Alu retrotransposons promote differentiation of human carcinoma cells through the aryl hydrocarbon receptor

Antonio Morales-Hernández; Francisco J González-Rico; Angel C Román; Eva Rico-Leo; Alberto Alvarez-Barrientos; Laura Sánchez; Ángela Macia; Sara R Heras; José L García-Pérez; Jaime M Merino; Pedro M Fernández-Salguero

doi:10.1093/nar/gkw095

Alu retrotransposons promote differentiation of human carcinoma cells through the aryl hydrocarbon receptor

Antonio Morales-Hernández, Francisco J González-Rico, Angel C Román, Eva Rico-Leo, Alberto Alvarez-Barrientos, Laura Sánchez, Ángela Macia, Sara R Heras, José L García-Pérez, Jaime M Merino, Pedro M Fernández-Salguero

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Cell differentiation is a central process in development and in cancer growth and dissemination. OCT4 (POU5F1) and NANOG are essential for cell stemness and pluripotency; yet, the mechanisms that regulate their expression remain largely unknown. Repetitive elements account for almost half of the Human Genome; still, their role in gene regulation is poorly understood. Here, we show that the dioxin receptor (AHR) leads to differentiation of human carcinoma cells through the transcriptional upregulation of Alu retrotransposons, whose RNA transcripts can repress pluripotency genes. Despite the genome-wide presence of Alu elements, we provide evidences that those located at the NANOG and OCT4 promoters bind AHR, are transcribed by RNA polymerase-III and repress NANOG and OCT4 in differentiated cells. OCT4 and NANOG repression likely involves processing of Alu-derived transcripts through the miRNA machinery involving the Microprocessor and RISC. Consistently, stable AHR knockdown led to basal undifferentiation, impaired Alus transcription and blockade of OCT4 and NANOG repression. We suggest that transcripts produced from AHR-regulated Alu retrotransposons may control the expression of stemness genes OCT4 and NANOG during differentiation of carcinoma cells. The control of discrete Alu elements by specific transcription factors may have a dynamic role in genome regulation under physiological and diseased conditions.

Original language	English
Journal	Nucleic Acids Research
DOIs	https://doi.org/10.1093/nar/gkw095
Publication status	Published - 15 Feb 2016

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10.1093/nar/gkw095

Nucl. Acids Res.-2016-Morales-Hernández-nar_gkw095
© The Author(s) 2016. Published by Oxford University Press on behalf of Nucleic Acids Research. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact journals.permissions@oup.com
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Morales-Hernández, A., González-Rico, F. J., Román, A. C., Rico-Leo, E., Alvarez-Barrientos, A., Sánchez, L., Macia, Á., Heras, S. R., García-Pérez, J. L., Merino, J. M., & Fernández-Salguero, P. M. (2016). Alu retrotransposons promote differentiation of human carcinoma cells through the aryl hydrocarbon receptor. Nucleic Acids Research. https://doi.org/10.1093/nar/gkw095

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abstract = "Cell differentiation is a central process in development and in cancer growth and dissemination. OCT4 (POU5F1) and NANOG are essential for cell stemness and pluripotency; yet, the mechanisms that regulate their expression remain largely unknown. Repetitive elements account for almost half of the Human Genome; still, their role in gene regulation is poorly understood. Here, we show that the dioxin receptor (AHR) leads to differentiation of human carcinoma cells through the transcriptional upregulation of Alu retrotransposons, whose RNA transcripts can repress pluripotency genes. Despite the genome-wide presence of Alu elements, we provide evidences that those located at the NANOG and OCT4 promoters bind AHR, are transcribed by RNA polymerase-III and repress NANOG and OCT4 in differentiated cells. OCT4 and NANOG repression likely involves processing of Alu-derived transcripts through the miRNA machinery involving the Microprocessor and RISC. Consistently, stable AHR knockdown led to basal undifferentiation, impaired Alus transcription and blockade of OCT4 and NANOG repression. We suggest that transcripts produced from AHR-regulated Alu retrotransposons may control the expression of stemness genes OCT4 and NANOG during differentiation of carcinoma cells. The control of discrete Alu elements by specific transcription factors may have a dynamic role in genome regulation under physiological and diseased conditions.",

author = "Antonio Morales-Hern{\'a}ndez and Gonz{\'a}lez-Rico, {Francisco J} and Rom{\'a}n, {Angel C} and Eva Rico-Leo and Alberto Alvarez-Barrientos and Laura S{\'a}nchez and {\'A}ngela Macia and Heras, {Sara R} and Garc{\'i}a-P{\'e}rez, {Jos{\'e} L} and Merino, {Jaime M} and Fern{\'a}ndez-Salguero, {Pedro M}",

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AU - González-Rico, Francisco J

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AU - Alvarez-Barrientos, Alberto

AU - Sánchez, Laura

AU - Macia, Ángela

AU - Heras, Sara R

AU - García-Pérez, José L

AU - Merino, Jaime M

AU - Fernández-Salguero, Pedro M

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N2 - Cell differentiation is a central process in development and in cancer growth and dissemination. OCT4 (POU5F1) and NANOG are essential for cell stemness and pluripotency; yet, the mechanisms that regulate their expression remain largely unknown. Repetitive elements account for almost half of the Human Genome; still, their role in gene regulation is poorly understood. Here, we show that the dioxin receptor (AHR) leads to differentiation of human carcinoma cells through the transcriptional upregulation of Alu retrotransposons, whose RNA transcripts can repress pluripotency genes. Despite the genome-wide presence of Alu elements, we provide evidences that those located at the NANOG and OCT4 promoters bind AHR, are transcribed by RNA polymerase-III and repress NANOG and OCT4 in differentiated cells. OCT4 and NANOG repression likely involves processing of Alu-derived transcripts through the miRNA machinery involving the Microprocessor and RISC. Consistently, stable AHR knockdown led to basal undifferentiation, impaired Alus transcription and blockade of OCT4 and NANOG repression. We suggest that transcripts produced from AHR-regulated Alu retrotransposons may control the expression of stemness genes OCT4 and NANOG during differentiation of carcinoma cells. The control of discrete Alu elements by specific transcription factors may have a dynamic role in genome regulation under physiological and diseased conditions.

AB - Cell differentiation is a central process in development and in cancer growth and dissemination. OCT4 (POU5F1) and NANOG are essential for cell stemness and pluripotency; yet, the mechanisms that regulate their expression remain largely unknown. Repetitive elements account for almost half of the Human Genome; still, their role in gene regulation is poorly understood. Here, we show that the dioxin receptor (AHR) leads to differentiation of human carcinoma cells through the transcriptional upregulation of Alu retrotransposons, whose RNA transcripts can repress pluripotency genes. Despite the genome-wide presence of Alu elements, we provide evidences that those located at the NANOG and OCT4 promoters bind AHR, are transcribed by RNA polymerase-III and repress NANOG and OCT4 in differentiated cells. OCT4 and NANOG repression likely involves processing of Alu-derived transcripts through the miRNA machinery involving the Microprocessor and RISC. Consistently, stable AHR knockdown led to basal undifferentiation, impaired Alus transcription and blockade of OCT4 and NANOG repression. We suggest that transcripts produced from AHR-regulated Alu retrotransposons may control the expression of stemness genes OCT4 and NANOG during differentiation of carcinoma cells. The control of discrete Alu elements by specific transcription factors may have a dynamic role in genome regulation under physiological and diseased conditions.

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ER -

Alu retrotransposons promote differentiation of human carcinoma cells through the aryl hydrocarbon receptor

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