PAEP and cilia gene splicing changes in endometrial glands during the implantation window in women with recurrent pregnancy loss

ABSTRACTEndometrial glands are essential for fertility, consisting of ciliated and secretory cells that facilitate a suitable uterine environment for embryo implantation. This study sought to determine whether an endometrial gland specific transcriptome and splicing profile are altered in women with recurrent pregnancy loss. Our data provide a comprehensive catalogue of cilia and PAEP gene isoforms and relative exon usage in endometrial glands. We report a previously unannotated endometrial gland cilia transcript GALNT11 and its susceptibility to exon skipping. Key endometrial receptivity gene transcripts are also reported to change in endometrial glands of women with recurrent pregnancy loss. The endometrial gland cilia and PAEP targets identified in this study could be used to identify a perturbed endometrium, isolate causes of recurrent pregnancy loss and develop targeted therapies in personalised medicine.

P–555 Recurrent pregnancy loss is associated with changes in the pre-pregnant endometrial gland transcriptome

Study question Do endometrial gland factors influence recurrent pregnancy loss? Summary answer The endometrial gland transcriptome during the window of implantation is altered in women with recurrent pregnancy loss compared to controls. What is known already Secretions from endometrial glands contribute to the uterine environment that supports the attachment and implantation of the embryo in early pregnancy. Studies have attempted to identify an endometrial gene expression pattern associated with recurrent pregnancy loss however, the cellular heterogeneity within the endometrium may obscure important differences in specific cell populations. Study design, size, duration An observational study comparing controls and women with recurrent pregnancy loss. Participants/materials, setting, methods Endometrial samples were collected during the implantation period of the menstrual cycle from five matched participant egg donor controls and women with recurrent pregnancy loss. Endometrial glands were isolated from fresh endometrial biopsies and RNA sequencing was performed. A differential gene expression analysis and a gene ontology enrichment analysis was performed between egg donor controls and women with recurrent pregnancy loss. Main results and the role of chance This study reports a glandular epithelium specific gene expression profile and demonstrates differential gene expression of endometrial glands from women with recurrent pregnancy loss compared to controls. 18 genes were upregulated and 1 gene was downregulated in the endometrial glands from women with recurrent pregnancy loss compared to controls (5% false discovery rate). Biological processes which contain genes that were differentially expressed in women with recurrent pregnancy loss compared to controls include epithelial cell migration and regulation of secretion by the cell. Limitations, reasons for caution This is an observational study with a relatively small sample size. Wider implications of the findings: This study identified differences in gene expression in women with recurrent pregnancy loss that are specifically associated with endometrial glands rather than endometrium as a whole. These differences could be used to identify a perturbed endometrium, isolate causes of recurrent pregnancy loss and develop targeted therapies. Trial registration number Not applicable

