NCYM, a Cis-Antisense Gene of MYCN, Encodes a De Novo Evolved Protein That Inhibits GSK3β Resulting in the Stabilization of MYCN in Human Neuroblastomas

The rearrangement of pre-existing genes has long been thought of as the major mode of new gene generation. Recently, de novo gene birth from non-genic DNA was found to be an alternative mechanism to generate novel protein-coding genes. However, its functional role in human disease remains largely un...

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Autores principales: Suenaga, Yusuke, Islam, S. M. Rafiqul, Alagu, Jennifer, Kaneko, Yoshiki, Kato, Mamoru, Tanaka, Yukichi, Kawana, Hidetada, Hossain, Shamim, Matsumoto, Daisuke, Yamamoto, Mami, Shoji, Wataru, Itami, Makiko, Shibata, Tatsuhiro, Nakamura, Yohko, Ohira, Miki, Haraguchi, Seiki, Takatori, Atsushi, Nakagawara, Akira
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3879166/
https://www.ncbi.nlm.nih.gov/pubmed/24391509
http://dx.doi.org/10.1371/journal.pgen.1003996
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author Suenaga, Yusuke
Islam, S. M. Rafiqul
Alagu, Jennifer
Kaneko, Yoshiki
Kato, Mamoru
Tanaka, Yukichi
Kawana, Hidetada
Hossain, Shamim
Matsumoto, Daisuke
Yamamoto, Mami
Shoji, Wataru
Itami, Makiko
Shibata, Tatsuhiro
Nakamura, Yohko
Ohira, Miki
Haraguchi, Seiki
Takatori, Atsushi
Nakagawara, Akira
author_facet Suenaga, Yusuke
Islam, S. M. Rafiqul
Alagu, Jennifer
Kaneko, Yoshiki
Kato, Mamoru
Tanaka, Yukichi
Kawana, Hidetada
Hossain, Shamim
Matsumoto, Daisuke
Yamamoto, Mami
Shoji, Wataru
Itami, Makiko
Shibata, Tatsuhiro
Nakamura, Yohko
Ohira, Miki
Haraguchi, Seiki
Takatori, Atsushi
Nakagawara, Akira
author_sort Suenaga, Yusuke
collection PubMed
description The rearrangement of pre-existing genes has long been thought of as the major mode of new gene generation. Recently, de novo gene birth from non-genic DNA was found to be an alternative mechanism to generate novel protein-coding genes. However, its functional role in human disease remains largely unknown. Here we show that NCYM, a cis-antisense gene of the MYCN oncogene, initially thought to be a large non-coding RNA, encodes a de novo evolved protein regulating the pathogenesis of human cancers, particularly neuroblastoma. The NCYM gene is evolutionally conserved only in the taxonomic group containing humans and chimpanzees. In primary human neuroblastomas, NCYM is 100% co-amplified and co-expressed with MYCN, and NCYM mRNA expression is associated with poor clinical outcome. MYCN directly transactivates both NCYM and MYCN mRNA, whereas NCYM stabilizes MYCN protein by inhibiting the activity of GSK3β, a kinase that promotes MYCN degradation. In contrast to MYCN transgenic mice, neuroblastomas in MYCN/NCYM double transgenic mice were frequently accompanied by distant metastases, behavior reminiscent of human neuroblastomas with MYCN amplification. The NCYM protein also interacts with GSK3β, thereby stabilizing the MYCN protein in the tumors of the MYCN/NCYM double transgenic mice. Thus, these results suggest that GSK3β inhibition by NCYM stabilizes the MYCN protein both in vitro and in vivo. Furthermore, the survival of MYCN transgenic mice bearing neuroblastoma was improved by treatment with NVP-BEZ235, a dual PI3K/mTOR inhibitor shown to destabilize MYCN via GSK3β activation. In contrast, tumors caused in MYCN/NCYM double transgenic mice showed chemo-resistance to the drug. Collectively, our results show that NCYM is the first de novo evolved protein known to act as an oncopromoting factor in human cancer, and suggest that de novo evolved proteins may functionally characterize human disease.
