Ancestrally duplicated conserved noncoding element suggests dual regulatory roles of HOTAIR in cis and trans

Chirag Nepal; Andrzej Taranta; Yavor Hadzhiev; Sachin Pundhir; Piotr Mydel; Boris Lenhard; Ferenc Müller; Jesper B. Andersen

doi:10.1016/j.isci.2020.101008

Ancestrally duplicated conserved noncoding element suggests dual regulatory roles of HOTAIR in cis and trans

Chirag Nepal, Andrzej Taranta, Yavor Hadzhiev, Sachin Pundhir, Piotr Mydel, Boris Lenhard, Ferenc Müller, Jesper B. Andersen

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Abstract

HOTAIR was proposed to regulate either HoxD cluster genes in trans or HoxC cluster genes in cis, a mechanism that remains unclear. We have identified a 32-nucleotide conserved noncoding element (CNE) as HOTAIR ancient sequence that likely originated at the root of vertebrate. The second round of whole-genome duplication resulted in one copy of the CNE within HOTAIR and another copy embedded in noncoding transcript of HOXD11. Paralogous CNEs underwent compensatory mutations, exhibit sequence complementarity with respect to transcripts directionality, and have high affinity in vitro. The HOTAIR CNE resembled a poised enhancer in stem cells and an active enhancer in HOTAIR-expressing cells. HOTAIR expression is positively correlated with HOXC11 in cis and negatively correlated with HOXD11 in trans. We propose a dual modality of HOTAIR regulation where transcription of HOTAIR and its embedded enhancer regulates HOXC11 in cis and sequence complementarity between paralogous CNEs suggests HOXD11 regulation in trans.

Original language	English
Article number	101008
Number of pages	27
Journal	iScience
Volume	23
Issue number	4
Early online date	25 Mar 2020
DOIs	https://doi.org/10.1016/j.isci.2020.101008
Publication status	Published - 24 Apr 2020

Keywords

Biological Sciences
Molecular Biology
Molecular Mechanism of Gene Regulation

ASJC Scopus subject areas

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title = "Ancestrally duplicated conserved noncoding element suggests dual regulatory roles of HOTAIR in cis and trans",

abstract = "HOTAIR was proposed to regulate either HoxD cluster genes in trans or HoxC cluster genes in cis, a mechanism that remains unclear. We have identified a 32-nucleotide conserved noncoding element (CNE) as HOTAIR ancient sequence that likely originated at the root of vertebrate. The second round of whole-genome duplication resulted in one copy of the CNE within HOTAIR and another copy embedded in noncoding transcript of HOXD11. Paralogous CNEs underwent compensatory mutations, exhibit sequence complementarity with respect to transcripts directionality, and have high affinity in vitro. The HOTAIR CNE resembled a poised enhancer in stem cells and an active enhancer in HOTAIR-expressing cells. HOTAIR expression is positively correlated with HOXC11 in cis and negatively correlated with HOXD11 in trans. We propose a dual modality of HOTAIR regulation where transcription of HOTAIR and its embedded enhancer regulates HOXC11 in cis and sequence complementarity between paralogous CNEs suggests HOXD11 regulation in trans.",

keywords = "Biological Sciences, Molecular Biology, Molecular Mechanism of Gene Regulation",

author = "Chirag Nepal and Andrzej Taranta and Yavor Hadzhiev and Sachin Pundhir and Piotr Mydel and Boris Lenhard and Ferenc M{\"u}ller and Andersen, {Jesper B.}",

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AU - Nepal, Chirag

AU - Taranta, Andrzej

AU - Hadzhiev, Yavor

AU - Pundhir, Sachin

AU - Mydel, Piotr

AU - Lenhard, Boris

AU - Müller, Ferenc

AU - Andersen, Jesper B.

PY - 2020/4/24

Y1 - 2020/4/24

N2 - HOTAIR was proposed to regulate either HoxD cluster genes in trans or HoxC cluster genes in cis, a mechanism that remains unclear. We have identified a 32-nucleotide conserved noncoding element (CNE) as HOTAIR ancient sequence that likely originated at the root of vertebrate. The second round of whole-genome duplication resulted in one copy of the CNE within HOTAIR and another copy embedded in noncoding transcript of HOXD11. Paralogous CNEs underwent compensatory mutations, exhibit sequence complementarity with respect to transcripts directionality, and have high affinity in vitro. The HOTAIR CNE resembled a poised enhancer in stem cells and an active enhancer in HOTAIR-expressing cells. HOTAIR expression is positively correlated with HOXC11 in cis and negatively correlated with HOXD11 in trans. We propose a dual modality of HOTAIR regulation where transcription of HOTAIR and its embedded enhancer regulates HOXC11 in cis and sequence complementarity between paralogous CNEs suggests HOXD11 regulation in trans.

AB - HOTAIR was proposed to regulate either HoxD cluster genes in trans or HoxC cluster genes in cis, a mechanism that remains unclear. We have identified a 32-nucleotide conserved noncoding element (CNE) as HOTAIR ancient sequence that likely originated at the root of vertebrate. The second round of whole-genome duplication resulted in one copy of the CNE within HOTAIR and another copy embedded in noncoding transcript of HOXD11. Paralogous CNEs underwent compensatory mutations, exhibit sequence complementarity with respect to transcripts directionality, and have high affinity in vitro. The HOTAIR CNE resembled a poised enhancer in stem cells and an active enhancer in HOTAIR-expressing cells. HOTAIR expression is positively correlated with HOXC11 in cis and negatively correlated with HOXD11 in trans. We propose a dual modality of HOTAIR regulation where transcription of HOTAIR and its embedded enhancer regulates HOXC11 in cis and sequence complementarity between paralogous CNEs suggests HOXD11 regulation in trans.

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Ancestrally duplicated conserved noncoding element suggests dual regulatory roles of HOTAIR in cis and trans

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