Multi-peptide NLC-PC-IDMS-SRM-based Assay for the Quantification of Biomarkers in the Chicken Ovarian Cancer Model

Overview

Journal Methods

Specialty Biochemistry

Date 2013 Apr 23

PMID 23603217

Citations 6

Authors

Genna L Andrews Kingon

James N Petitte

David C Muddiman

Adam M Hawkridge

Affiliations

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Abstract

A novel form of ovomacroglobulin/ovostatin (OVOS2) predicted from EST data was previously identified in the chicken ovarian cancer model using a mass spectrometry-based shotgun label-free proteomics strategy. The quantitative label-free data from plasma showed a significant increase over time with the spontaneous onset and progression of ovarian cancer making it a potential protein biomarker for further study. Two other proteins of interest identified from this initial study included vitellogenin-1 (Vit-1), a lipid-transport protein tied to egg production, and transthyretin (TTR), a retinol binding transport protein currently used in the clinical management of ovarian cancer. A multiplexed protein cleavage isotope dilution mass spectrometry (PC-IDMS) assay was developed to quantify OVOS2, Vit-1, and TTR by selected reaction monitoring (SRM). A total of 6 stable isotope labeled (SIL) peptide standards were used in the assay with three tryptic peptides from OVOS2, one for Vit-1, and two for TTR. The assay was developed for use with un-depleted raw plasma combined with the filter assisted sample preparation (FASP) method and its use was also demonstrated for matched ovary tissue samples. The PC-IDMS data for the two TTR peptides did not correlate with each other with more than a 10-fold difference in concentration for all 5 time points measured. The PC-IDMS data from the longitudinal plasma samples correlated well for OVOS2 and Vit-1 whereas TTR was inconclusive. Interestingly, the absolute amount for one of the OVOS2 SIL peptides was 2-fold less compared with the other two SIL peptides. These data illustrate the successes and challenges of qualifying quantitative levels of proteins from an in-gel digestion sample preparation followed by LC-MS/MS (GeLC) label-free discovery-based approach to a targeted SRM-based quantitative assay in plasma and tissues.

Citing Articles

Enhanced Lipidome Coverage in Shotgun Analyses by using Gas-Phase Fractionation.

Nazari M, Muddiman D J Am Soc Mass Spectrom. 2016; 27(11):1735-1744.

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Mechanisms of Egg Yolk Formation and Implications on Early Life History of White Perch (Morone americana).

Schilling J, Loziuk P, Muddiman D, Daniels H, Reading B PLoS One. 2015; 10(11):e0143225.

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Polarity switching mass spectrometry imaging of healthy and cancerous hen ovarian tissue sections by infrared matrix-assisted laser desorption electrospray ionization (IR-MALDESI).

Nazari M, Muddiman D Analyst. 2015; 141(2):595-605.

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In-depth LC-MS/MS analysis of the chicken ovarian cancer proteome reveals conserved and novel differentially regulated proteins in humans.

Nepomuceno A, Shao H, Jing K, Ma Y, Petitte J, Idowu M Anal Bioanal Chem. 2015; 407(22):6851-63.

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Establishing ion ratio thresholds based on absolute peak area for absolute protein quantification using protein cleavage isotope dilution mass spectrometry.

Loziuk P, Sederoff R, Chiang V, Muddiman D Analyst. 2014; 139(21):5439-50.

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