O-066 The naughty genes and 3D structure of the endometrium

The naughty genes and 3D structure of the endometrium Takayuki Enomoto, Manako Ymaguchi, Kazuaki Suda, Kosuke Yoshihara Department of Obstetrics and Gynecology, Niigata University Graduate School of Medical and Dental Sciences, Niigata, Japan. The human endometrium is a highly regenerative tissue and involved in menstruation and implantation of the fertilized egg, giving it a central role in women’s reproductive health. However, the regenerative nature of the endometrial glands can lead to the development and progression of “endometrium-related diseases” such as adenomyosis, endometriosis, endometriosis-associated ovarian cancer, endometrial hyperplasia, and endometrial cancer. To clarify the pathogenesis of endometrium-related diseases and develop effective preventative measures and therapeutic strategies, comprehensive understanding of molecular biological linkage between endometrium and endometrium-related diseases was crucially important. To this end, we focused on genomic alterations of endometrial epithelium which is considered the origin of endometriosis, and sequenced 107 ovarian endometriotic and 82 normal uterine endometrial epithelium samples isolated by laser-microdissection. Intriguingly, several genes recurrently mutated in endometriosis-associated ovarian cancers were frequently mutated in both endometriotic epithelium and normal uterine endometrial glands. In particular, PIK3CA mutation was detected in 41% of endometrial epithelium subjects but none of them had shared PIK3CA mutations across multiple regions collected from the same individuals. Mutation allele frequencies of somatic mutations in uterine endometrial epithelium samples were also significantly lower than those in ovarian endometriotic epithelium samples, suggesting the heterogeneous genomic compositions in uterine endometrium. To interpret this genomic heterogeneity in uterine endometrium, we focused on endometrial gland, the minimum functional unit of uterine endometrium, and conducted 109 single endometrial glands sequencing. As a result, we unveiled that each gland carried distinct somatic mutations in cancer-associated genes, such as PIK3CA, KRAS, and PTEN, with high mutant allele frequencies, suggesting the monoclonality of each gland. The presence of cancer-associated gene mutations in histologically normal endometrial glands provides important clues regarding the pathogenesis of endometrium-related diseases. However, our previous study could not determine the spread of endometrial gland harboring cancer-associated gene mutation because there is a limitation to two-dimensional assessment of the whole shapes of endometrial gland due to its complicatedly winding morphology. Therefore, we tackled with three-dimensional (3D) assessment of human endometrium. To construct a large picture of endometrial gland structure, we performed tissue-clearing-based 3D imaging of full-thickness human uterine endometrial tissue with the use of light-sheet fluorescence microscopy. Our 3D immunohistochemistry discovered some new and unique 3D morphologies of endometrial glands, including plexus network of glands or occluded glands. Notably, computational analysis of 3D layer clarified that the plexus structure of the glands was mainly located in the stratum basalis and expanded along muscular layer horizontally, similar to the so-called “rhizome of grass”. Although previous studies have shown the 3D structure of murine endometrial glands, the bottom of these glands forms a crypt but not a rhizome. This can potentially be explained by the existence of menstruation, which is the crucial difference between the human and murine endometrium. The rhizome structure of endometrial gland in the human endometrium will have a functional advantage over the crypt in terms of the conservation of progenitor/stem cells and regeneration. In addition, some endometrial glands shared the plexus and rose toward the luminal epithelium, suggesting that these glands were the same origin. The rhizome of the endometrium may be a crucial element for understanding the expansion of endometrial glands harboring cancer-associated gene mutations. Integrated analysis of the naughty gene alterations and the 3D structure in human endometrium will lead to a better understanding of the human endometrium in various fields, including histology, pathology, pathophysiology, reproduction, and oncology.

Endometrial epithelial ARID1A is critical for uterine gland function in early pregnancy establishment

Though endometriosis and infertility are clearly associated, the pathophysiological mechanism remains unclear. Previous work has linked endometrial ARID1A loss to endometriosis-related endometrial non-receptivity. Here, we show in mice that ARID1A binds and regulates transcription of the Foxa2 gene required for endometrial gland function. Uterine specific deletion of Arid1a compromises gland development and diminishes Foxa2 and Lif expression. Deletion of Arid1a with Ltf-iCre in the adult mouse endometrial epithelium preserves gland development while still compromising gland function. Mice lacking endometrial epithelial Arid1a are severely sub-fertile due to defects in implantation, decidualization, and endometrial receptivity from disruption of the LIF-STAT3-EGR1 pathway. FOXA2 is also reduced in the endometrium of women with endometriosis in correlation with diminished ARID1A, and both ARID1A and FOXA2 are reduced in non-human primates induced with endometriosis. Our findings describe a role for ARID1A in the endometrial epithelium supporting early pregnancy establishment through the maintenance of gland function.

Genital abnormalities associated to lack of uterine adenogenesis or endometrial gland dysgenesis of female dromedary camels (Camelus dromedarius)

Background: The developmental disruption of the müllerian duct and the endometrial dynamic can generate genital lesions that could contribute to infertility.Aim: This paper discusses two cases of genital conditions associated to endometrial gland pathologies in nulliparous female camels.Methods: Macroscopic examinations and histopathological description were performed on congenital and acquired genital abnormalities with endometrial gland anomalies.Results: The first case is endometrial gland agenesis associated to unilateral uterine aplasia, and the second case is endometrial gland dysgenesis associated to metritis. The prevalence of each case is estimated to be 0.6%. The most specific microscopic features associated to the endometrial gland agenesis were the presence of endometrial stromal proliferation and homogenous hyalinization of the myometrium. The acute metritis was associated to endometrial-activated stroma with focal infiltration with inflammatory cells on the endometrium and myometrium and the spontaneous endometrial gland dysgenesis.Conclusion: This study reveals the importance of congenital abnormalities during the routine reproductive examination of peripubertal animals, as well as the association of histopathological complementary examination for the research functional and inflammatory anomalies of the uterus. Genetic screening of breeders would be very important in the search for genetic risk factors associated with these congenital pathologies, which can be disseminated by reproductive biotechnologies. Keywords: Adenogenesis, Camel, Metritis, Uterine aplasia, Uterine glands.