Identification and Structural Characterisation of Carboxy-Terminal Polypeptides and Antibody Epitopes of Alzheimer's Amyloid Precursor Protein Using High-Resolution Mass Spectrometry

Tian, Xiaodan; Cecal, Roxana; McLaurin, JoAnne; Manea, Marilena; Ştefănescu, Raluca; Grau, Sandra; Harnasch, Mona; Amir, Sarah; Ehrmann, Michael; George-Hyslop, Peter St; Kohlmann, Markus; Przybylski, Michael

doi:10.1255/ejms.722

Cited by 18 publications

(27 citation statements)

References 27 publications

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“…In order to characterize the possible effect of the sequence environment of an NTresidue, the affinities and specificities of the monoclonal anti-3-NT antibody (legend to Figure 1) used for the proteolytic affinity extraction-MS analysis were assessed by an indirect ELISA method [33], using synthetic Tyrnitrated peptides comprising all tyrosine residues in ECP (Table S1, Figure S7; Supporting Information). The Tyr 33 -nitrated peptide ECP (28)(29)(30)(31)(32)(33)(34)(35)(36)(37)(38) showed substantially higher affinity compared with all other nitrated ECP peptides; in contrast, the Tyr 98 -nitrated peptide which is completely buried in the protein structure, revealed only minimal affinity. These results showed that the affinity differences between the nitrated ECP peptides correlate with a specific sequence environment of the tyrosine residues.…”

Section: Site Selectivity Of Tyrosine Nitration In Proteinsmentioning

confidence: 97%

“…In contrast, the direct identification of nitrations without affinity-extraction using HPLC-MS, such as in the auto-nitration site of eosinophilperoxidase (EPO) at Tyr 349 required highly purified protein and was only obtained after scrutinous HPLC separation of Figure 3. Identification of the tyrosine nitration site at Tyr −33 in eosinophil-derived neurotoxin by nano-ESI-FTICR-MS of the thermolysine peptide fragmnent, EDN (29)(30)(31)(32)(33)(34)(35)(36)(37)(38)(39)(40)(41)(42)(43). The modification denoted with X corresponds to carbamidomethylation at Cys-37.…”

Section: Proteolytic Affinity-mass Spectrometry Approach For Identifimentioning

confidence: 99%

“…The affinity of the nitrated ECP peptide was found to be completely abolished upon replacing the positively charged residues Arg 28 , Arg 34 , Arg 36 , and Lys 38 by alanine, thus confirming the importance of cationic amino acids in the vicinity to the nitration site for affinity binding. Affinity determinations of the nitrated peptide in comparison to the intact ECP protein using the SAW biosensor provided dissociation constants of approximately 6 nM for the nitrated peptide ECP (24)(25)(26)(27)(28)(29)(30)(31)(32)(33)(34)(35)(36)(37)(38)(39)(40)(41), and 28 nM for the intact ECP.…”

Section: Site Selectivity Of Tyrosine Nitration In Proteinsmentioning

confidence: 99%

“…Recent work in our laboratory has focused on the development of combined affinity-mass spectrometry methods for the identification of biomolecular recognition structures, such as protein antigen-epitopes [29][30][31][32][33]. In this CI we describe a general approach for the structural identification of protein nitrations by a combination of proteolytic affinity extraction and ESI mass spectrometry ( Figure 1).…”

Section: Introductionmentioning

confidence: 99%

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When is Mass Spectrometry Combined with Affinity Approaches Essential? A Case Study of Tyrosine Nitration in Proteins

Petre

Ulrich

Stumbaum

et al. 2012

J. Am. Soc. Mass Spectrom.

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Tyrosine nitration in proteins occurs under physiologic conditions and is increased at disease conditions associated with oxidative stress, such as inflammation and Alzheimer's disease. Identification and quantification of tyrosine-nitrations are crucial for understanding nitration mechanism(s) and their functional consequences. Mass spectrometry (MS) is best suited to identify nitration sites, but is hampered by low stabilities and modification levels and possible structural changes induced by nitration. In this insight, we discuss methods for identifying and quantifying nitration sites by proteolytic affinity extraction using nitrotyrosine (NT)-specific antibodies, in combination with electrospray-MS. The efficiency of this approach is illustrated by identification of specific nitration sites in two proteins in eosinophil granules from several biological samples, eosinophil-cationic protein (ECP) and eosinophil-derived neurotoxin (EDN). Affinity extraction combined with Edman sequencing enabled the quantification of nitration levels, which were found to be 8 % and 15 % for ECP and EDN, respectively. Structure modeling utilizing available crystal structures and affinity studies using synthetic NT-peptides suggest a tyrosine nitration sequence motif comprising positively charged residues in the vicinity of the NT-residue, located at specific surface-accessible sites of the protein structure. Affinities of Tyr-nitrated peptides from ECP and EDN to NT-antibodies, determined by online bioaffinity-MS, provided nanomolar K D values. In contrast, false-positive identifications of nitrations were obtained in proteins from cystic fibrosis patients upon using NT-specific antibodies, and were shown to be hydroxy-tyrosine modifications. These results demonstrate affinity-mass spectrometry approaches to be essential for unequivocal identification of biological tyrosine nitrations.

