Abstract
Nuclear factor Y (NF-Y) is a heterotrimeric transcription factor composed of three subunits, namely, NF-YA, NF-YB, and NF-YC, which are conserved throughout evolution. In higher eukaryotes, NF-Y plays important roles in several cellular processes (development, cell cycle regulation, apoptosis, and response to growth, stress, and DNA damage) by controlling gene expression through binding to a CCAAT promoter motif. We demonstrated that NF-Y subunits in the protist Entamoeba, while significantly divergent from those of higher eukaryotes, have well-conserved domains important for subunit interactions and DNA binding and that NF-YB and NF-YC are developmentally expressed during encystation. Electrophoretic mobility shift assays confirmed that the NF-Y protein(s) from Entamoeba cysts binds to a CCAAT motif. Consistent with a role as a transcription factor, the NF-Y proteins show nuclear localization during development. Additionally, we demonstrated that NF-YC localizes to the chromatoid body (an RNA processing center) during development, indicating that it may have a role in RNA processing. Finally, silencing of the NF-YC subunit resulted in reduced stability of the NF-Y complex and decreased encystation efficiency. We demonstrated that the NF-Y complex functions at a time point subsequent to the NAD+ flux and expression of the transcription factor encystation regulatory motif-binding protein, both of which are early regulators of Entamoeba development. Taken together, our results demonstrate that the NF-Y complex plays an important role in regulating encystation in Entamoeba and add to our understanding of the transcriptional networks and signals that control this essential developmental pathway in an important human pathogen.IMPORTANCE The human parasite Entamoeba histolytica is an important pathogen with significant global impact and is a leading cause of parasitic death in humans. Since only the cyst form can be transmitted, blocking encystation would prevent new infections, making the encystation pathway an attractive target for the development of new drugs. Identification of the genetic signals and transcriptional regulatory networks that control encystation would be an important advance in understanding the developmental cascade. We show that the Entamoeba NF-Y complex plays a crucial role in regulating the encystation process in Entamoeba.
Highlights
Nuclear factor Y (NF-Y) is a heterotrimeric transcription factor composed of three subunits, namely, NF-YA, NF-YB, and NF-YC, which are conserved throughout evolution
We found that the amino acid sequences of all three subunits (EIN_249270 NF-YA, EIN_057000 NF-YB, and EIN_380690 NF-YC) are present in E. invadens and are well conserved in all Entamoeba species that form cysts
The Entamoeba NF-YA and NF-YC subunits are divergent from homologues in human and other eukaryotes [25, 26]; the domains essential for NF-Y subunit interactions and DNA binding are conserved in Entamoeba (Fig. 1), suggesting that the NF-Y transcription factor complex might be fully functional in Entamoeba
Summary
Nuclear factor Y (NF-Y) is a heterotrimeric transcription factor composed of three subunits, namely, NF-YA, NF-YB, and NF-YC, which are conserved throughout evolution. We demonstrated that the NF-Y complex functions at a time point subsequent to the NADϩ flux and expression of the transcription factor encystation regulatory motif-binding protein, both of which are early regulators of Entamoeba development. Our results demonstrate that the NF-Y complex plays an important role in regulating encystation in Entamoeba and add to our understanding of the transcriptional networks and signals that control this essential developmental pathway in an important human pathogen. Entamoeba has two life cycle stages: a cyst form, which can survive in environmental extremes and transmit disease to the host, and a trophozoite (Troph) form, which migrates into tissue and causes invasive disease. NADϩ/NADH levels were found to be elevated during encystation and the presence of extracellular NADϩ was found to enhance encystation in vitro [12]
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