Project description:The amniotic fluid (AF) cell-free (cf) RNA was shown to reflect physiological and pathological processes in pregnancy, but its value in prediction of spontaneous preterm delivery is unknown. Here we profiled cfRNA in AF samples collected from women who underwent transabdominal amniocentesis after an episode of spontaneous preterm labor and subsequently delivered within 24h (n=10) or later (n=28) in gestation. Expression of known placental single cell (sc) RNA-Seq signatures were quantified in AF cfRNA and compared between groups. Random forest models were applied to predict time to delivery after amniocentesis. There were 2385 genes differentially expressed in AF samples of women who delivered within 24 hours of amniocentesis compared to gestational age-matched samples from women who delivered after 24 hours of amniocentesis.Genes with cfRNA changes were associated with immune and inflammatory processes related to the onset of labor, and expression of placental scRNA-Seq signatures of immune cells were increased with imminent delivery. AF transcriptomic prediction models captured these effects and predicted delivery within 24 hours of amniocentesis (AUROC =0.81). These results may inform development of biomarkers for spontaneous preterm birth.

Project description:Preterm birth, defined as delivery before the 37th week of gestation, is the most common cause of neonatal mortality and the second leading cause of death in children under five years of age. Preterm birth is associated with immediate and long term morbidity as well as growth and developmental delay. Currently there is no treatment that can prevent or block preterm labor. In order to identify the molecular regulators of preterm spontaneous labor in the human myometrium, we studied the gene expression profiles of samples with Preterm Spontaneous Labour (PSL) and compared them with the gene expression profiles of samples with Preterm No Labor (PNL).

Project description:Using RNA-sequencing (RNA-Seq and miRNA-Seq), we analyzed paired villous trophoblast and decidual basalis transcriptomes of 15 women pregnant with singleton gestations grouped as follows: (1) spontaneous preterm birth (PTB) in the setting of amniocentesis-proven intra-amniotic infection (IAI) and histological chorioamnionits (n=5; GA median [range]: 26 [25-31] weeks); (2) spontaneous idiopathic preterm birth (iPTB, n=5, GA: 32 [30-33] weeks); and (3) term normal pregnancy, that delivered a heathy infant by cesarean section in the absence of labor (n=5; GA: 39 [38-39] weeks).

Project description:Using RNA-sequencing (RNA-Seq and miRNA-Seq), we analyzed paired villous trophoblast and decidual basalis transcriptomes of 15 women pregnant with singleton gestations grouped as follows: (1) spontaneous preterm birth (PTB) in the setting of amniocentesis-proven intra-amniotic infection (IAI) and histological chorioamnionits (n=5; GA median [range]: 26 [25-31] weeks); (2) spontaneous idiopathic preterm birth (iPTB, n=5, GA: 32 [30-33] weeks); and (3) term normal pregnancy, that delivered a heathy infant by cesarean section in the absence of labor (n=5; GA: 39 [38-39] weeks).

Project description:Using RNA-sequencing (RNA-Seq and miRNA-Seq), we analyzed paired villous trophoblast and decidual basalis transcriptomes of 15 women pregnant with singleton gestations grouped as follows: (1) spontaneous preterm birth (PTB) in the setting of amniocentesis-proven intra-amniotic infection (IAI) and histological chorioamnionits (n=5; GA median [range]: 26 [25-31] weeks); (2) spontaneous idiopathic preterm birth (iPTB, n=5, GA: 32 [30-33] weeks); and (3) term normal pregnancy, that delivered a heathy infant by cesarean section in the absence of labor (n=5; GA: 39 [38-39] weeks). The primary goal of this study was to identify differentially expressed transcripts and illuminate molecular mechanisms distinguishing IAI-associated PTBs from spontaneous PTBs in the absence of IAI. We further compared iPTB specimens to term specimens to determine genes differentially regulated with advancing gestational age and following spontaneous PTB without IAI. Finally, we determined transcripts selectively expressed in either the villous trophoblast or decidua basalis in each clinical context. Raw data for this series are not available because consent forms do not allow for public access to raw data.

Project description:Using RNA-sequencing (RNA-Seq and miRNA-Seq), we analyzed paired villous trophoblast and decidual basalis transcriptomes of 15 women pregnant with singleton gestations grouped as follows: (1) spontaneous preterm birth (PTB) in the setting of amniocentesis-proven intra-amniotic infection (IAI) and histological chorioamnionits (n=5; GA median [range]: 26 [25-31] weeks); (2) spontaneous idiopathic preterm birth (iPTB, n=5, GA: 32 [30-33] weeks); and (3) term normal pregnancy, that delivered a heathy infant by cesarean section in the absence of labor (n=5; GA: 39 [38-39] weeks). The primary goal of this study was to identify differentially expressed transcripts and illuminate molecular mechanisms distinguishing IAI-associated PTBs from spontaneous PTBs in the absence of IAI. We further compared iPTB specimens to term specimens to determine genes differentially regulated with advancing gestational age and following spontaneous PTB without IAI. Finally, we determined transcripts selectively expressed in either the villous trophoblast or decidua basalis in each clinical context. Raw data for this study are not available because consent forms do not allow for public access to raw data.

