Project description:The objective of the present investigation was to utilize the GeneChip® Porcine Genome Array from Affymetrix possessing 20, 201 unique probe sets to identify differentially expressed genes during rapid trophoblastic elongation and attachment to the uterine surface in the pig. Identification and characterization of conceptus gene expression patterns during rapid trophoblastic elongation and attachment in the pig will provide a better understanding of the events required for successful implantation and embryonic survival.

Project description:The objective of the present investigation was to utilize the GeneChip® Porcine Genome Array from Affymetrix possessing 20, 201 unique probe sets to identify differentially expressed genes during rapid trophoblastic elongation and attachment to the uterine surface in the pig. Identification and characterization of conceptus gene expression patterns during rapid trophoblastic elongation and attachment in the pig will provide a better understanding of the events required for successful implantation and embryonic survival. Experiment Overall Design: Four chips were used for each morphological stage of development (spherical, tubular, Day 12 filamentous and Day 14 filamentous). RNA utilized for each chip represented a unique pool of conceptus total RNA for the respective morphological stage of development. Prior to target labeling, RNA was further purified (RNeasy MinElute Cleanup, Qiagen, Valencia, CA). Target labeling, GeneChip® hybridization, scanning and quantification were conducted by The University of Tulsa Microarray Core Facility. Affymetrix GeneChip Operating Software (GCOS version 1.1.1, Affymetrix, Santa Clara, CA) was used to quantitate each GeneChip®. The summary intensities for each probe were loaded into DNA-Chip Analyzer (dChip), version 1.3 for normalization, standardization, and analysis.

Project description:The porcine conceptus undergoes rapid differentiation and expansion of its trophoblastic membranes between Days 11 and 12 of gestation. Concomitant with trophoblast elongation, production of conceptus estrogen, the porcine embryonic pregnancy recognition signal increases. Conceptus attachment to the uterine surface epithelium starts after Day 13 initiating epitheliochorial placentation. To analyze the transcriptome changes in the endometrium in the course of maternal recognition of pregnancy (MRP), deep sequencing of endometrial RNA samples of Day 12 pregnant animals (n=4) and corresponding non-pregnant controls (n=4) was performed using Illumina RNA-Seq. Between 30 and 35 million sequence reads per sample were produced and mapped to the porcine genome (Sscrofa10.2). Analysis of read counts revealed 2,593 differentially expressed genes (DEG). Expression of selected genes was validated by the use of quantitative real-time RT-PCR. Bioinformatics analysis identified several functional terms specifically overrepresented for up-regulated or down-regulated genes. Comparison of the RNA-Seq data from Days 12 and 14 of pregnancy was performed at the level of all expressed genes, of the DEG, and at the level of functional categories. This revealed specific gene expression patterns, reflecting the different functions of the endometrium during these stages, i.e. recognition of pregnancy and preparation for conceptus attachment. Genes related to mitosis, immune response, epithelial cell differentiation and development, proteolysis, and prostaglandin signaling and metabolism are discussed in detail. In conclusion, this study identified comprehensive transcriptome changes in porcine endometrium associated with MRP and initiation of implantation and a number of genes and pathways potentially involved in regulation of these processes. In total, 8 samples were analyzed, 4 biological replicates for pregnant animals (samples from 4 different animals) and 4 biological replicates for cyclic controls (samples from 4 different animals)

Project description:The porcine conceptus undergoes rapid differentiation and expansion of its trophoblastic membranes between Days 11 and 12 of gestation. Concomitant with trophoblast elongation, production of conceptus estrogen, the porcine embryonic pregnancy recognition signal increases. Conceptus attachment to the uterine surface epithelium starts after Day 13 initiating epitheliochorial placentation. To analyze the transcriptome changes in the endometrium in the course of maternal recognition of pregnancy (MRP), deep sequencing of endometrial RNA samples of Day 12 pregnant animals (n=4) and corresponding non-pregnant controls (n=4) was performed using Illumina RNA-Seq. Between 30 and 35 million sequence reads per sample were produced and mapped to the porcine genome (Sscrofa10.2). Analysis of read counts revealed 2,593 differentially expressed genes (DEG). Expression of selected genes was validated by the use of quantitative real-time RT-PCR. Bioinformatics analysis identified several functional terms specifically overrepresented for up-regulated or down-regulated genes. Comparison of the RNA-Seq data from Days 12 and 14 of pregnancy was performed at the level of all expressed genes, of the DEG, and at the level of functional categories. This revealed specific gene expression patterns, reflecting the different functions of the endometrium during these stages, i.e. recognition of pregnancy and preparation for conceptus attachment. Genes related to mitosis, immune response, epithelial cell differentiation and development, proteolysis, and prostaglandin signaling and metabolism are discussed in detail. In conclusion, this study identified comprehensive transcriptome changes in porcine endometrium associated with MRP and initiation of implantation and a number of genes and pathways potentially involved in regulation of these processes.

