Proteomic Analysis of Maternal Serum in Down Syndrome: Identification of Novel Protein Biomarkers

Overview

Journal J Proteome Res

Publisher American Chemical Society

Specialty Biochemistry

Date 2007 Mar 22

PMID 17373838

Citations 26

Authors

Srinivasa R Nagalla

Jacob A Canick

Thomas Jacob

Kimberly A Schneider

Ashok P Reddy

Archana Thomas

Surendra Dasari

Xinfang Lu

Jodi A Lapidus

Geralyn M Lambert-Messerlian

Michael G Gravett

Charles T Roberts Jr

David Luthy

Fergal D Malone

Mary E DAlton

Affiliations

Soon will be listed here.

Abstract

Down syndrome (DS) is the most prevalent chromosomal disorder, accounting for significant morbidity and mortality. Definitive diagnosis requires invasive amniocentesis, and current maternal serum-based testing requires a false-positive rate of about 5% to detect 85% of affected pregnancies. We have performed a comprehensive proteomic analysis to identify potential serum biomarkers to detect DS. First- and second-trimester maternal serum samples of DS and gestational age-matched controls were analyzed using multiple, complementary proteomic approaches, including fluorescence 2-dimensional gel electrophoresis (2D-DIGE), 2-dimensional liquid chromatography-chromatofocusing (2D-CF), multidimensional protein identification technology (MudPIT; LC/LC-MS/MS), and MALDI-TOF-MS peptide profiling. In total, 28 and 26 proteins were differentially present in first- and second-trimester samples, respectively. Of these, 19 were specific for the first trimester and 16 for the second trimester, and 10 were differentially present in both trimesters. Analysis of MALDI-TOF-MS peptide profiles with pattern-recognition software also discriminated between DS and controls in both trimesters, with an average recognition capability approaching 96%. A majority of the biomarkers identified are serum glycoproteins that may play a role in cellular differentiation and growth of fetus. Further characterization and quantification of these markers in a larger cohort of subjects may provide the basis for new tests for improved DS screening.

Citing Articles

Placental development and function in trisomy 21 and mouse models of Down syndrome: Clues for studying mechanisms underlying atypical development.

Adams A, Guedj F, Bianchi D Placenta. 2019; 89:58-66.

PMID: 31683073 PMC: 10040210. DOI: 10.1016/j.placenta.2019.10.002.

Proteomics Applications in Health: Biomarker and Drug Discovery and Food Industry.

Amiri-Dashatan N, Koushki M, Abbaszadeh H, Rostami-Nejad M, Rezaei-Tavirani M Iran J Pharm Res. 2018; 17(4):1523-1536.

PMID: 30568709 PMC: 6269565.

Disturbance of redox homeostasis in Down Syndrome: Role of iron dysmetabolism.

Barone E, Arena A, Head E, Butterfield D, Perluigi M Free Radic Biol Med. 2017; 114:84-93.

PMID: 28705658 PMC: 5748256. DOI: 10.1016/j.freeradbiomed.2017.07.009.

The Use of Proteomics in Assisted Reproduction.

Kosteria I, Anagnostopoulos A, Kanaka-Gantenbein C, Chrousos G, Tsangaris G In Vivo. 2017; 31(3):267-283.

PMID: 28438852 PMC: 5461434. DOI: 10.21873/invivo.11056.

Two kinds of common prenatal screening tests for Down's syndrome: a systematic review and meta-analysis.

Yao Y, Liao Y, Han M, Li S, Luo J, Zhang B Sci Rep. 2016; 6:18866.

PMID: 26732706 PMC: 4702166. DOI: 10.1038/srep18866.