Periodoncia.Eley.6a.Ed

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Mecanismos de producción de la enfermedad 97 © ELSEVIER. Fotocopiar sin autorización es un delito. destruida con formalina. Se prepararon células B específicas de antígeno a partir de esplenocitos mediante la unión de células CD43+ a placas de Petri recubiertas con anticuerpo anti-CD43 para eliminar las células T, y las células no unidas se pasaron a través de una columna de lana de nailon para deplecionar las células accesorias. Las células retenidas se recogieron y se unieron a placas de Petri recubiertas con A. actinomycetemcomitans para enriquecer las células B unidas a A. actinomycetemcomitans (AAB, A. actinomycetemcomitans-binding B cells). También se recogieron las células B no unidas a A. actinomycetemcomitans (ANB, A. actinomycetemcomitansnon binding B cells) y las células B de los ratones donantes no inmunizados (NIB, non-immunized B cells). Cada tipo de célula B se inyectó en un grupo de ratones receptores, que fueron infectadas por vía oral con A. actinomycetemcomitans viable. Al final, los valores de anticuerpos contra A. actinomycetemcomitans en suero y líquido crevicular fueron significativamente mayores en los ratones receptores a los que se les transfirió AAB en comparación con los ratones receptores a los que se les transfirió ANB o NIB. Se observó un número notablemente elevado de células formadoras de anticuerpos en el bazo de los ratones receptores con AAB, y estos ratones también mostraron una resorción ósea significativamente elevada en comparación con los otros grupos. Estos resultados sugieren que las células B pueden contribuir a la resorción ósea periodontal y que para que ésto se produzca se necesita la estimulación antigénica de las células B. Kawai et al. (2007) examinaron si la inducción de una respuesta inmunitaria adaptativa contra la colonización oral de Pasteurella pneumotropica no patogénica, mediante la inmunización con la bacteria estrechamente relacionada desde el punto de vista filogenético A. actinomycetemcomitans, podría provocar una pérdida de hueso periodontal en ratones. La inducción de esta respuesta adaptativa provocaba una pérdida de hueso periodontal dependiente del RANKL en los ratones. Bibliografía Abiko Y, Hayakawa M, Murai S, et al: Glycylprolyl dipeptidyl aminopeptidase from Bacteroides gingivalis, J Dent Res 64:106–111, 1985. Adriaens PA, Claeys GW, De Boever JA: Colonization of human dentin by a mixed flora of oral bacteria in vitro, Caries Res 18, , 1984, 160Abstr. 21. Adriaens PA, Loesche WJ, De Boever JA: Bacteriology of the flora present in the roots of periodontally diseased teeth, J Dent Res 66, , 1987, 338Abstract 1855. 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98 Periodoncia Bulkacz J, Schuster GS, Singh B, et al: Phospholipase A activity of extracellular products from Bacteroides melaninogenicus on epithelial tissue cultures, J Periodontal Res 20:146–153, 1985. Burleigh MC: Degradation of collagen by non-specific proteinases. In Barrett AJ, editor: Proteinases in Mammalian Cells and Tissues, Amsterdam, 1977, Elsevier/North- Holland Biomedical Press, pp 185–209. Califano JV, Pace Gunsolly JC, et al: Antibody reactive with Actinobacillus actinomycetemcomitans leukotoxin in early onset periodontitis, Oral Microbiol Immunol 12:20–26, 1997a. Califano JV, Gunsolly JC, Schenkein HA, et al: A comparison of igg antibody reactive with Bacteroides forsythus and Porphyromonas gingivalis in adult and early onset periodontitis, J Periodontol 68:734–738, 1997b. Califano JV, Chou D, Lewis JP, et al: Antibody reactive with Porphyromonas gingivalis hemagglutinin in chronic and generalized aggressive periodontitis, J Periodontal Res 39:263–268, 2004. 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