The relationship of circulating proteins in early pregnancy with preterm birth

Lynch, Anne M.; Wagner, Brandie D.; Deterding, Robin R.; Giclas, Patricia C.; Gibbs, Ronald S.; Janoff, Edward N.; Holers, V. Michael; Santoro, Nanette

doi:10.1016/j.ajog.2015.11.001

Cited by 46 publications

(36 citation statements)

References 39 publications

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“…Specifically women in the upper quartile of C3a were three times more likely to have an adverse outcome later in pregnancy after controlling for parity and pre-pregnancy BMI compared to women in any lower quartiles. In a recent biomarker discovery study, Lynch and colleagues (Lynch, Wagner, Deterding, et al, 2016) also found that the complement factors B and H along with coagulation factors IX and IXab were the highest ranking proteins found in cases of PTB compared to term controls, suggesting that the leading pathways to PTB include the complement, immune and clotting systems. Similarly women with elevated levels of the complement factor Bb in early pregnancy were nearly four times as likely to have PTB after controlling for known PTB related risk factors (Lynch et al, 2008).…”

Section: The Microbiome As a Mechanism For Preterm Birthmentioning

confidence: 98%

The Microbiome and Complement Activation: A Mechanistic Model for Preterm Birth

Dunn

Dunlop

Hogue

et al. 2017

Biological Research For Nursing

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Preterm Birth (PTB, < 37 completed weeks' gestation) is one of the leading obstetrical problems in the United States affecting approximately 1 of every 9 births. Even more concerning are the persistent racial disparities in PTB with particularly high rates in African Americans. There are several recognized pathophysiologic pathways to PTB, including infection and/or exaggerated systemic or local inflammation. Intrauterine infection is a causal factor linked to PTB, thought to result most commonly from inflammatory processes triggered by microbial invasion of bacteria ascending from the vaginal microbiome. Trials to treat various infections have shown limited efficacy in reducing PTB risk, suggesting that other complex mechanisms, including those associated with inflammation, may be involved in the relationship between microbes, infection, and PTB. A key mediator of the inflammatory response, and recently shown to be associated with PTB, is the complement system, an innate defense mechanism involved in both normal physiologic processes that occur during pregnancy implantation, as well as processes that promote the elimination of pathogenic microbes. The purpose of this paper is to present a mechanistic model of inflammation-associated PTB, which hypothesizes a relationship between the microbiome and dysregulation of the complement system. Exploring the relationships between the microbial environment and complement biomarkers may elucidate a potentially modifiable biological pathway to preterm birth.

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Section: The Microbiome As a Mechanism For Preterm Birthmentioning

confidence: 98%

The Microbiome and Complement Activation: A Mechanistic Model for Preterm Birth

Dunn

Dunlop

Hogue

et al. 2017

Biological Research For Nursing

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“…The same applies to Pappalysin-1 (PAPP-A), one of the top nine proteins whose concentration increased more than five-fold in this study. PAPP-A is mainly produced by the placenta, and its concentration is low in the first trimester of pregnancies complicated by either chromosomal abnormalities (Trisomies 21, 18 and 13, and monosomy X) (93, 97-100, [245][246][247][248] or a subset destined to develop placenta-mediated obstetrical syndromes such as SGA and preeclampsia (119, [249][250][251][252][253][254][255][256][257][258][259][260][261] and preterm birth (262). In this study, we also report the longitudinal changes in the plasma concentrations of PAPP-A as a function of gestational age.…”

Section: Meaning Of the Studymentioning

confidence: 99%

The maternal plasma proteome changes as a function of gestational age in normal pregnancy: a longitudinal study

