Novel mass spectrometric immunoassays for the rapid structural characterization of plasma apolipoproteins

Niederkofler, Eric E.; Tubbs, Kemmons A.; Kiernan, Urban A.; Nedelkov, Dobrin; Nelson, Randall W.

doi:10.1194/jlr.d200034-jlr200

Cited by 68 publications

(71 citation statements)

References 23 publications

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“…The masses of the 2 protein peaks (m/z 17 248 and 17 369) in the m/z 17 000 protein peak cluster in our SELDI spectra were in concordance with previously described masses of isoforms of APO A-II (25,26 ). Multiple isoforms of APO A-II have been described in humans (25,(27)(28)(29) and are the result of posttranslational modifications, such as oxidization or truncation of the C-terminal glutamine residue (25)(26)(27)(28).…”

Section: Discussionsupporting

confidence: 70%

Identification of Apolipoprotein A-II in Cerebrospinal Fluid of Pediatric Brain Tumor Patients by Protein Expression Profiling

et al. 2006

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Background: Our aim was to detect differences in protein expression profiles of cerebrospinal fluid (CSF) from pediatric patients with and without brain tumors. Methods: We used surface-enhanced laser desorption/ ionization time-of-flight (SELDI-TOF) mass spectrometry and Q10 ProteinChip arrays to compare protein expression profiles of CSF from 32 pediatric brain tumor patients and 70 pediatric control patients. A protein with high discriminatory power was isolated and identified by subsequent anion-exchange and reversed-phase fractionation, gel electrophoresis, and mass spectrometry. The identity of the protein was confirmed by Western blotting and immunohistochemistry. Results: Of the 247 detected protein peak clusters, 123 were differentially expressed between brain tumor and control patients with a false discovery rate of 1%. Double-loop classification analysis gave a mean prediction accuracy of 88% in discriminating brain tumor patients from control patients. From the 123 clusters, a highly overexpressed protein peak cluster in CSF from brain tumor patients was selected for further analysis and identified as apolipoprotein A-II. Apolipoprotein A-II expression in CSF was correlated with the CSF albumin concentration, suggesting that the overexpres-

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Section: Discussionsupporting

confidence: 70%

Identification of Apolipoprotein A-II in Cerebrospinal Fluid of Pediatric Brain Tumor Patients by Protein Expression Profiling

et al. 2006

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“…Since its inception in 1995 by R.W. Nelson et al, 21 it has been applied to study a variety of proteins and peptides, [22][23][24][25][26][27][28][29][30][31][32][33][34][35][36] and has served as the foundation for the nascent field of Population Proteomics. [37][38][39][40][41][42] Roughly, MSIA can be envisioned as ultra high resolution, semiquantitative Western blotting in which protein variants are thoroughly resolved and their molecular masses determined to within less than 2 Da.…”

Section: Methodsmentioning

confidence: 99%

“…Isolation of DBP from plasma was carried out with proprietary MSIA pipette tips from Intrinsic Bioprobes (Tempe, AZ) derivatized with the DBP antibodies via 1,1 0 -carbonyldiimidazole (CDI) chemistry as previously described. 33,43 Serum samples from 29 cancer patients (nine breast cancer, 11 colorectal cancer, nine prostate cancer) of African-American, Caucasian, and Hispanic origin, along with age, gender, and racematched controls were purchased from ProMedDx (Norton, MA). Twenty seven plasma samples from pancreatic cancer patients were generously donated by Dr. Douglas Lake of the School of Life Sciences at Arizona State University.…”

Section: Methodsmentioning

confidence: 99%

“…With the aid of a Beckman Multimek 96-channel automated pipetter, MSIA pipette tips that had been preactivated with CDI 33,43 were derivatized with polyclonal DBP antibodies by repetitively flowing (aspirating and dispensing 750 times) 50 lL volumes of antibody solution (150 lL/well; 0.05 g/L in 0.1M MES buffered saline, pH 4.7) through the tips. Antibody-linked tips were stored in HBS at 4 C until the day of use at which time they were prerinsed (400 lL/well; 150 lL aspirate and dispense cycles; 10 cycles) with HBS then used to extract DBP from individual samples (25 lL of human serum or plasma diluted with 75 lL of HBS) at room temperature (100 lL/well; 50 lL aspirate and dispense cycles; 750 cycles).…”

Section: Sample Preparation For the Analysis Of Intact Dbp By Msia Esmentioning

confidence: 99%

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Glycosylation status of vitamin D binding protein in cancer patients

2009

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On the basis of the results of activity studies, previous reports have suggested that vitamin D binding protein (DBP) is significantly or even completely deglycosylated in cancer patients, eliminating the molecular precursor of the immunologically important Gc macrophage activating factor (GcMAF), a glycosidase-derived product of DBP. The purpose of this investigation was to directly determine the relative degree of O-linked trisaccharide glycosylation of serumderived DBP in human breast, colorectal, pancreatic, and prostate cancer patients. Results obtained by electrospray ionization-based mass spectrometric immunoassay showed that there was no significant depletion of DBP trisaccharide glycosylation in the 56 cancer patients examined relative to healthy controls. These results suggest that alternative hypotheses regarding the molecular and/or structural origins of GcMAF must be considered to explain the relative inability of cancer patient serum to activate macrophages.

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“…Work over the past 2 decades has led to the development of high-throughput mass spectrometric immunoassay (MSIA) 2 technologies and workflows that are well suited to the standardized characterization of protein diversity in human populations (1)(2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14). Data from such "population proteomics" studies include changes in concentration, amino acid sequence, and relative qualitative/quantitative changes in posttranslational modifications (15,16 ).…”

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confidence: 99%

Full-Length Characterization of Proteins in Human Populations

et al. 2010

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BACKGROUND: Diversity in human proteins often gives rise to pluralities of structurally similar but functionally distinct proteins. Such microheterogeneity generally escapes proteomics discovery technologies, as well as conventional immunometric assays. As an intermediate between these 2 technological approaches, targeted, full-length characterization of proteins using mass spectrometry is a suitable means of defining microheterogeneity evident in human populations. CONTENT:We describe and explore the implications of microheterogeneity using the exemplar of human vitamin D binding protein (Gc-Globulin) as observed in cohorts of 400 individuals. Our investigations yielded: (a) population frequency data comparable to genotyping; (b) population frequency data for protein variants, with and without genotype linkage; (c) reference values for the different protein variants per cohort and genotype; and (d) associations between variant, frequency, relative abundance, and diseases.

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Novel mass spectrometric immunoassays for the rapid structural characterization of plasma apolipoproteins

Cited by 68 publications

References 23 publications

Identification of Apolipoprotein A-II in Cerebrospinal Fluid of Pediatric Brain Tumor Patients by Protein Expression Profiling

Identification of Apolipoprotein A-II in Cerebrospinal Fluid of Pediatric Brain Tumor Patients by Protein Expression Profiling

Glycosylation status of vitamin D binding protein in cancer patients

Full-Length Characterization of Proteins in Human Populations

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