Pili prepared from Neisseria gonorrhoeae contain minor amounts of a 110 kd outer membrane protein denoted PilC. The corresponding gene exists in two copies, pilC1 and pilC2, in most strains of N.gonorrhoeae. In the piliated strain MS11(P+), only one of the genes, pilC2, was expressed. Inactivation of pilC2 by a mTnCm insertion resulted in a nonpiliated phenotype, while a mTnCm insertion in pilC1 had no effect on piliation. Expression of pilC was found to be controlled at the translational level by frameshift mutations in a run of G residues positioned in the region encoding the signal peptide. Nonpilated (P‐), pilin expressing colony variants that did not express detectable levels of PilC were selected; all P+ backswitchers from these P‐, PilC‐ clones were found to be PilC+. The structural gene for pilin, pilE, was sequenced and found to be identical in one P‐, PilC‐ and P+, PilC+ pair. Most PilC‐ cells were completely bald whereas the PilC+ backswitcher had 10–40 pili per cell. Thus, a turn ON and turn OFF in the expression of PilC results in gonococcal pili phase variation. These results suggest that PilC is required for pilus assembly and/or translocation across the gonococcal outer membrane.
SummaryPili of Neisseria gonorrhoeae and Neisseria meningitidis mediate binding of the bacteria to human cellsurface receptors. We found that purified pili bound to a 55-to 60-kDa doublet band on SDS-PAGE of separated human epithelial cell extracts. This is a migration pattern typical of membrane cofactor protein (MCP or CD46). MCP is a widely distributed human complement regulatory protein. Attachment of the bacteria to epithelial cells was blocked by polyclonal and monoclonal antibodies directed against MCP, suggesting that this complement regulator is a receptor for piliated Neisseria. We proved this hypothesis by demonstrating that piliated, but not non-piliated, gonococci bound to CHO cells transfected with human MCP-cDNA. We also demonstrated a direct interaction between purified recombinant MCP and piliated Neisseria. Finally, recombinant MCP protein produced in E. coli inhibited attachment of the bacteria to target cells. Taken together, our data show that MCP is a human cell-surface receptor for piliated pathogenic Neisseria.
Neisseria gonorrhoeae and Neisseria meningitidis are Gram-negative bacterial pathogens that infect human mucosal epithelia. Type IV pilus-mediated adherence of these bacteria is a crucial early event for establishment of infection. In this work, we show that the type IV pili transduce a signal into the eucaryotic host cell. . Further, kinase inhibition studies showed that pilus-mediated adherence is dependent on casein kinase II. In summary, these data reveal a novel function of the type IV pili, namely induction of signal transduction pathways in host cells.
SummaryAdherence of pathogenic Neisseria to target host cells is mediated by pili. PilC1 and PilC2 are two high-molecular-weight proteins involved in pilus assembly and cellular adherence functions of the pili. Inactivation of pilC1 or pilC2 in N. meningitidis resulted in clones that expressed the same number of pili as the parent, contained no alterations in pilE and showed no detectable differences in PilE glycosylation. However, the PilC2 þ pilC1 ¹ mutant showed much reduced adherence to target cells, indicating that production of PilC1 is essential for pilus-mediated adherence. To study further the functional differences between the meningococcal pilC genes, we determined the complete nucleotide sequence of pilC1 and pilC2 of N. meningitidis. Alignment of six PilC sequences demonstrated that PilC is composed of both conserved and variable regions. By immunogold labelling of bacterial sections we showed that PilC is present in the membranes of both piliated and non-piliated bacteria. Further, we demonstrated that PilC is associated with the bacterial cell surface.
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