Project description:Purpose: To chart the human myometrial transcriptomes before and after the onset of labour. Methods: Tophat splice junction mapping of paired-end reads, HTSeq to generate counts, cufflinks to track transcripts, DESeq, edgeR and baySeq to detect differentially expressed genes and principal component analysis for clustering analyses. Results: We mapped on average 14 million paired-end reads per sample (counting each end individually) to the human genome (build hg19) and covered the expressed transcriptome about 13 times with a TopHat-HTSeq workflow. We performed a comparative analysis with an analogous microarray study (Mittal et al., 2010) and found some overlap between the RNA-seq and the microarray data. Conclusions: Our study is the first RNA-seq study of the human myometrium before and after the onset of labour. We show that while microarray and RNA-seq studies may complement each other, RNA-seq has a much greater resolution.

Project description:Preterm birth is the leading cause of infant morbidity and mortality. There has been interest in developing prostaglandin F2α (PGF2α) antagonists as a new treatment for preterm birth although much of the rationale for their use is based on studies in rodents where PGF2α initiates labour by regressing the corpus luteum and reducing systemic progesterone concentrations. How PGF2α antagonism would act in humans that do not have a fall in systemic progesterone remains unclear. One possibility, in addition to an acute stimulation of contractions, is a direct alteration of the myometrial smooth muscle cell state towards a pro-labour phenotype. In this study we developed an immortalised myometrial cell line, MYLA, derived from myometrial tissue obtained from a pregnant, non‐labouring patient as well as a novel class of PGF2α receptor (FP) antagonist. We verified the functionality of the cell line by stimulation with PGF2α, which resulted in Gαq specific coupling and Ca2+ release that were inhibited by FP antagonism. Compared to four published FP receptor antagonists, the novel FP antagonist N582707 was the most potent compound (Fmax 7.67 ± 0.63 (IC50 21.26 nM), AUC 7.30 ± 0.32 (IC50 50.43 nM) and frequency of Ca2+ oscillations 7.66 ± 0.41 (IC50 22.15 nM)). RNA‐sequencing of the MYLA cell line at 1, 3, 6, 12, 24 & 48 hours post PGF2α treatment revealed a transforming phenotype from a fibroblastic to smooth muscle mRNA profile. PGF2α treatment increased expression of MYLK, CALD1 and CNN1 as well as the pro-labour genes OXTR, IL6 and IL11 which were inhibited by FP antagonism. Concomitant with inhibition of a smooth muscle, pro-labour transition, FP antagonism increased the expression of the fibroblast marker genes DCN, FBLN1 and PDGFRA. Our findings suggest that in addition to the well described acute contractile effect, PGF2α transforms myometrial smooth muscle cells from a myofibroblast to smooth muscle, pro-labour like state, and that the novel compound N582707 has potential for prophylactic use in preterm labour management beyond its use as an acute tocolytic drug.

Project description:This study identifies a transciptomic myometrial profile associated with dystocia in spontanous nulliparous term labour We used microarrays to compare myometrial biopsies obtained at cesarean section from women in spontaneous term labour

Project description:This study identifies a transciptomic myometrial profile associated with dystocia in spontanous nulliparous term labour We used microarrays to compare myometrial biopsies obtained at cesarean section from women in spontaneous term labour Women in spontaneous labour undergoing cesarean section for dystocia (slow progressing labour) compared to women who had progressed in the second stage

Project description:During pregnancy, the myometrium remains quiescent but at term, switches to a state capable of producing a series of coordinated contractions for the delivery of the fetus. Myometrial contractions of labour signify the normal physiological end-point of pregnancy but the biochemical onset of labour may occur at or before term via a series of changes in expression of labour associated genes that are responsible for controlling the activity of the uterus during pregnancy and parturition. There is increasing evidence that components of the cAMP-signalling pathway are up-regulated in the human myometrium during pregnancy to promote the relaxation of the myometrium until term. Our aim was to determine which cAMP-associated genes are important during pregnancy and parturition by exposing myometrial cells to forskolin and performing an a gene array. We then plan to study the trend of the cAMP-associated genes at different stages of gestation and during labour. In this study, we used microarrays to elucidate forskolin responsive genes in human myometrium. These data may provide a broader view of gene networks and cellular functions regulated by forskolin in human myometrial cells. In our future study, this will also help us understand the role of cAMP in human parturition. Primary cultures of human myometrial cells were grown from myometrial biopsies obtained at the time of elective caesarean section at term. Cells were exposed to forskolin (100 µM) for 48 hours, and then total RNA were extracted from each culture. Two comparisons were carried out including: 1. Control 2. Forksolin

