Cytochrome c maturation in Escherichia coli requires the ccm operon, which encodes eight membrane proteins (CcmABCDEFGH). CcmE is a periplasmic heme chaperone that binds heme covalently and transfers it onto apocytochrome c in the presence of CcmF, CcmG, and CcmH. In this work we addressed the functions of the ccmABCD gene products with respect to holo-CcmE formation and the subsequent ligation of heme to apocytochrome c. In the absence of the ccmABCD genes, heme is not bound to CcmE. We report that CcmC is functionally uncoupled from the ABC transporter subunits CcmA and CcmB, because it is the only Ccm protein that is strictly required for heme transfer and attachment to CcmE. Site-directed mutagenesis of conserved histidines inactivates the CcmC protein, which is in agreement with the hypothesis that this protein interacts directly with heme. We also present evidence that questions the role of CcmAB as a heme exporter; yet, the transported substrate remains unknown. CcmD was found to be involved in stabilizing the heme chaperone CcmE in the membrane. We propose a heme-trafficking pathway as part of a substantially revised model for cytochrome c maturation in E. coli.
Maturation of c‐type cytochromes in Escherichia coli is a complex process requiring eight membrane proteins encoded by the ccmABCDEFGH operon. CcmE is a mediator of haem delivery. It binds haem transiently at a conserved histidine residue and releases it for directed transfer to apocytochrome c. CcmC, an integral membrane protein with six transmembrane helices, is necessary and sufficient to incorporate haem covalently into CcmE. CcmC contains a highly conserved tryptophan‐rich motif, WGXXWXWD, in its second periplasmic loop. Here, we present the results of a systematic mutational analysis of this motif. Changes of the non‐conserved T121 and W122 to A resulted in wild‐type CcmC activity. Changes of the single amino acids W119A, G120A, W123A, W125I and D126A or of the spacing within the motif by deleting V124 (ΔV124) inhibited the covalent haem incorporation into CcmE. Enhanced expression of ccmD suppressed this mutant phenotype by increasing the amounts of CcmC and CcmE polypeptides in the membrane. The ΔV124 mutant showed the strongest defect of all single mutants. Mutants in which six residues of the tryptophan‐rich motif were changed showed no residual CcmC activity. This phenotype was independent of the level of ccmD expression. Our results demonstrate the functional importance of the tryptophan‐rich motif for haem transfer to CcmE. We propose that the three membrane proteins CcmC, CcmD and CcmE interact directly with each other, establishing a cytoplasm to periplasm haem delivery pathway for cytochrome c maturation.
Protective Ab levels can be maintained for years upon infection or vaccination. In this study, we studied the duration of Ab responses as a function of the life span of plasma cells and tested the role of persisting Ag in maintaining B cell memory. Our analysis of B cell responses induced in mice immunized with virus-like particles demonstrates the following: 1) Ab titers are long-lived, but decline continuously with a t1/2 of ∼80 days, which corresponds to the life span of plasma cells; 2) the germinal center (GC) reaction, which lasts for up to 100 days, is dependent on Ag associated with follicular dendritic cells; and 3) early GCs produce massive numbers of plasma and memory B cell precursors, whereas the late Ag-dependent GCs are dispensable for the maintenance of Ab levels and B cell memory.
Background: The role of epidermal growth factor receptor (EGFR) tyrosine kinase inhibitors (TKI) in the treatment of patients with advanced non-small cell lung cancer (NSCLC) and unknown EGFR mutation status has recently been questioned. Patients and Methods: We conducted a retrospective study of patients with unknown EGFR mutation status and long-term response (LTR) to gefitinib in the Swiss Iressa expanded access program (EAP). We assessed patient characteristics, and performed Sanger sequencing and next generation sequencing on archived tumor tissue. We hypothesized that EGFR mutations are prevalent in patients with LTR. Results: Of 430 patients in the EAP, 18 (4%) fulfilled our definition of LTR, and 16 of them had archived tumor tissue. Patient characteristics were as expected for age, sex, and smoking history. Median duration of therapy was 38 months (range 24-142 months). Sanger sequencing revealed EGFR exon 18-21 mutations in 6 (38%) of the tumors. Next generation sequencing revealed no further EGFR-mutated cases, but reported in 15 (94%) of the tumors mutations in other genes (ALK, BRAF, DDR2, KEAP1, MET, PTEN, STK11) previously associated with NSCLC. Conclusion: Larger studies are needed to define the prognostic values of different driver mutations in patients with NSCLC.
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