Molecular genetic analysis of the assembly of eukaryotic type III membrane proteins in Escherichia coli

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Shortfalls in the peptidyl-prolyl cis-trans isomerase protein Pin1 in neurons are associated with frontotemporal dementias

The peptidyl-prolyl cis-trans isomerase (PPIase) Pin1 modulates the activity of a range of target proteins involved in the cell cycle, transcription, translation, endocytosis, and apoptosis by facilitating dephosphorylation of phosphorylated serine or threonine residue preceding a proline (p-Ser/Thr-Pro) motifs catalyzed by phosphatases specific for the trans conformations. Pin1 targets include the neuronal microtubule-associated protein tau, whose dephosphorylation restores its ability to stabilize microtubules. We, and others, have shown that tau hyperphosphorylation in the neurofibrillary tangles (NFTs) of Alzheimer disease (AD) is associated with redirection of the predominantly nuclear Pin1 to the cytoplasm and with Pin1 shortfalls throughout subcellular compartments. As nuclear Pin1 depletion causes apoptosis, shortfalls in regard to both nuclear and p-tau targets may contribute to neuronal dysfunction. We report here that similar Pin1 redistribution and shortfalls occur in frontotemporal dementias (FTDs) characterized by abnormal protein aggregates of tau and other cytoskeletal proteins. This may be a unifying, contributory factor towards neuronal death in these dementias

Bacterial Phage Receptors, Versatile Tools for Display of Polypeptides on the Cell Surface

Four outer membrane proteins of Escherichia coli were examined for their capabilities and limitations in displaying heterologous peptide inserts on the bacterial cell surface. The T7 tag or multiple copies of the myc epitope were inserted into loops 4 and 5 of the ferrichrome and phage T5 receptor FhuA. Fluorescence-activated cell sorting analysis showed that peptides of up to 250 amino acids were efficiently displayed on the surface of E. coli as inserts within FhuA. Strains expressing FhuA fusion proteins behaved similarly to those expressing wild-type FhuA, as judged by phage infection and colicin sensitivity. The vitamin B(12) and phage BF23 receptor BtuB could display peptide inserts of at least 86 amino acids containing the T7 tag. In contrast, the receptors of the phages K3 and λ, OmpA and LamB, accepted only insertions in their respective loop 4 of up to 40 amino acids containing the T7 tag. The insertion of larger fragments resulted in inefficient transport and/or assembly of OmpA and LamB fusion proteins into the outer membrane. Cells displaying a foreign peptide fused to any one of these outer membrane proteins were almost completely recovered by magnetic cell sorting from a large pool of cells expressing the relevant wild-type platform protein only. Thus, this approach offers a fast and simple screening procedure for cells displaying heterologous polypeptides. The combination of FhuA, along with with BtuB and LamB, should provide a comprehensive tool for displaying complex peptide libraries of various insert sizes on the surface of E. coli for diverse applications

Versatility of inner membrane protein biogenesis in Escherichia coli.

To further our understanding of inner membrane protein (IMP) biogenesis in Escherichia coli, we have accomplished the widest in vivo IMP assembly screen so far. The biogenesis of a set of model IMPs covering most IMP structures possible has been studied in a variety of signal recognition particle (SRP), Sec and YidC mutant strains. We show that the assembly of the complete set of model IMPs is assisted (i.e. requires the aid of proteinaceous factors), and that the requirements for assembly of the model IMPs into the inner membrane differ significantly from each other. This indicates that IMP assembly is much more versatile than previously thought