Membrane-to-cytosol redistribution of ECF sigma factor AlgU and conversion to mucoidy in Pseudomonas aeruginosa isolates from cystic fibrosis patients.

نویسندگان

  • D W Rowen
  • V Deretic
چکیده

The conversion to mucoid phenotype in Pseudomonas aeruginosa during chronic infections in cystic fibrosis (CF) is due to mutations in the algU mucABCD gene cluster. This cluster encodes an extreme stress response system conserved in Gram-negative bacteria. The system includes an ECF sigma factor, AlgU (sigmaE), an inner membrane protein, MucA, which inhibits AlgU activity, and MucB, a periplasmic protein that negatively controls AlgU. In this work, we investigated whether and how these factor interact to transduce signals between different cellular compartments. The mutation mucADeltaG440, which renders a large fraction of P. aeruginosa CF isolates mucoid, did not abrogate AlgU-MucA interactions, although it eliminated MucA-MucB interactions in the yeast two-hybrid system. The mucADeltaG440 truncation of the periplasmic C-terminal tail of MucA destabilized the molecule resulting in low or undetectable steady-state levels in P. aeruginosa. Somewhat reduced levels of MucA were also seen in cells with inactivated mucB or with the mucACF53 allele carrying the missense P184S mutation, which mildly affected interactions with MucB. The events downstream from MucA destabilization were also investigated. AlgU was found to associate with inner membranes in mucA+ cells. In mutants destabilizing MucA, a limited redistribution of AlgU from the membrane to the cytosol was observed. The redistribution was spontaneous in mucADeltaG440 cells, while in mucB and mucACF53 mutants it required additional signals. Despite a large reduction in MucA levels in mucADeltaG440 cells, only a small fraction of AlgU was redistributed to the cytosol and a significant portion of this sigma factor remained membrane bound and behaved as a peripheral inner membrane protein. The fraction of AlgU that depended on MucA for association with the membrane also brought RNA polymerase into this compartment. These results are consistent with a model in which MucB-MucA-AlgU-RNA polymerase interactions at the membrane allow transduction of potentially lethal stress signals with both rapid reaction times of the preassembled complexes and efficient resupply at the membrane from the prebound components.

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عنوان ژورنال:
  • Molecular microbiology

دوره 36 2  شماره 

صفحات  -

تاریخ انتشار 2000