TY - JOUR
T1 - M cell transport of Vibrio cholerae from the intestinal lumen into Peyer's patches
T2 - A mechanism for antigen sampling and for microbial transepithelial migration
AU - Owen, R. L.
AU - Pierce, N. F.
AU - Apple, R. T.
AU - Cray, W. C.
N1 - Funding Information:
Received for publication 12 January 1984,and in revised form 30 December 1985. This work was supported by grants AM-33004 from the National Institute of Arthritis, Metabolism, and Digestive Diseases and AI-19547 from the National Institute of Allergy and Infectious Diseases, and by the United States Veterans Administration. Research facilities were provided by the Gerontology Research Center of the National Institute of Aging under its Guest Scientist program. Please address requests for reprints to Dr. Robert L. Owen, Cell Biology and Aging Section (151E), VAMedical Center, 4150 Clement Street, San Francisco, California 94121. * Present address: Diarrheal Diseases Control Program, World Health Organization, CH-1211 Geneva 27, Switzerland. t Present address: Department of Zoology, University of California at Berkeley, Berkeley, California 94720. t Present address: Microbiology Division, School of Biologi-'cal Sciences, University of Nebraska, Lincoln, Nebraska 68588.
PY - 1986
Y1 - 1986
N2 - Viable Vibrio cholerae O1 were inoculated into the intestinal lumen of nonimmune rabbits. The vibrios were phagocytosed by M cells over Peyer's patch lymphoid follicles, carried in vesicles through the epithelium, and discharged among underlying lymphocytes and macrophages. Autoradiography of V. cholerae labeled with [2-3H]adenine confirmed transport. Indigenous bacteria with and without capsules were also taken up from control loops and carried through M cells into Peyer's patches. V. cholerae killed by acidification, formalin, heat, or UV irradiation were not taken up, a result that may have relevance for development of oral vaccines. Ruthenium red stain revealed gaps in the layer of mucus over M cells, glycocalyx bridging the space between vibrios and M cell microvilli, and knobby projections over membranes of M cell microvilli; these projections were not found over absorptive cells. M cells thus convey viable enteric microbes, including V. cholerae that are not otherwise invasive, into intestinal lymphoid tissue, where mucosal immune responses are initiated. Uptake and transport by M cells may also assist certain pathogenic bacteria in transversing the mucosal barrier and initiating systemic infection.
AB - Viable Vibrio cholerae O1 were inoculated into the intestinal lumen of nonimmune rabbits. The vibrios were phagocytosed by M cells over Peyer's patch lymphoid follicles, carried in vesicles through the epithelium, and discharged among underlying lymphocytes and macrophages. Autoradiography of V. cholerae labeled with [2-3H]adenine confirmed transport. Indigenous bacteria with and without capsules were also taken up from control loops and carried through M cells into Peyer's patches. V. cholerae killed by acidification, formalin, heat, or UV irradiation were not taken up, a result that may have relevance for development of oral vaccines. Ruthenium red stain revealed gaps in the layer of mucus over M cells, glycocalyx bridging the space between vibrios and M cell microvilli, and knobby projections over membranes of M cell microvilli; these projections were not found over absorptive cells. M cells thus convey viable enteric microbes, including V. cholerae that are not otherwise invasive, into intestinal lymphoid tissue, where mucosal immune responses are initiated. Uptake and transport by M cells may also assist certain pathogenic bacteria in transversing the mucosal barrier and initiating systemic infection.
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U2 - 10.1093/infdis/153.6.1108
DO - 10.1093/infdis/153.6.1108
M3 - Article
C2 - 2422297
AN - SCOPUS:0022519340
SN - 0022-1899
VL - 153
SP - 1108
EP - 1118
JO - Journal of Infectious Diseases
JF - Journal of Infectious Diseases
IS - 6
ER -