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

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...

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Bibliographic Details
Published in:Journal of the American Society for Mass Spectrometry 2012-11, Vol.23 (11), p.1831-1840
Main Authors: Petre, Brînduşa-Alina, Ulrich, Martina, Stumbaum, Mihaela, Bernevic, Bogdan, Moise, Adrian, Döring, Gerd, Przybylski, Michael
Format: Article
Language:English
Subjects:
Affinity
Amino Acid Sequence
Analytical Chemistry
Analytical, structural and metabolic biochemistry
Animals
Antibodies
Antibodies, Immobilized - chemistry
Binding Sites
Bioinformatics
Biological and medical sciences
Biological properties
Biotechnology
Chemistry
Chemistry and Materials Science
Critical Insight
Crystal structure
Cystic fibrosis
Cystic Fibrosis - metabolism
Eosinophil Granule Proteins - analysis
Eosinophil Granule Proteins - chemistry
Extraction
Fundamental and applied biological sciences. Psychology
General aspects, investigation methods
Humans
Identification methods
Immunochromatography - methods
Immunoglobulins
Ions
Mass spectrometry
Mass Spectrometry - methods
Models, Molecular
Molecular Sequence Data
Nitration
Organic Chemistry
Peptide Fragments - analysis
Peptide Fragments - chemistry
Peptides
Proteins
Proteomics
Scientific imaging
Spectroscopy
Tyrosine
Tyrosine - analogs & derivatives
Tyrosine - analysis
Tyrosine - chemistry
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Summary: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.
ISSN:1044-0305
1879-1123
DOI:10.1007/s13361-012-0461-4