The interplay of common genetic variants NRG1 rs2439302 and RET rs2435357 increases the risk of developing Hirschsprung’s disease

Introduction: As a congenital and genetically related disease, many single nucleotide polymorphisms (SNPs) have been reported to be associated with the risk of HSCR. Our previous research showed that SNP rs2439302 (NRG1) interacted with rs2435357 (RET) to increase the risk of HSCR development. Howev...

Descripción completa

Detalles Bibliográficos
Autores principales: Chi, Shuiqing, Li, Shuai, Cao, Guoqing, Guo, Jialing, Han, Yunqiao, Zhou, Yun, Zhang, Xi, Li, Yibo, Luo, Zhibin, Li, Xiangyang, Rong, Liying, Zhang, Mengxin, Li, Linglu, Tang, Shaotao
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Cell and Developmental Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10361661/
https://www.ncbi.nlm.nih.gov/pubmed/37484916
http://dx.doi.org/10.3389/fcell.2023.1184799
_version_ 1785076263231160320
author Chi, Shuiqing
Li, Shuai
Cao, Guoqing
Guo, Jialing
Han, Yunqiao
Zhou, Yun
Zhang, Xi
Li, Yibo
Luo, Zhibin
Li, Xiangyang
Rong, Liying
Zhang, Mengxin
Li, Linglu
Tang, Shaotao
author_facet Chi, Shuiqing
Li, Shuai
Cao, Guoqing
Guo, Jialing
Han, Yunqiao
Zhou, Yun
Zhang, Xi
Li, Yibo
Luo, Zhibin
Li, Xiangyang
Rong, Liying
Zhang, Mengxin
Li, Linglu
Tang, Shaotao
author_sort Chi, Shuiqing
collection PubMed
description Introduction: As a congenital and genetically related disease, many single nucleotide polymorphisms (SNPs) have been reported to be associated with the risk of HSCR. Our previous research showed that SNP rs2439302 (NRG1) interacted with rs2435357 (RET) to increase the risk of HSCR development. However, the underlying molecular mechanism is still not well understood. Methods: SNP rs2439302 (NRG1) and rs2435357 (RET) were genotyped in 470 HSCR cases. The expression of NRG1 and RET was investigated in the colon of HSCR patients. Knockdown of the NRG1 and RET homologs was performed in zebrafish to investigate their synergistic effect on ENS development. The effect of SNP rs2439302 and rs2435357 polymorphism on neuron proliferation, migration, and differentiation were investigated in SHSY-5Y cells and IPSCs. Results: Significant downregulation of NRG1 and RET expression was noticed in the aganglionic segment of HSCR patients and SHSY-5Y cells with rs2439302 GG/rs2435357 TT genotype. NRG1 and RET double mutants caused the most severe reduction in enteric neuron numbers than NRG1 single mutant or RET single mutant in the hindgut of zebrafish. SHSY-5Y cells and IPSCs with rs2439302 GG/rs2435357 TT genotype exhibited a decreased proliferative, migration, and differentiative capacity. CTCF showed a considerably higher binding ability to SNP rs2439302 CC than GG. NRG1 reduction caused a further decrease in SOX10 expression via the PI3K/Akt pathway, which regulates RET expression by directly binding to rs2435357. Discussion: SNP rs2439302 (NRG1) GG increases the risk of developing HSCR by affecting the binding of transcription factor CTCF and interacting with rs2435357 (RET) to regulate RET expression via the PI3K/Akt/SOX10 pathway.
format Online
Article
Text
id pubmed-10361661
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher Frontiers Media S.A.
record_format MEDLINE/PubMed
spelling pubmed-103616612023-07-22 The interplay of common genetic variants NRG1 rs2439302 and RET rs2435357 increases the risk of developing Hirschsprung’s disease Chi, Shuiqing Li, Shuai Cao, Guoqing Guo, Jialing Han, Yunqiao Zhou, Yun Zhang, Xi Li, Yibo Luo, Zhibin Li, Xiangyang Rong, Liying Zhang, Mengxin Li, Linglu Tang, Shaotao Front Cell Dev Biol Cell and Developmental Biology Introduction: As a congenital and genetically related disease, many single nucleotide polymorphisms (SNPs) have been reported to be associated with the risk of HSCR. Our previous research showed that SNP rs2439302 (NRG1) interacted with rs2435357 (RET) to increase the risk of HSCR development. However, the underlying molecular mechanism is still not well understood. Methods: SNP rs2439302 (NRG1) and rs2435357 (RET) were genotyped in 470 HSCR cases. The expression of NRG1 and RET was investigated in the colon of HSCR patients. Knockdown of the NRG1 and RET homologs was performed in zebrafish to investigate their synergistic effect on ENS development. The effect of SNP rs2439302 and rs2435357 polymorphism on neuron proliferation, migration, and differentiation were investigated in SHSY-5Y cells and IPSCs. Results: Significant downregulation of NRG1 and RET expression was noticed