Isolation and characterization of a human neutrophil aggregation defective mutant of Fusobacterium nucleatum.

Fusobacterium nucleatum is known to adhere to human polymorphonuclear neutrophils (PMNs) and cause them to aggregate. In this study, we isolated a spontaneously occurring aggregation defective (AGG(-)) mutant and this mutant will be used for future study of the interactions between this bacterium and human PMN. Genomic DNA fingerprinting by random-primed polymerase chain reaction method revealed a difference between the parent strain and the AGG(-) mutant. This mutant also showed an altered phenotype in both microbicidal and phagocytic assays, suggesting that the bacterial factor involved in the aggregation may also be very important for the phagocytosis and, subsequently, the killing by human PMNs. Further study of this mutant may help to clarify the molecular mechanisms of the interaction between this pathogen and human PMNs.

[1]  M. Guo,et al.  Identification and characterization of human immunoglobulin G Fc receptors of Fusobacterium nucleatum. , 2000, Oral microbiology and immunology.

[2]  E. Weiss,et al.  Identification of a Fusobacterium nucleatum PK1594 galactose-binding adhesin which mediates coaggregation with periopathogenic bacteria and hemagglutination , 1997, Infection and immunity.

[3]  M. Reynolds,et al.  Arbitrarily primed polymerase chain reaction fingerprinting and clonal analysis of oral Fusobacterium nucleatum isolates. , 1997, Oral microbiology and immunology.

[4]  S. Holt,et al.  Localization of the Fusobacterium nucleatum T18 adhesin activity mediating coaggregation with Porphyromonas gingivalis T22 , 1993, Journal of bacteriology.

[5]  C. Deluca,et al.  Antibodies directed to the chemotactic factor receptor detect differences between chemotactically normal and defective neutrophils from LJP patients. , 1990, Journal of periodontology.

[6]  K. Lounatmaa,et al.  Ingestion of Bacteroides buccae, Bacteroides oris, Porphyromonas gingivalis, and Fusobacterium nucleatum by human polymorphonuclear leukocytes in vitro. , 1990, Oral microbiology and immunology.

[7]  M. Novak,et al.  Lectinlike interactions of Fusobacterium nucleatum with human neutrophils , 1989, Infection and immunity.

[8]  S. Holt,et al.  Characterization of coaggregation between Bacteroides gingivalis T22 and Fusobacterium nucleatum T18 , 1989, Infection and immunity.

[9]  N. Saunders,et al.  Rapid extraction of bacterial genomic DNA with guanidium thiocyanate , 1989 .

[10]  P. Murray,et al.  Identification of a galactose-binding lectin on Fusobacterium nucleatum FN-2 , 1988, Infection and immunity.

[11]  N. Sharon,et al.  Lectinophagocytosis: a molecular mechanism of recognition between cell surface sugars and lectins in the phagocytosis of bacteria , 1988, Infection and immunity.

[12]  J. Metcalf,et al.  Laboratory Manual of Neutrophil Function , 1986 .

[13]  J. Humbert,et al.  Intracellular killing of bacteria and fungi. , 1986, Methods in enzymology.

[14]  P. Kolenbrander Isolation and characterization of coaggregation-defective mutants of Actinomyces viscosus, Actinomyces naeslundii, and Streptococcus sanguis , 1982, Infection and immunity.

[15]  W. Falkler,et al.  Attachment of cell fragments of Fusobacterium nucleatum to oral epithelial cells, gingival fibroblasts and white blood cells. , 1982, Archives of oral biology.

[16]  P. Kolenbrander,et al.  Specificity of coaggregation reactions between human oral streptococci and strains of Actinomyces viscosus or Actinomyces naeslundii , 1979, Infection and immunity.