Project description:D11.5 Tubular Porcine Conceptus

Project description:Conceptus implantation to the uterine endometrium is required for pregnancy establishment, during which non-invasive trophoblasts attach and adhere to the uterine endometrium or invasive trophoblasts invade into the uterine stroma, followed by placental formation in most mammalian species. During peri-implantation period, conceptuses must communicate with the uterine endometrium if they are to survive and proceed to attachment to the uterine epithelium. Despite numerous studies performed on the bovine species, molecular mechanisms associated with their attachment processes, particularly the initial attachment to the endometrial epithelium, have not been well characterized.

Project description:In pigs, conceptus attachment to the uterine surface epithelium starts around day 14 of pregnancy preceded by a pronounced vascularization at the implantation zones, initiating the epitheliochorial placentation. To characterize the complex transcriptome changes in the endometrium in the course of initial conceptus attachment deep sequencing of endometrial RNA samples of pregnant animals (n=4) and corresponding cyclic controls (n=4) was performed using Illumina RNA-Seq. The obtained sequence reads were mapped to the porcine genome and relative expression values were calculated for the analysis of differential gene expression. Statistical analysis revealed 1,933 differentially expressed genes (FDR 1%), 1,229 with higher and 704 with lower mRNA concentration in the samples from pregnant animals. Expression of selected genes was validated by the use of quantitative real-time RT-PCR. The RNA-Seq data were compared to results of a microarray study of bovine endometrium on day 18 of pregnancy and additional related data sets. Bioinformatics analysis revealed for the genes with higher mRNA concentration in pregnant samples strong overrepresentation particularly for immune-related functional terms but also for apoptosis and cell adhesion. Overrepresented terms for the genes with lower mRNA concentration in pregnant samples were related to extracellular region, ion transport, cell adhesion and lipid and steroid metabolic process. In conclusion, RNA-Seq analysis revealed comprehensive transcriptome differences in porcine endometrium between day 14 of pregnancy and corresponding cyclic endometrium and highlighted new processes and pathways probably involved in regulation of non-invasive implantation in the pig. In total, 8 samples were analyzed, 4 biological replicates for pregnant animals (samples from 4 different animals) and 4 biological replicates for cyclic controls (samples from 4 different animals)

Project description:Age and Nursing Affect the Neonatal Porcine Uterine Transcriptome

Project description:In pigs, conceptus attachment to the uterine surface epithelium starts around day 14 of pregnancy preceded by a pronounced vascularization at the implantation zones, initiating the epitheliochorial placentation. To characterize the complex transcriptome changes in the endometrium in the course of initial conceptus attachment deep sequencing of endometrial RNA samples of pregnant animals (n=4) and corresponding cyclic controls (n=4) was performed using Illumina RNA-Seq. The obtained sequence reads were mapped to the porcine genome and relative expression values were calculated for the analysis of differential gene expression. Statistical analysis revealed 1,933 differentially expressed genes (FDR 1%), 1,229 with higher and 704 with lower mRNA concentration in the samples from pregnant animals. Expression of selected genes was validated by the use of quantitative real-time RT-PCR. The RNA-Seq data were compared to results of a microarray study of bovine endometrium on day 18 of pregnancy and additional related data sets. Bioinformatics analysis revealed for the genes with higher mRNA concentration in pregnant samples strong overrepresentation particularly for immune-related functional terms but also for apoptosis and cell adhesion. Overrepresented terms for the genes with lower mRNA concentration in pregnant samples were related to extracellular region, ion transport, cell adhesion and lipid and steroid metabolic process. In conclusion, RNA-Seq analysis revealed comprehensive transcriptome differences in porcine endometrium between day 14 of pregnancy and corresponding cyclic endometrium and highlighted new processes and pathways probably involved in regulation of non-invasive implantation in the pig.

Project description:Differential expression of microRNAs in porcine endometrium