Arne Olsén scite author profile

Two divergently transcribed operons in Escherichia coli required for the expression of fibronectin- and Congo red-binding curli polymers were identified and characterized by transposon mutagenesis, sequencing and transcriptional analyses, as well as for their ability to produce the curli subunit protein. The csgBA operon encodes CsgA, the major subunit protein of the fibre, and CsgB, a protein with sequence homology to CsgA. A non-polar csgB mutant is unaffected in its production of CsgA, but the subunit protein is not assembled into insoluble fibre polymers. A third open reading frame, orfC, positioned downstream of csgA may affect some functional property of curli since an insertion in this putative gene abolishes the autoagglutinating ability typical of curliated cells without affecting the production of the fibre. The promoter for the oppositely transcribed csgDEFG operon was identified by primer extension and shown, like the csgBA promoter, to be dependent upon the alternate stationary phase-specific sigma factor sigma s in wild-type cells, but not in mutants lacking the nucleoid associated protein H-NS. Insertions in csgD abolish completely trancription from the csgBA promoter. Therefore, any regulatory effect on the csgBA promoter might be secondary to events controlling the csgDEFG promoter and/or activation of CsgD. Insertions in csgE, csgF and csgG abolish curli formation but allow CsgA expression suggesting that one or more of these gene products are involved in secretion/assembly of the CsgA subunit protein. No amino acid sequence homologies were found between the CsgE, CsgF and CsgG proteins and secretion/assembly proteins for other known bacterial fibres, suggesting that the formation of curli follows a novel pathway.

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Fibronectin binding mediated by a novel class of surface organelles on Escherichia coll

Olsén

Jonsson

Normark

1989

Nature

539

462

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Gram-negative bacteria are known to produce two types of surface organelles: flagella, which are required for motility and chemotaxis, and pili (fimbriae), which play a part in the interaction of bacteria with other bacteria and with eukaryotic host cells. Here we report a third class of E. coli surface organelles for which we propose the name curli. Curli are coiled surface structures composed of a single type of subunit, the curlin, which differs from all known pilin proteins and is synthesized in the absence of a cleavable signal peptide. Although the gene encoding this structural subunit, crl, is present and transcribed in most natural isolates of E. coli, only certain strains are able to assemble the subunit protein into curli. This assembly process occurs preferentially at growth temperatures below 37 degrees C. The ability of curli to mediate binding to fibronectin may be a virulence-associated property for wound colonization and for the colonization of fibronectin-coated surfaces.

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AgfD, the checkpoint of multicellular and aggregative behaviour in Salmonella typhimurium regulates at least two independent pathways

Römling¹,

Rohde²,

Olsén

et al. 2000

Molecular Microbiology

384

443

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SummaryThe regulatory programme of multicellular behaviour in Salmonella typhimurium is determined by mutations in the agfD promoter. AgfD has already been identified to regulate the extracellular matrix associated with the multicellular morphotype composed of thin aggregative fimbriae (agf). To detect additional components contributing to the multicellular morphotype in S. typhimurium, we constructed a mutant in agfD, the positive transcriptional regulator of the agfBA(C) operon encoding for fimbrial subunit proteins. The agfD mutant lacked any form of multicellular behaviour as shown by analysis at the macroscopic and microscopic level. In contrast, the agfBA mutant unable to form thin aggregative fimbriae still maintained long-range intercellular adhesion. Promoter and expression analysis revealed that the genes downstream of agfD agfEFG most likely did not contribute to the remaining aggregative behaviour. Screening of transcriptional fusions for agfD dependency uncovered adrA, a homologue of yaiC in Escherichia coli. Environmental factors regulating adrA correspond to the regulation of thin aggregative fimbriae. AdrA is a putative transmembrane protein with a C-terminal GGDEF domain of unknown function although it is present in over 50 bacterial proteins. AdrA mutant cells, which still formed thin aggregative fimbriae with all binding characteristics, exhibited community behaviour but, unlike the wild type, lacked long-range intercellular adhesion. An agfBA adrA double mutant behaved like the agfD mutant. Therefore, it was concluded that agfD regulates at least two independent pathways contributing to the multicellular morphotype in S. typhimurium.

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The RpoS Sigma factor relieves H‐NS‐mediated transcriptional repression of csgA, the subunit gene of fibronectin‐binding curli in Escherichia coli

Olsén

Arnqvist

Hammar

et al. 1993

Molecular Microbiology

264

256

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Curli encoded by the curlin subunit gene, csgA, are fibronectin- and laminin-binding fibres expressed by many natural Escherichia coli and E. coli K-12 strains in response to low temperature, low osmolarity and stationary-phase growth conditions. Curli expression is dependent on RpoS, a sigma factor that controls many stationary phase-inducible genes. Many commonly used K-12 strains carry an amber mutation in rpoS. Strains able to form curli carry an amber suppressor whereas curli-negative E. coli K-12 strains, in general, are sup0. Introduction of SupD, SupE, or supF suppressors into sup0 strains resulted in expression of temperature-regulated curli. In curli-deficient, RpoS- E. coli K-12 strains, csgA is transcriptionally activated by mutations in hns, which encodes the histone-like protein H-NS. Curli expression, fibronectin binding, and csgA transcription remain temperature- and osmoregulated in such double mutants. Our data suggest that RpoS+ strains, and hence curli-proficient strains of E. coli K-12, are relieved for the transcriptional repression mediated by the H-NS protein upon accumulating RpoS as cells reach stationary phase.

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Protein fibrils in nature can enhance amyloid protein A amyloidosis in mice: Cross-seeding as a disease mechanism

Lundmark

Westermark²,

Olsén³

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

268

202

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Secondary, or amyloid protein A (AA), amyloidosis is a complication of chronic inflammatory diseases, both infectious and noninfectious. AA constitutes the insoluble fibrils, which are deposited in different organs, and is a major N-terminal part of the acute phase protein serum AA. It is not known why only some patients with chronic inflammation develop AA amyloidosis. Nucleation is a widely accepted mechanism in amyloidogenesis. Preformed amyloid-like fibrils act as nuclei in amyloid fibril formation in vitro, and AA amyloid fibrils and synthetic amyloid-like fibrils also may serve as seed for fibril formation in vivo. In addition to amyloid fibrils, there is a variety of similar nonmammalian protein fibrils with ␤-pleated structure in nature. We studied three such naturally occurring protein fibrils: silk from Bombyx mori, Sup35 from Saccharomyces cerevisiae, and curli from Escherichia coli. Our results show that these protein fibrils exert amyloid-accelerating properties in the murine experimental AA amyloidosis, suggesting that such environment factors may be important risk factors in amyloidogenesis.amyloid ͉ seeding ͉ protein misfolding ͉ aggregation ͉ prion

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Arne Olsén

Expression of two csg operons is required for production of fibronectin‐ and Congo red‐binding curli polymers in Escherichia coli K‐12

Fibronectin binding mediated by a novel class of surface organelles on Escherichia coll

AgfD, the checkpoint of multicellular and aggregative behaviour in Salmonella typhimurium regulates at least two independent pathways

The RpoS Sigma factor relieves H‐NS‐mediated transcriptional repression of csgA, the subunit gene of fibronectin‐binding curli in Escherichia coli

Protein fibrils in nature can enhance amyloid protein A amyloidosis in mice: Cross-seeding as a disease mechanism

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