Romero

Erez

Maymon

et al. 2017

American Journal of Obstetrics and Gynecology

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Objective Pregnancy is accompanied by dramatic physiologic changes in maternal plasma proteins. Characterization of the maternal plasma proteome in normal pregnancy is an essential step for understanding changes to predict pregnancy outcome. The objective of this study was to describe maternal plasma proteins that change in abundance with advancing gestational age, and determine biological processes that are perturbed in normal pregnancy. Materials and methods A longitudinal study included 43 normal pregnancies that had a term delivery of an infant who was appropriate for gestational age (AGA) without maternal or neonatal complications. For each pregnancy, 3 to 6 maternal plasma samples (median=5,) were profiled to measure the abundance of 1,125 proteins using multiplex assays. Linear mixed effects models with polynomial splines were used to model protein abundance as a function of gestational age, and significance of the association was inferred via likelihood ratio tests. Proteins considered to be significantly changed were defined as having: 1) more than 1.5 fold change between 8 and 40 weeks of gestation; and 2) a false discovery rate (FDR) adjusted p-value <0.1. Gene ontology enrichment analysis was employed to identify biological processes over-represented among the proteins that changed with advancing gestation. Results 1) Ten percent (112/1,125) of the profiled proteins changed in abundance as a function of gestational age; 2) of the 1,125 proteins analyzed Glypican-3, sialic acid-binding immunoglobulin-type lectins (Siglec)-6, placental growth factor (PlGF), C-C motif (CCL)-28, carbonic anhydrase 6, Prolactin (PRL), interleukin-1 receptor 4 (IL-1 R4), dual specificity mitogen-activated protein kinase 4 (MP2K4) and pregnancy-associated plasma protein-A (PAPP-A) had more than 5 fold change in abundance across gestation. These 9 proteins are known to be involved in a wide range of both physiologic and pathologic processes, such as growth regulation, embryogenesis, angiogenesis immunoregulation, inflammation etc.; and 3) biological processes associated with protein changes in normal pregnancy included defense response, defense response to bacteria, proteolysis and leukocyte migration (FDR=10%). Conclusions The plasma proteome of normal pregnancy demonstrates dramatic changes in both magnitude of changes and the fraction of the proteins involved. Such information is important to understand the physiology of pregnancy, development of biomarkers to differentiate normal vs. abnormal pregnancy, and determine the response to interventions.

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“…Plasma samples were divided into aliquots and stored at 280°C in a Biorepository at the University of Colorado Hospital. Details of the cohort have been described by Lynch et al (25).…”

Section: The Denver Baby Blanket Cohortmentioning

confidence: 99%

The human placental proteome secreted into the maternal and fetal circulations in normal pregnancy based on 4‐vessel sampling

et al. 2018

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We sought to identify proteins secreted by the human placenta into the maternal and fetal circulations. Blood samples from the maternal radial artery and uterine vein and umbilical artery and vein were obtained during cesarean section in 35 healthy women with term pregnancy. Slow off‐rate modified aptamer (SOMA) protein–binding technology was used to quantify 1310 known proteins. The uteroplacental and umbilical venoarterial concentration differences were calculated. Thirty‐four proteins were significantly secreted by the placenta into the maternal circulation, including placental growth factor, growth/differentiation factor 15, and matrix metalloproteinase 12. There were 341 proteins significantly secreted by the placenta into the fetal circulation. Only 7 proteins were secreted into both the fetal and maternal circulations, suggesting a distinct directionality in placental protein release. We examined changes across gestation in the proteins found to be significantly secreted by the placenta into the maternal circulation using serial blood samples from healthy women. Among the 34 proteins secreted into the maternal circulation, 8 changed significantly across gestation. The identified profiles of secreted placental proteins will allow us to identify novel minimally invasive biomarkers for human placental function across gestation and discover previously unknown proteins secreted by the human placenta that regulate maternal physiology and fetal development.—Michelsen, T. M., Henriksen, T., Reinhold, D., Powell, T. L., Jansson, T. The human placental proteome secreted into the maternal and fetal circulations in normal pregnancy based on 4‐vessel sampling. FASEB J. 33, 2944–2956 (2019). http://www.fasebj.org

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The relationship of circulating proteins in early pregnancy with preterm birth

Cited by 46 publications

References 39 publications

The Microbiome and Complement Activation: A Mechanistic Model for Preterm Birth

The Microbiome and Complement Activation: A Mechanistic Model for Preterm Birth

The maternal plasma proteome changes as a function of gestational age in normal pregnancy: a longitudinal study

The human placental proteome secreted into the maternal and fetal circulations in normal pregnancy based on 4‐vessel sampling

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