   Study of the specific lipid binding properties of Abeta 11-22 fragment at endosomal pH.; Flore, Christelle  ; et alin Langmuir (2009), 25(18), 10948-53 Increasing evidence implicates interactions between Abeta peptide and lipids in the development of Alzheimer's disease. More generally, Abeta peptide interactions with membranes seem to depend on the ... [more ▼] Increasing evidence implicates interactions between Abeta peptide and lipids in the development of Alzheimer's disease. More generally, Abeta peptide interactions with membranes seem to depend on the composition of the lipid bilayer and the structural features of the peptide. One key parameter should be pH, since one site of intracellular Abeta peptide production and/or accumulation is likely to be endosomes. This intracellular endosomal accumulation was suggested to contribute to disease progression. In this paper, we report a study on the 11-22 amphiphilic domain of Abeta in interaction with model membrane; this region contains most of the charged residues of the N-terminal domain of Abeta. We show that the peptide charge, and more precisely the protonation state of histidines 13 and/or 14, is important for the interaction with lipids. Hence, it is only at endosomal pH that a conformational change of the peptide is observed in the presence of negatively charged lipid vesicles, that is, when both lipid headgroups and histidines can interact through electrostatic interactions. Specific interactions of the fragment with phosphatidylserine and to a lesser extent with phosphatidylcholine, but not phosphatidylethanolamine, are further evidenced by the Langmuir monolayer technique. From our results, we suggest that the protonation state of His residues could have a role in the pathogenic surface interaction of the whole Abeta peptide with membranes. [less ▲] Detailed reference viewed: 19 (0 ULg)Fusogenic Alzheimer'S Peptide Fragment A Beta (29-42) In Interaction With Lipid Bilayers: Secondary Structure, Dynamics, And Specific Interaction With Phosphatidyl Ethanolamine Polar Heads As Revealed By Solid-State Nmr; ; et al in Protein Science : A Publication of the Protein Society (2005), 14(5), 1181-9 The interaction of the native Alzheimer's peptide C-terminal fragment Abeta (29-42), and two mutants (G33A and G37A) with neutral lipid bilayers made of POPC and POPE in a 9:1 molar ratio was investigated ... [more ▼] The interaction of the native Alzheimer's peptide C-terminal fragment Abeta (29-42), and two mutants (G33A and G37A) with neutral lipid bilayers made of POPC and POPE in a 9:1 molar ratio was investigated by solid-state NMR. This fragment and the lipid composition were selected because they represent the minimum requirement for the fusogenic activity of the Alzheimer's peptide. The chemical shifts of alanine methyl isotropic carbon were determined by MAS NMR, and they clearly demonstrated that the major form of the peptide equilibrated in membrane is not in a helical conformation. (2)H NMR, performed with acyl chain deuterated POPC, demonstrated that there is no perturbation of the acyl chain's dynamics and of the lipid phase transition temperature. (2)H NMR, performed with alanine methyl-deuterated peptide demonstrated that the peptide itself has a limited mobility below and above the lipid phase transition temperature (molecular order parameter equal to 0.94). MAS (31)P NMR revealed a specific interaction with POPE polar head as seen by the enhancement of POPE phosphorus nuclei T(2) relaxation. All these results are in favor of a beta-sheet oligomeric association of the peptide at the bilayer interface, preferentially recruiting phosphatidyl ethanolamine polar heads. [less ▲] Detailed reference viewed: 6 (0 ULg)Partial Atomic Charges Of Amino Acids In ProteinsThomas, Annick ; ; Brasseur, Robert in Proteins-Structure Function and Bioinformatics (2004), 56(1), 102-9 Using a semiempirical quantum mechanical procedure (FCPAC) we have calculated the partial atomic charges of amino acids from 494 high-resolution protein structures. To analyze the influence of the protein ... [more ▼] Using a semiempirical quantum mechanical procedure (FCPAC) we have calculated the partial atomic charges of amino acids from 494 high-resolution protein structures. To analyze the influence of the protein's environment, we considered each residue under two conditions: either as the center of a tripeptide with PDB structure geometry (free) or as the center of 13-16 amino acid clusters extracted from the PDB structure (buried). The partial atomic charges from residues in helices and in sheets were separated. The FCPAC partial atomic charges of the Cbeta and Calpha of most residues correlate with their helix propensity, positively for Cbeta and negatively for Calpha (r2 = 0.76 and 0.6, respectively). The main consequence of burying residues in proteins is the polarization of the backbone C=O bond, which is more pronounced in helices than in sheets. The average shift of the oxygen partial charges that results from burying is -0.120 in helix and -0.084 in sheet with the charge of the proton as unit. Linear correlations are found between the average NMR chemical shifts and the average FCPAC partial charges of Calpha (r2 = 0.8-0.85), N (r3 = 0.67-0.72), and Cbeta (r2 = 0.62) atoms. Correlations for helix and beta-sheet FCPAC partial charges show parallel regressions, suggesting that the charge variations due to burying in proteins differentiate between the dihedral angle effects and the polarization of backbone atoms. [less ▲] Detailed reference viewed: 8 (0 ULg)Role of Tir and Intimin in the virulence of rabbit enteropathogenic Escherichia coli (REPEC) of serotype O103:H2; ; et al in Infection and Immunity (2000), 68 Detailed reference viewed: 5 (0 ULg)The long-term cytoskeletal rearrangement induced by rabbit enteropathogenic Escherichia coli is Esp-dependent but intimin-independent; ; et al in Molecular Microbiology (1999), 31 Detailed reference viewed: 1 (0 ULg) |
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