Down syndrome (DS), caused by an extra chromosome 21, affects 1 in 750 live births, and is characterized by cognitive impairment as well as several congenital defects. Currently, little is known about the molecular pathogenesis of DS and no direct genotype-phenotype relationship has yet been confirmed. The current screening test for DS subjects many women to undergo invasive procedures such as amniocentesis due to suboptimal sensitivity and specificity. Therefore, this study aimed to discover novel biomarkers to improve screening tests, and to discovery dysregulated molecular pathways in DS-affected fetus to better understand pathogenesis. To achieve this objective, proteomic analyses of amniotic fluid (AF) and amniotic fluid cells (amniocytes) were performed using mass spectrometry (MS), which allows discovery of a large number of proteins in complex biological samples. Since AF contains the most information of the developing fetus, we first generated the most comprehensive list of proteins present in AF by using high resolution MS. We then performed quantitative analyses of proteins from AF as well as amniocytes to reveal novel biomarkers and clues to altered molecular mechanisms of DS. Comparison between the proteome of AF from unaffected and DS-affected pregnancies allowed selection of 60 candidate biomarkers based on spectral counting. Two candidates, APP and TNC-C, were verified by immunoassays to show two-fold increase in AF from DS-pregnancies. Additionally, CPA4, MUC13, CEL, DPP4 and MMP2 were verified to be differentially expressed in trisomy 21-AF via selected reaction monitoring assays using triple-quadruple mass spectrometer. Amniocytes from DS-affected and unaffected fetuses were also quantitatively analyzed by using Stable Isotope Labelling of Amino acids in Cell culture technique. Over 4900 proteins were identified from amniocyte lysate and supernatant by LTQ-Orbitrap mass spectrometer, and 85% of these proteins were quantified based on MS/MS spectra ratios of peptides containing isotope-labelled amino acids. Proteins that consistently showed aberrant expression from affected amniocytes have been selected for further verification and molecular network analyses since they may play a role in DS pathogenesis.
| Identifer | oai:union.ndltd.org:TORONTO/oai:tspace.library.utoronto.ca:1807/33873 |
| Date | 06 December 2012 |
| Creators | Cho, Chan-Kyung Jane |
| Contributors | Diamandis, Eleftherios P. |
| Source Sets | University of Toronto |
| Language | en_ca |
| Detected Language | English |
| Type | Thesis |
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