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Section: Site Selectivity Of Tyrosine Nitration In Proteinsmentioning

confidence: 97%

Section: Proteolytic Affinity-mass Spectrometry Approach For Identifimentioning

confidence: 99%

Section: Site Selectivity Of Tyrosine Nitration In Proteinsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

When is Mass Spectrometry Combined with Affinity Approaches Essential? A Case Study of Tyrosine Nitration in Proteins

Petre

Ulrich

Stumbaum

et al. 2012

J. Am. Soc. Mass Spectrom.

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“…These results and the most recent clinical studies confirming the epitope specificity (ADPD Congress, March 14-17, 2007, Salzburg, Austria) emphasize the therapeutic potential of plaque-specific antibodies. Using epitope excision -mass spectrometry and alanine scanning mutagenesis, we have previously shown that the mouse monoclonal 6E10 antibody, directed against β-amyloid (1-17), recognizes the same short epitope (FRHDSGY) at the N-terminus of Aβ, as did the antibodies resulting from active immunization of transgenic mice with Aβ(1-42) (11,12). Therefore, it is our hypothesis that primary structure details of this plaque-specific antibody (6E10) will provide a better understanding of the antigen recognition process at the molecular level and contribute to the development of more effective vaccines.…”

Section: Introductionmentioning

confidence: 99%

Determination of primary structure and microheterogeneity of a β-amyloid plaque-specific antibody using high-performance LC–tandem mass spectrometry

et al. 2008

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Using the "bottom-up" approach and liquid chromatography in combination with mass spectrometry, the primary structure and sequence microheterogeneity of a plaque-specific anti-β-amyloid (1-17) monoclonal antibody (clone 6E10) was characterized. This study describes the extent of structural information directly attainable by a high performance LC-tandem mass spectrometric method in combination with both protein database searching and de novo sequence determination. Using trypsin and chymotrypsin for enzymatic digestion, 95% sequence coverage of the light chain and 82% sequence coverage of the heavy chain of the 6E10-antibody were obtained. The primary structure determination of a large number of peptides from the antibody variable regions was obtained through de novo interpretation of the data. In addition, N-terminal truncations of the heavy chain were identified as well as low levels of pyro-glutamic acid formation. Surprisingly, pronounced sequence microheterogeneities were determined for the CDR 2 region of the light chain, indicating that changes at the protein level derived from somatic hypermutation of the Ig V L genes in mature B-cells might contribute to unexpected structural diversity. Furthermore, the major glycoforms at the conserved heavy chain N-glycosylation site, Asn-292, were determined to be core fucosylated, biantennary, complex type structures containing zero to two galactose residues.

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Design, structural, and immuno‐analytical properties of antigenic bioconjugates comprising a β‐amyloid‐plaque specific epitope

et al. 2008

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Immunotherapeutic approaches are investigated for treatment of neurodegenerative diseases of the Alzheimer's dementia (AD) type. The identification of a beta-amyloid-plaque specific epitope, Abeta(4-10) (4FRHDSGY10), recognized by therapeutically active antibodies from transgenic AD mice could provide the basis for the development of AD vaccines. Here we report on the synthesis, structural and immuno-analytical characterization of bioconjugates comprising the beta-amyloid(4-10) epitope as new vaccine lead structures against Alzheimer's disease. To produce antigenic bioconjugates, potential immunogens, the epitope peptide elongated by a cysteine residue or a cysteinyl-pentaglycine hexapeptide unit either at the N- or C-terminus was attached via a thioether bond to synthetic oligopeptide carriers, such as oligotuftsin derivatives, sequential oligopeptide carrier, or lysine dendrimer. The antigenic properties of these constructs were determined by enzyme-linked immunosorbent assay (ELISA) using an anti-Abeta(1-17) monoclonal antibody. Our results indicate that the major factors which influence the antibody binding of the Abeta(4-10) epitope are (i) the epitope topology and (ii) the presence of a spacer moiety between the carrier and the epitope peptide. Interestingly, the carrier type had no marked effect on the binding of the antibody to the epitope-conjugates. The conformational preferences of the conjugates were examined by circular dichroism spectroscopy in water and in trifluoroethanol. In water, the conjugates adopt random coil conformation independently on their primary structure. However, differences related to the attachment site of the epitope to the carriers were determined in TFE, conjugates in which the epitope was attached to the carrier through the N-terminus exhibiting more ordered secondary structure.

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Identification and Structural Characterisation of Carboxy-Terminal Polypeptides and Antibody Epitopes of Alzheimer's Amyloid Precursor Protein Using High-Resolution Mass Spectrometry

Cited by 18 publications

References 27 publications

When is Mass Spectrometry Combined with Affinity Approaches Essential? A Case Study of Tyrosine Nitration in Proteins

When is Mass Spectrometry Combined with Affinity Approaches Essential? A Case Study of Tyrosine Nitration in Proteins

Determination of primary structure and microheterogeneity of a β-amyloid plaque-specific antibody using high-performance LC–tandem mass spectrometry

Design, structural, and immuno‐analytical properties of antigenic bioconjugates comprising a β‐amyloid‐plaque specific epitope

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