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Sequestration of eIF4A by angiomotin: A novel mechanism to restrict global protein synthesis in trophoblast cells

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Enrichment of angiomotin (AMOT) in the ectoplacental cone of E7.5 murine placenta prompted our investigation on the role of AMOT in trophoblast differentiation. We show here that AMOT levels increased… Click to show full abstract

Enrichment of angiomotin (AMOT) in the ectoplacental cone of E7.5 murine placenta prompted our investigation on the role of AMOT in trophoblast differentiation. We show here that AMOT levels increased in mouse placenta during gestation and also upon induction of differentiation in trophoblast stem cell ex vivo. Proteomic data unravelling AMOT‐interactome in trophoblast cells indicated a majority of AMOT interactors to be involved in protein translation. In‐depth analysis of AMOT‐interactome led to identification of eukaryotic translation initiation factor 4A (eIF4A) as the most plausible AMOT interactor. Loss of function of AMOT enhanced, whereas, gain in function resulted in decline of global protein synthesis in trophoblast cells. Bioinformatics analysis evaluating the potential energy of AMOT‐eIF4A binding suggested a strong AMOT‐eIF4A interaction using a distinct groove encompassing amino acid residue positions 238 to 255 of AMOT. Co‐immunoprecipitation of AMOT with eIF4A reaffirmed AMOT‐eIF4A association in trophoblast cells. Deletion of 238 to 255 amino acids of AMOT resulted in abrogation of AMOT‐eIF4A interaction. In addition, 238 to 255 amino acid deletion of AMOT was ineffective in eliciting AMOT's function in reducing global protein synthesis. Interestingly, AMOT‐dependent sequestration of eIF4A dampened its loading to the m7‐GTP cap and hindered its interaction with eIF4G. Furthermore, enhanced AMOT expression in placenta was associated with intrauterine growth restriction in both rats and humans. These results not only highlight a hitherto unknown novel function of AMOT in trophoblast cells but also have broad biological implications as AMOT might be an inbuilt switch to check protein synthesis in developmentally indispensable trophoblast cells.

Keywords: eif4a; trophoblast; protein synthesis; amot; trophoblast cells

Journal Title: STEM CELLS
Year Published: 2020

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