Project description:Distinct processes govern the transition from myometrial quiescence to activation during both term and preterm labor. We sought the specific gene sets responsible for initiating term and preterm labor, along with a core set of effector genes necessary for labor independent of gestational age and the underlying trigger. The Effector Gene Set consisted of 49 genes present in both preterm and term labor but absent from non-labor samples. 122 genes were specific to preterm labor (Preterm Initiator Set) and 229 to term labor (Term Initiator Set). The Term Initiator and the Effector Sets reflected predominantly inflammatory processes. Surprisingly, the Preterm Initiator Gene Set reflected molecular and biological events almost exclusive of inflammation. Preterm and term labor differ dramatically in their unique, initiator gene profiles, suggesting alternative pathways underlie these events. Inflammatory processes are ubiquitous to the Term Initiator and the Effector Gene Sets, supporting the idea term parturition is an inflammatory process. The absence of inflammatory processes in the Preterm Initiator Set suggests inflammation is secondary to processes triggering spontaneous preterm birth, and could explain the lack of therapeutic efficacy associated with anti inflammatory/antibiotic regimens. Experiment Overall Design: Myometrial gene expression was analyzed from samples obtained at term (n=6) or preterm (n=6) with and without labor using cDNA microarrays. Patients in preterm labor all had intra amniotic inflammation. Gene sets were generated using logical operations within a functional mapping tool (MetaCore™, GeneGo, St. Joseph, MI). Relevant gene sets were validated with quantitative real-time polymerase chain reaction.

Project description:We compared fetal membrane tissue from preterm labor deliveries to fetal tissue from preterm labor with preterm prelabor rupture of membranes (PPROM) deliveries to further explore the concept that spontaneous preterm birth can result from the initializing of two separate but overlapping pathological events. Chorioamnion, separated into amnion and chorion, was collected from gestationally age-matched cases and controls within 15 minutes of birth, and analyzed using RNA sequencing. In our study, transcriptome analysis of preterm fetal membranes revealed distinct differentially expressed genes for PPROM, separate from preterm labor. This study is the first to report transcriptome data that reflects the individual pathophysiology of amnion and chorion tissue from PPROM deliveries.

Project description:Uterine stretch is thought to induce preterm labor in women with twin and higher order pregnancies, but the pathophysiology remains unclear. We investigated the pathogenesis of stretch-induced preterm birth for the first time in a pregnant nonhuman primate model. Eleven chronically catheterized pregnant monkeys (Macaca nemestrina) at 118-125 days gestation (term=172 days) received either: 1) inflation of intra-amniotic balloons (N=6) or 2) saline inoculation (N=5). Cesarean section and fetal necropsy was performed due to preterm labor or to collect tissues, except in one case where the animal delivered spontaneously, reducing samples for microarray analysis to ten (five stretch and five control animals). Amniotic fluid and maternal plasma were analyzed for multiple cytokines and prostaglandins using Luminex, enzyme-linked immunosorbent assay and Analysis of Covariance. Ribonucleic acid was extracted from the myometrium in the lower uterus at Cesarean section and analyzed by microarray and quantitative reverse transcriptase polymerase chain reaction.

Project description:The amniotic fluid (AF) cell-free RNA was shown to reflect physiological and pathological processes in pregnancy, but its value in the prediction of spontaneous preterm delivery is unknown. Herein we profiled cell-free RNA in AF samples collected from women who underwent transabdominal amniocentesis after an episode of spontaneous preterm labor and subsequently delivered within 24 h (n = 10) or later (n = 28) in gestation. Expression of known placental single-cell RNA-Seq signatures was quantified in AF cell-free RNA and compared between the groups. Random forest models were applied to predict time-to-delivery after amniocentesis. There were 2385 genes differentially expressed in AF samples of women who delivered within 24 h of amniocentesis compared to gestational age-matched samples from women who delivered after 24 h of amniocentesis. Genes with cell-free RNA changes were associated with immune and inflammatory processes related to the onset of labor, and the expression of placental single-cell RNA-Seq signatures of immune cells was increased with imminent delivery. AF transcriptomic prediction models captured these effects and predicted delivery within 24 h of amniocentesis (AUROC = 0.81). These results may inform the development of biomarkers for spontaneous preterm birth.