4.7 Article

Controlling Trophoblast Cell Fusion in the Human Placenta-Transcriptional Regulation of Suppressyn, an Endogenous Inhibitor of Syncytin-1

Journal

BIOMOLECULES
Volume 13, Issue 11, Pages -

Publisher

MDPI
DOI: 10.3390/biom13111627

Keywords

suppressyn; syncytin; HERV; placenta; cell fusion; promoter; DNA methylation; hypoxia inducible factor (HIF)

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This study investigates the regulatory mechanisms of suppressyn expression in the placenta. The placenta-specific expression of suppressyn is controlled by DNA methylation and oxygen concentration. The findings provide important insights into normal and abnormal placental development, as well as pregnancy disorders associated with altered oxygenation.
Cell fusion in the placenta is tightly regulated. Suppressyn is a human placental endogenous retroviral protein that inhibits the profusogenic activities of another well-described endogenous retroviral protein, syncytin-1. In this study, we aimed to elucidate the mechanisms underlying suppressyn's placenta-specific expression. We identified the promoter region and a novel enhancer region for the gene encoding suppressyn, ERVH48-1, and examined their regulation via DNA methylation and their responses to changes in the oxygen concentration. Like other endogenous retroviral genes, the ERVH48-1 promoter sequence is found within a characteristic retroviral 5 ' LTR sequence. The novel enhancer sequence we describe here is downstream of this LTR sequence (designated EIEs: ERV internal enhancer sequence) and governs placental expression. The placenta-specific expression of ERVH48-1 is tightly controlled by DNA methylation and further regulated by oxygen concentration-dependent, hypoxia-induced transcription factors (HIF1 alpha and HIF2 alpha). Our findings highlight the involvement of (1) tissue specificity through DNA methylation, (2) expression specificity through placenta-specific enhancer regions, and (3) the regulation of suppressyn expression in differing oxygen conditions by HIF1 alpha and HIF2 alpha. We suggest that these regulatory mechanisms are central to normal and abnormal placental development, including the development of disorders of pregnancy involving altered oxygenation, such as preeclampsia, pregnancy-induced hypertension, and fetal growth restriction.

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