lower at pH 8 than pH 7.4, suggesting that GAG-independent mechanisms may play a role in the higher adherence observed at basic pH. These results therefore demonstrate that a GAG-dependent adherence step may be operative in C. psittaci, and raise the possibility that other adherence mechanisms may also contribute to binding by this chlamydial strain. Furthermore, they suggest that there may not be a strict correlation between C. psittaci adherence and the ability to cause productive infections.
AB - The adherence of human strains of Chlamydia trachomatis has been recently shown to be inhibitable by heparin and heparitinase, leading to the proposal that Chlamydia binding to host cells may be mediated by a glycosaminoglycan (GAG)-dependent mechanism. We here describe the adherence of the guinea-pig pathogen, Chlamydia psittaci GPIC, to HeLa cells, which was measured by cytofluorometry with chlamydiae whose DNA was fluorescently labelled. Adherence could be inhibited by heat or trypsin pretreatment of the bacteria, and binding was much faster at 37°C (reaching a plateau within 1 h) than 4°C. Little binding remained when host cells were pre-fixed with paraformaldehyde, suggesting that host cell receptor mobility may be required for effective adherence. Visualization by confocal microscopy confirmed that the bacteria were at or near the host cell surface during the entire time-course of these experiments. Adherence increased as a function of pH between pH 6 and pH 8.0-8.5. Both adherence and infection of HeLa cells could be inhibited with heparin when the adherence step was performed at 4°C, but only infection was inhibited when the adherence step was performed at 37°C, even though heparitinase could block adherence at either 4°C or 37°C. Even at 4°C, heparin-mediated inhibition was significantly lower at pH 8 than pH 7.4, suggesting that GAG-independent mechanisms may play a role in the higher adherence observed at basic pH. These results therefore demonstrate that a GAG-dependent adherence step may be operative in C. psittaci, and raise the possibility that other adherence mechanisms may also contribute to binding by this chlamydial strain. Furthermore, they suggest that there may not be a strict correlation between C. psittaci adherence and the ability to cause productive infections.
KW - Adhesion
KW - Chlamydia psittaci
KW - Cytofluorometry
KW - Heparin
UR - http://www.scopus.com/inward/record.url?scp=0031026785&partnerID=8YFLogxK
U2 - 10.1006/mpat.1996.0090
DO - 10.1006/mpat.1996.0090
M3 - 文章
C2 - 9032762
AN - SCOPUS:0031026785
SN - 0882-4010
VL - 22
SP - 47
EP - 57
JO - Microbial Pathogenesis
JF - Microbial Pathogenesis
IS - 1
ER -