in the aganglionic segment of HSCR patients and SHSY-5Y cells with rs2439302 GG/rs2435357 TT genotype. NRG1 and RET double mutants caused the most severe reduction in enteric neuron numbers than NRG1 single mutant or RET single mutant in the hindgut of zebrafish. SHSY-5Y cells and IPSCs with rs2439302 GG/rs2435357 TT genotype exhibited a decreased proliferative, migration, and differentiative capacity. CTCF showed a considerably higher binding ability to SNP rs2439302 CC than GG. NRG1 reduction caused a further decrease in SOX10 expression via the PI3K/Akt pathway, which regulates RET expression by directly binding to rs2435357. Discussion: SNP rs2439302 (NRG1) GG increases the risk of developing HSCR by affecting the binding of transcription factor CTCF and interacting with rs2435357 (RET) to regulate RET expression via the PI3K/Akt/SOX10 pathway. Frontiers Media S.A. 2023-07-07 /pmc/articles/PMC10361661/ /pubmed/37484916 http://dx.doi.org/10.3389/fcell.2023.1184799 Text en Copyright © 2023 Chi, Li, Cao, Guo, Han, Zhou, Zhang, Li, Luo, Li, Rong, Zhang, Li and Tang. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Cell and Developmental Biology
Chi, Shuiqing
Li, Shuai
Cao, Guoqing
Guo, Jialing
Han, Yunqiao
Zhou, Yun
Zhang, Xi
Li, Yibo
Luo, Zhibin
Li, Xiangyang
Rong, Liying
Zhang, Mengxin
Li, Linglu
Tang, Shaotao
The interplay of common genetic variants NRG1 rs2439302 and RET rs2435357 increases the risk of developing Hirschsprung’s disease
title The interplay of common genetic variants NRG1 rs2439302 and RET rs2435357 increases the risk of developing Hirschsprung’s disease
title_full The interplay of common genetic variants NRG1 rs2439302 and RET rs2435357 increases the risk of developing Hirschsprung’s disease
title_fullStr The interplay of common genetic variants NRG1 rs2439302 and RET rs2435357 increases the risk of developing Hirschsprung’s disease
title_full_unstemmed The interplay of common genetic variants NRG1 rs2439302 and RET rs2435357 increases the risk of developing Hirschsprung’s disease
title_short The interplay of common genetic variants NRG1 rs2439302 and RET rs2435357 increases the risk of developing Hirschsprung’s disease
title_sort interplay of common genetic variants nrg1 rs2439302 and ret rs2435357 increases the risk of developing hirschsprung’s disease
topic Cell and Developmental Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10361661/
https://www.ncbi.nlm.nih.gov/pubmed/37484916
http://dx.doi.org/10.3389/fcell.2023.1184799
work_keys_str_mv AT chishuiqing theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT lishuai theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT caoguoqing theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT guojialing theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT hanyunqiao theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT zhouyun theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT zhangxi theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT liyibo theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT luozhibin theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT lixiangyang theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT rongliying theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT zhangmengxin theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT lilinglu theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT tangshaotao theinterplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT chishuiqing interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT lishuai interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT caoguoqing interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT guojialing interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT hanyunqiao interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT zhouyun interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT zhangxi interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT liyibo interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT luozhibin interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT lixiangyang interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT rongliying interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT zhangmengxin interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT lilinglu interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease
AT tangshaotao interplayofcommongeneticvariantsnrg1rs2439302andretrs2435357increasestheriskofdevelopinghirschsprungsdisease

Ejemplares similares