Project description:During pregnancy, the myometrium remains quiescent but at term, switches to a state capable of producing a series of coordinated contractions for the delivery of the fetus. Myometrial contractions of labour signify the normal physiological end-point of pregnancy but the biochemical onset of labour may occur at or before term via a series of changes in expression of labour associated genes that are responsible for controlling the activity of the uterus during pregnancy and parturition. There is increasing evidence that components of the cAMP-signalling pathway are up-regulated in the human myometrium during pregnancy to promote the relaxation of the myometrium until term. Our aim was to determine which cAMP-associated genes are important during pregnancy and parturition by exposing myometrial cells to forskolin and performing an a gene array. We then plan to study the trend of the cAMP-associated genes at different stages of gestation and during labour. In this study, we used microarrays to elucidate forskolin responsive genes in human myometrium. These data may provide a broader view of gene networks and cellular functions regulated by forskolin in human myometrial cells. In our future study, this will also help us understand the role of cAMP in human parturition.

Project description:Purpose: The cause of labour initiation has yet to be fully elucidated for human pregnancy. This has hindered attempts to find effective therapies for the prevention of preterm labour, which affects up to 10% of pregnancies in the UK and it is the most dominant cause of perinatal death (75% of all cases). The myometrium of the uterus is where contractions that characterise labour take place, and it is here where changes at the molecular level responsible for triggering labour potential originate from. We used RNA-Seq-based mRNA sequencing technology in an attempt to identify mRNA transcripts that are differentially expressed in the myometrium upon the onset of labour, by comparing the expression profiles of tissues samples that represented non-labour (TNL), early labour (TEaL, ≤ 3 cm cervical dilation) and established labour (TEsL, > 3 cm cervical dilation) states at term (> 37 weeks gestation) pregnancy. Methods: Myometrial biopsies from women undergoing Caesarean section were collected in accordance with the Declaration of Helsinki guidelines, and with approval from the local research ethics committee for Chelsea & Westminster Hospital (London, UK; Ethics No. 10/H0801/45). Informed written consent was obtained from all women who participated. Biopsies were excised from the upper margin of the incision made in the lower segment of the uterus, immediately washed with Dulbecco's phosphate-buffered saline (Sigma) and dissected into pieces approximately measuring 2-3 mm3. For RNA study, biopsies were immersed in RNAlater (Sigma) within 6 minutes after biopsy excision from the uterus and stored at 4°c overnight, before being taken out of RNAlater solution to be frozen for long-term storage at -80°c. For CHIP study, biopsies were snap-frozen in liquid nitrogen and stored at -80°c. All specimens were categorised into four groups according to their labour stages: preterm not in labour (PTNL, n=6), term not in labour (TNL, n=8), term in early labour (TEaL, defined as cervical dilatation <3 cm, n=8) and term in established labour (TEsL, defined as cervical dilatation >3 cm, n=6). For each sample, 60-100 mg of myometrium tissue were extracted in TRIzol (Life Technologies) by mechanical homogenisation in a Precellys 24 bead-based homogeniser using 5 cycles of 5000 rpm for 20 seconds, before chloroform treatment and centrifugation at 4°c. RNA was extracted from the aqueous phase of centrifuged homogenates using the TRIzol Plus RNA Purification kit (Life Technologies) with on-column DNase treatment prior to elution, all according to manufacturer's instructions. Final RNA samples were stored at -80°c. The quantity and quality RNA was measured using a Nanodrop ND-1000 spectrophotometer (LabTech), Qubit fluorimeter (Life Technologies) and Bioanalyser 2100 (Agilent Technologies). Preparation of cDNA libraries was carried out using the TruSeq Stranded mRNA Sample Preparation kit (Illumina), following the high-throughput sample (HT) protocol. The quantity and quality of cDNA libraries were also tested by a Qubit fluorimeter and Bioanalyser 2100. TruSeq Stranded libraries were then multiplexed and sequenced with the average of 42 million DNA fragments per sample (100 bp paired-end reads). Quality control was performed using FastQC software (version 0.11.2). RNA-Seq reads was aligned to the GRCh38 Homo sapiens reference genome downloaded from Ensembl (release 81) with HISAT version 2.0.1 using parameters of --known-splicesite-infile --dta-cufflinks --rna-strandness RF --phred33 –p 4 -q. A list of known splice sites generated from the Ensembl GTF file using an accessory python script included in the HISAT2 package was provided to --known-splicesite-infile, of which HISAT2 will make use to assist the alignment of reads spanning two or more exons. Ensembl annotated a total of 65,989 genes, which includes 20,276 protein coding genes. As one human gene usually contains multiple transcript models, we thus conducted a transcript merging procedure to produce gene level models for expression analysis. Specifically, exons labeled as ‘retained_intron’ were first excluded, then overlapping interval exons of each gene were merged and a final gene level model was produced in GFF format. Only uniquely mapped (i.e. reads with the tag of NH:i:1) reads were used to produce gene read counts and calculate gene expression levels. The raw read count matrix was normalised with DESeq2 (version 1.6.3). Expression level of each gene in each sample was represented as RPKM (reads per kilobase per million mapped reads). Differentially expressed genes (DEGs) between two groups of samples were identified with DESeq2 (version 1.6.3), edgeR (version 3.8.6) and Cuffdiff (version 2.2.1). For DESeq2 and edgeR, we used the normalised read count matrix as input, and for Cuffdiff, we used the alignment bam files with uniquely mapped reads as input. Raw p-values were adjusted by FDR to produce q-values, and q-value of 0.05 were chosen as the cut-off for statistical significance in DESeq2, edgeR as well as Cuffdiff. Results: 22 RNA samples from three different labour groups were sequenced and an average of 53 million reads were obtained from each sample. More than 97.34% of reads were successfully aligned to GRCh38 reference human genome and the unique concordant pair ratio was greater than 92.39%. In total, 60,593 genes were mapped with the following criteria: (1) at least one RNA-seq read assigned to a gene; (2) we only assign a read to a gene when > 90% of this read falls into the exon regions of this gene. The principal component analysis (PCA) of these 22 samples showed that TNL and TEsL samples formed two distinct clusters whereas the TEaL group featured relatively great internal differences. Nevertheless, half of the samples from TEaL group was clustered with the TNL group and the other half was more separated yet closer to two samples of TEsL group. To determine the transcripts associated with labour, three software packages (DESeq2, EdgeR and Cuffdiff) were used to perform differential expression The transcript with a q value <0.05 in at least two methods was defined as a shared differentially expressed gene (DEG). As a result, 132 and 399 genes were identified comparing TNL with TEaL and TEsL, respectively, whereas no gene was significantly differentially expressed between TEaL and TEsL groups. Due to big differences among individual samples, in this study, the expression fold change (FC) was calculated as the ratio of median reads per kilobase per million mapped reads (RPKMs) with the bigger median RPKM divided by the smaller median RPKM. In order to minimise the noise derived from genes with low expression but high FC, we further filtered gene lists according to the following rational: if the original value of any median RPKM was <1, we artificially turned it into 1 before calculating the FC. Finally, two robust gene lists with an expression FC >1.5 between two groups (TNL vs. TEaL and TNL vs. TEsL) were generated containing 70 and 232 DEGs, respectively. Conclusions: This study, for the first time, identifies differentially expressed genes (DEGs) and pathways that are involved in the myometrial transition from non-labouring to labouring phenotype by using samples from different stages of pregnancy and labour. The DEG lists are generated by subjecting the raw data to three sofware packages (DESeq2, edgeR and Cuffdiff), which makes the yield DEGs more robust. We conclude that some early responsive genes in circadian clock and inflammation pathways are likely to account for the labour onset and no significant changes are found on the transcription level once the labour starts.

