Activated mast cells trigger edema in allergic and inflammatory disease. We report a paracrine mechanism by which mast cell-released heparin increases vascular permeability in vivo. Heparin activated the protease factor XII, which initiates bradykinin formation in plasma. Targeting factor XII or kinin B2 receptors abolished heparin-triggered leukocyte-endothelium adhesion and interfered with a mast cell-driven drop in blood pressure in rodents. Intravital laser scanning microscopy and tracer measurements showed heparin-driven fluid extravasation in mouse skin microvessels. Ablation of factor XII or kinin B2 receptors abolished heparin-induced skin edema and protected mice from allergen-activated mast cell-driven leakage. In contrast, heparin and activated mast cells induced excessive edema in mice deficient in the major inhibitor of factor XII, C1 esterase inhibitor. Allergen exposure triggered edema attacks in hereditary angioedema patients, lacking C1 esterase inhibitor. The data indicate that heparin-initiated bradykinin formation plays a fundamental role in mast cell-mediated diseases.
A role for DnaK, the major E. coli Hsp70, in chaperoning de novo protein folding has remained elusive. Here we show that under nonstress conditions DnaK transiently associates with a wide variety of nascent and newly synthesized polypeptides, with a preference for chains larger than 30 kDa. Deletion of the nonessential gene encoding trigger factor, a ribosome-associated chaperone, results in a doubling of the fraction of nascent polypeptides interacting with DnaK. Combined deletion of the trigger factor and DnaK genes is lethal under normal growth conditions. These findings indicate important, partially overlapping functions of DnaK and trigger factor in de novo protein folding and explain why the loss of either chaperone can be tolerated by E. coli.
We define a BV-structure on the Hochschild-cohomology of a unital, associative algebra A with a symmetric, invariant and non-degenerate inner product. The induced Gerstenhaber algebra is the one described in Gerstenhaber's original paper on Hochschild-cohomology. We also prove the corresponding theorem in the homotopy case, namely we define the BV-structure on the Hochschild-cohomology of a unital A∞-algebra with a symmetric and non-degenerate ∞-inner product.
A second member of the parvulin family of peptidylprolyl cis/trans isomerases was identified in a human lung cDNA library. The gene encoded a protein named hPar14 that has 131 amino acid residues and a molecular mass of 13 676 Da. Sequence comparison showed 34.5% identity to E. coli Par10 and 34% identity to human Pin1 (hPar18) within a C-terminal region of 87 or 120 amino acid residues, respectively. In comparison to the E. coli Par10, hPar14 possesses a N-terminal extension of 41 amino acid residues. This extension does not contain a polyproline II helix-binding motif typical of the known eukaryotic parvulins. The hPar14 does not accelerate the cis to trans interconversion of oligopeptides with side chain-phosphorylated Ser(Thr)-Pro moieties as hPin1 did. In contrast, it showed preference of an arginine residue adjacent N-terminal to proline. Northern blot analysis revealed expression of the gene within various human tissues like heart, placenta, liver, kidney and pancreas.z 1999 Federation of European Biochemical Societies.
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