MicroRNA-31 is Significantly Elevated in Both Human Endometrium and Serum During the Window of Implantation: A Potential Biomarker for Optimum Receptivity1

Kresowik, Jessica D.; Devor, Eric J.; Voorhis, Bradley J. Van; Leslie, Kimberly K.

doi:10.1095/biolreprod.113.116590

Cited by 53 publications

(45 citation statements)

References 48 publications

(48 reference statements)

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“…In contrast to the testes, human ovaries do not express miR‐31, although the level of miR‐31 expression was significantly elevated in both the endometrium and serum during the time of embryonic implantation (Kuokkanen et al, ; Kresowik et al, ). Uterine endometrium receptivity is critical for the success of embryo implantation (Kresowik et al, ). The exact role of miR‐31 in endometrium receptivity is not yet known; however, the observed increased miR‐31 expression during implantation suggest that it participates in the creation of an immune‐tolerant maternal environment.…”

Section: Mir‐31 Promotes Spermatogenesis and Facilitates Embryonic Immentioning

confidence: 99%

“…CXCL12 can be directly regulated by miR‐31 in mice (Itkin et al, ). An inverse expression pattern between the levels of miR‐31 and its target FOXP3 and CXCL12 transcripts was observed in endometrium tissue and serum during the window of implantation, suggesting that miR‐31 directly suppresses FOXP3 and CXCL12 to ensure an immune‐tolerant environment for the implanted fetus (Kresowik et al, ). Thus, miR‐31 is a potential biomarker that can be used to monitor the activity of endometrium to assess the success of embryonic implantation (Kresowik et al, ).…”

Section: Mir‐31 Promotes Spermatogenesis and Facilitates Embryonic Immentioning

confidence: 99%

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Function and regulation of microRNA‐31 in development and disease

Stepicheva

Song

2016

Molecular Reproduction Devel

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SUMMARY MicroRNAs (miRNAs) are small noncoding RNAs that orchestrate numerous cellular processes both under normal physiological conditions as well as in diseases. This review summarizes the functional roles and transcriptional regulation of the highly evolutionarily conserved miRNA, microRNA-31 (miR-31). miR-31 is an important regulator of embryonic implantation, development, bone and muscle homeostasis, and immune system function. Its own regulation is disrupted during the onset and progression of cancer and autoimmune disorders such as psoriasis and systemic lupus erythematosus. Limited studies suggest that miR-31 is transcriptionally regulated by epigenetics, such as methylation and acetylation, as well as by a number of transcription factors. Overall, miR-31 regulates diverse cellular and developmental processes by targeting genes involved in cell proliferation, apoptosis, cell differentiation, and cell motility.

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Section: Mir‐31 Promotes Spermatogenesis and Facilitates Embryonic Immentioning

confidence: 99%

Section: Mir‐31 Promotes Spermatogenesis and Facilitates Embryonic Immentioning

confidence: 99%

Function and regulation of microRNA‐31 in development and disease

Stepicheva

Song

2016

Molecular Reproduction Devel

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“…Analysis of human endometrium and trophectoderm has identified the expression of a large number of miRs ( Dior et al, 2014 , Galliano and Pellicer, 2014 , Kresowik et al, 2014 , Rosenbluth et al, 2013 ), with more recent studies demonstrating that miRs are secreted by human and bovine embryos in culture ( Kropp et al, 2014 , Rosenbluth et al, 2014 ). We hypothesised that miRs are released by human blastocysts and are taken up by endometrial surface epithelial cells to regulated endometrial receptivity and implantation.…”

Section: Introductionmentioning

confidence: 99%

Human Blastocyst Secreted microRNA Regulate Endometrial Epithelial Cell Adhesion

Cuman¹,

Sinderen²,

Gantier³

et al. 2015

EBioMedicine

122

134

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Successful embryo implantation requires synchronous development and communication between the blastocyst and the endometrium, however the mechanisms of communication in humans are virtually unknown. Recent studies have revealed that microRNAs (miRs) are present in bodily fluids and secreted by cells in culture. We have identified that human blastocysts differentially secrete miRs in a pattern associated with their implantation outcome. miR-661 was the most highly expressed miR in blastocyst culture media (BCM) from blastocysts that failed to implant (non-implanted) compared to blastocysts that implanted (implanted). Our results indicate a possible role for Argonaute 1 in the transport of miR-661 in non-implanted BCM and taken up by primary human endometrial epithelial cells (HEECs). miR-661 uptake by HEEC reduced trophoblast cell line spheroid attachment to HEEC via PVRL1. Our results suggest that human blastocysts alter the endometrial epithelial adhesion, the initiating event of implantation, via the secretion of miR, abnormalities in which result in implantation failure.

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“…Several researchers believe that serum miRNAs could represent excellent non invasive molecular markers to diagnose specific diseases and also to predict response to therapy (19). Kresowik et al recently demonstrated that some miRNAs were differentially regulated in the endometrium during proliferative and secretory phases, and the expression of miR-31 was up-regulated in secretory-phase serum, identifying it as a potential biomarker for endometrial receptivity (27). Finding deregulated miRNAs in the endometrium or serum of women with CE could indicate possible changes to the physiological and well-characterized endometrial cell molecular expression pathways and this could lead to optimize specific therapies.…”

Section: Resultsmentioning

confidence: 99%

Could chronic endometritis studies help us find additional molecular markers of endometrium receptivity?

Pietro¹

2015

CCE

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Infertility can be considered a complex phenotype in the same way as cancer, cardiovascular and neurodegenerative diseases. Discovering a contributing factor and characterizing its contribution to a complex disease is a difficult undertaking, because the effect of any single factor may be obscured or confounded by other contributing factors. Determining the molecular markers associated with the disease could be useful in identifying its pathogenic mechanisms and consequently possible therapeutic options. In recent years, it has become evident that noncoding RNAs may represent specific molecular markers of disease. In fact, alterations of their expression were found in the pathogenesis of human diseases and it is known that altered regulation of microRNA expression affects crucial pathways for follicle growth and oocyte maturation in reproductive diseases such as PCOS and endometriosis.In reproductive medicine the identification of molecular markers is not only an important requirement for understanding the molecular basis underlying human infertility, but it also opens the chance to design individualized intervention protocols and therapies.

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MicroRNA-31 is Significantly Elevated in Both Human Endometrium and Serum During the Window of Implantation: A Potential Biomarker for Optimum Receptivity1

Cited by 53 publications

References 48 publications

Function and regulation of microRNA‐31 in development and disease

Function and regulation of microRNA‐31 in development and disease

Human Blastocyst Secreted microRNA Regulate Endometrial Epithelial Cell Adhesion

Could chronic endometritis studies help us find additional molecular markers of endometrium receptivity?

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