Project description:This study evaluates the gene expression patterns in 36 decidual samples of women having gone through different types of child birth. The samples were profiled on Illumina Human HT-12_v4 BeadArrays. The analysis includes quality control and exploratory analysis of the dataset, followed by the identification of differentially expressed genes (DEGs) and finally, functional analysis for enrichment of KEGG pathways and GO terms amongst the DEGs. The statistical analysis was performed for six comparisons: Term labour (TL) vs Term not labour (TNL), TL vs Preterm labour (PTL), TL vs Preterm non-labour (PTNL), TNL vs PTL, TNL vs PTNL and PTL vs PTNL. This study evaluates the gene expression levels from decidual samples obtained from women giving birth with different types of labour. The dataset was composed of 36 Illumina Human HT-12_v4 expression BeadArrays.

Project description:We investigated differential gene expression in response to treatment of multiple myeloma cells with EZH2 inhibitor RNA-seq in two cell lines

Project description:Circulating progesterone (P4) levels decline before the onset of parturition in most animals, but not in humans. This has led to the suggestion that there is functional withdrawal of P4 action at the myometrial level prior to labor onset. Mifepristone is widely used to induce human labour In this study, we aimed to establish and validate a model of human myometrial explants for the study of P4 action. Myometrial biopsies obtained at Caesearean section at term were dissected into explants after a portion was immediately snap-frozen (t=0). Transcriptomic comparison of paired explants and primary myometrial cells as well as the hTert immortalized myometrial cell line demonstrated that explants more closely resemble t=0.