Regeneration of the human segmentation clock in somitoids in vitro.

Qin, Yue; Huang, Xingnan; Cai, Zepo; Cai, Baomei; He, Jiangping; Yao, Yuxiang; Zhou, Chunhua; Kuang, Junqi; Yang, Yihang; Chen, Huan; Chen, Yating; Ou, Sihua; Chen, Lijun; Wu, Fang; Guo, Ning; Yuan, Yapei; Zhang, Xiangyu; Pang, Wei; Feng, Ziyu; Yu, Shengyong; Liu, Jing; Cao, Shangtao; Pei, Duanqing

Regeneration of the human segmentation clock in somitoids in vitro.

Qin, Yue; Huang, Xingnan; Cai, Zepo; Cai, Baomei; He, Jiangping; Yao, Yuxiang; Zhou, Chunhua; Kuang, Junqi; Yang, Yihang; Chen, Huan; Chen, Yating; Ou, Sihua; Chen, Lijun; Wu, Fang; Guo, Ning; Yuan, Yapei; Zhang, Xiangyu; Pang, Wei; Feng, Ziyu; Yu, Shengyong; Liu, Jing; Cao, Shangtao; Pei, Duanqing.

Afiliação

Qin Y; CAS Key Laboratory of Regenerative Biology, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.
Huang X; Guangdong Provincial Key Laboratory of Stem Cell and Regenerative Medicine, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.
Cai Z; University of the Chinese Academy of Sciences, Beijing, China.
Cai B; Laboratory of Cell Fate Control, School of Life Sciences, Westlake University, Hangzhou, China.
He J; CAS Key Laboratory of Regenerative Biology, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.
Yao Y; Joint School of Life Science, Guangzhou Institutes of Biomedicine and Health, Chinese Academic and Sciences, Guangzhou Medical University, Guangzhou, China.
Zhou C; Center for Cell Lineage and Atlas, Bioland Laboratory (Guangzhou Regenerative Medicine and Health Guangdong Laboratory), Guangzhou, China.
Kuang J; Center for Cell Lineage and Atlas, Bioland Laboratory (Guangzhou Regenerative Medicine and Health Guangdong Laboratory), Guangzhou, China.
Yang Y; CAS Key Laboratory of Regenerative Biology, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.
Chen H; CAS Key Laboratory of Regenerative Biology, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.
Chen Y; Guangdong Provincial Key Laboratory of Stem Cell and Regenerative Medicine, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.
Ou S; University of the Chinese Academy of Sciences, Beijing, China.
Chen L; Laboratory of Cell Fate Control, School of Life Sciences, Westlake University, Hangzhou, China.
Wu F; Laboratory of Cell Fate Control, School of Life Sciences, Westlake University, Hangzhou, China.
Guo N; Center for Cell Lineage and Atlas, Bioland Laboratory (Guangzhou Regenerative Medicine and Health Guangdong Laboratory), Guangzhou, China.
Yuan Y; CAS Key Laboratory of Regenerative Biology, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.
Zhang X; Guangdong Provincial Key Laboratory of Stem Cell and Regenerative Medicine, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.
Pang W; Joint School of Life Science, Guangzhou Institutes of Biomedicine and Health, Chinese Academic and Sciences, Guangzhou Medical University, Guangzhou, China.
Feng Z; CAS Key Laboratory of Regenerative Biology, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.
Yu S; Guangdong Provincial Key Laboratory of Stem Cell and Regenerative Medicine, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.
Liu J; Joint School of Life Science, Guangzhou Institutes of Biomedicine and Health, Chinese Academic and Sciences, Guangzhou Medical University, Guangzhou, China.
Cao S; CAS Key Laboratory of Regenerative Biology, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.
Pei D; Guangdong Provincial Key Laboratory of Stem Cell and Regenerative Medicine, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences, Guangzhou, China.

EMBO J ; 41(23): e110928, 2022 12 01.

Article em En | MEDLINE | ID: mdl-36245268

ABSTRACT

ABSTRACT

Each vertebrate species appears to have a unique timing mechanism for forming somites along the vertebral column, and the process in human remains poorly understood at the molecular level due to technical and ethical limitations. Here, we report the reconstitution of human segmentation clock by direct reprogramming. We first reprogrammed human urine epithelial cells to a presomitic mesoderm (PSM) state capable of long-term self-renewal and formation of somitoids with an anterior-to-posterior axis. By inserting the RNA reporter Pepper into HES7 and MESP2 loci of these iPSM cells, we show that both transcripts oscillate in the resulting somitoids at ~5 h/cycle. GFP-tagged endogenous HES7 protein moves along the anterior-to-posterior axis during somitoid formation. The geo-sequencing analysis further confirmed anterior-to-posterior polarity and revealed the localized expression of WNT, BMP, FGF, and RA signaling molecules and HOXA-D family members. Our study demonstrates the direct reconstitution of human segmentation clock from somatic cells, which may allow future dissection of the mechanism and components of such a clock and aid regenerative medicine.

Assuntos

Mesoderma; Somitos; Humanos; Somitos/metabolismo; Mesoderma/metabolismo; Transdução de Sinais; Regulação da Expressão Gênica no Desenvolvimento; Padronização Corporal/genética; Fatores de Transcrição Hélice-Alça-Hélice Básicos/genética; Fatores de Transcrição Hélice-Alça-Hélice Básicos/metabolismo

Palavras-chave

UiSomitoid; anteroposterior axis; oscillation; presomitic mesoderm; somitogenesis

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Limite: Humans Idioma: En Ano de publicação: 2022 Tipo de documento: Article

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Limite: Humans Idioma: En Ano de publicação: 2022 Tipo de documento: Article