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spelling pubmed-38791662014-01-03 NCYM, a Cis-Antisense Gene of MYCN, Encodes a De Novo Evolved Protein That Inhibits GSK3β Resulting in the Stabilization of MYCN in Human Neuroblastomas Suenaga, Yusuke Islam, S. M. Rafiqul Alagu, Jennifer Kaneko, Yoshiki Kato, Mamoru Tanaka, Yukichi Kawana, Hidetada Hossain, Shamim Matsumoto, Daisuke Yamamoto, Mami Shoji, Wataru Itami, Makiko Shibata, Tatsuhiro Nakamura, Yohko Ohira, Miki Haraguchi, Seiki Takatori, Atsushi Nakagawara, Akira PLoS Genet Research Article The rearrangement of pre-existing genes has long been thought of as the major mode of new gene generation. Recently, de novo gene birth from non-genic DNA was found to be an alternative mechanism to generate novel protein-coding genes. However, its functional role in human disease remains largely unknown. Here we show that NCYM, a cis-antisense gene of the MYCN oncogene, initially thought to be a large non-coding RNA, encodes a de novo evolved protein regulating the pathogenesis of human cancers, particularly neuroblastoma. The NCYM gene is evolutionally conserved only in the taxonomic group containing humans and chimpanzees. In primary human neuroblastomas, NCYM is 100% co-amplified and co-expressed with MYCN, and NCYM mRNA expression is associated with poor clinical outcome. MYCN directly transactivates both NCYM and MYCN mRNA, whereas NCYM stabilizes MYCN protein by inhibiting the activity of GSK3β, a kinase that promotes MYCN degradation. In contrast to MYCN transgenic mice, neuroblastomas in MYCN/NCYM double transgenic mice were frequently accompanied by distant metastases, behavior reminiscent of human neuroblastomas with MYCN amplification. The NCYM protein also interacts with GSK3β, thereby stabilizing the MYCN protein in the tumors of the MYCN/NCYM double transgenic mice. Thus, these results suggest that GSK3β inhibition by NCYM stabilizes the MYCN protein both in vitro and in vivo. Furthermore, the survival of MYCN transgenic mice bearing neuroblastoma was improved by treatment with NVP-BEZ235, a dual PI3K/mTOR inhibitor shown to destabilize MYCN via GSK3β activation. In contrast, tumors caused in MYCN/NCYM double transgenic mice showed chemo-resistance to the drug. Collectively, our results show that NCYM is the first de novo evolved protein known to act as an oncopromoting factor in human cancer, and suggest that de novo evolved proteins may functionally characterize human disease. Public Library of Science 2014-01-02 /pmc/articles/PMC3879166/ /pubmed/24391509 http://dx.doi.org/10.1371/journal.pgen.1003996 Text en © 2014 Suenaga et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Suenaga, Yusuke
Islam, S. M. Rafiqul
Alagu, Jennifer
Kaneko, Yoshiki
Kato, Mamoru
Tanaka, Yukichi
Kawana, Hidetada
Hossain, Shamim
Matsumoto, Daisuke
Yamamoto, Mami
Shoji, Wataru
Itami, Makiko
Shibata, Tatsuhiro
Nakamura, Yohko
Ohira, Miki
Haraguchi, Seiki
Takatori, Atsushi
Nakagawara, Akira
NCYM, a Cis-Antisense Gene of MYCN, Encodes a De Novo Evolved Protein That Inhibits GSK3β Resulting in the Stabilization of MYCN in Human Neuroblastomas
title NCYM, a Cis-Antisense Gene of MYCN, Encodes a De Novo Evolved Protein That Inhibits GSK3β Resulting in the Stabilization of MYCN in Human Neuroblastomas
title_full NCYM, a Cis-Antisense Gene of MYCN, Encodes a De Novo Evolved Protein That Inhibits GSK3β Resulting in the Stabilization of MYCN in Human Neuroblastomas
title_fullStr NCYM, a Cis-Antisense Gene of MYCN, Encodes a De Novo Evolved Protein That Inhibits GSK3β Resulting in the Stabilization of MYCN in Human Neuroblastomas
title_full_unstemmed NCYM, a Cis-Antisense Gene of MYCN, Encodes a De Novo Evolved Protein That Inhibits GSK3β Resulting in the Stabilization of MYCN in Human Neuroblastomas
title_short NCYM, a Cis-Antisense Gene of MYCN, Encodes a De Novo Evolved Protein That Inhibits GSK3β Resulting in the Stabilization of MYCN in Human Neuroblastomas
title_sort ncym, a cis-antisense gene of mycn, encodes a de novo evolved protein that inhibits gsk3β resulting in the stabilization of mycn in human neuroblastomas
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3879166/
https://www.ncbi.nlm.nih.gov/pubmed/24391509
http://dx.doi.org/10.1371/journal.pgen.1003996
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