A population of stem cells with strong regenerative potential discovered in deer antlers

Tao Qin; Guokun Zhang; Yi Zheng; Shengyou Li; Yuan Yuan; Qingjie Li; Mingliang Hu; Huazhe Si; Guanning Wei; Xueli Gao; Xinxin Cui; Bing Xia; Jing Ren; Kun Wang; Hengxing Ba; Zhen Liu; Rasmus Heller; Zhipeng Li; Wen Wang; Jinghui Huang; Chunyi Li; Qiang Qiu

doi:10.1126/science.add0488

A population of stem cells with strong regenerative potential discovered in deer antlers

Tao Qin
, Guokun Zhang
, Yi Zheng
, Shengyou Li
, Yuan Yuan
, Qingjie Li
, Mingliang Hu
, Huazhe Si
, Guanning Wei
, Xueli Gao
, Xinxin Cui
, Bing Xia
, Jing Ren
, Kun Wang
, Hengxing Ba
, Zhen Liu
, Rasmus Heller
, Zhipeng Li
, Wen Wang
, Jinghui Huang

Chunyi Li, Qiang Qiu

生态环境学院

Northwestern Polytechnical University Xian
Changchun University of Science and Technology
Xijing Hospital
Changchun University of Chinese Medicine
Jilin Agricultural University
College of Life Sciences, Jilin University
University of Copenhagen
Chinese Academy of Sciences

科研成果: 期刊稿件 › 文章 › 同行评审

99 引用（Scopus）

摘要

The annual regrowth of deer antlers provides a valuable model for studying organ regeneration in mammals. We describe a single-cell atlas of antler regrowth. The earliest-stage antler initiators were mesenchymal cells that express the paired related homeobox 1 gene (PRRX1⁺ mesenchymal cells). We also identified a population of “antler blastema progenitor cells” (ABPCs) that developed from the PRRX1⁺ mesenchymal cells and directed the antler regeneration process. Cross-species comparisons identified ABPCs in several mammalian blastema. In vivo and in vitro ABPCs displayed strong self-renewal ability and could generate osteochondral lineage cells. Last, we observed a spatially well-structured pattern of cellular and gene expression in antler growth center during the peak growth stage, revealing the cellular mechanisms involved in rapid antler elongation.

源语言	英语
页（从-至）	840-847
页数	8
期刊	Science
卷	379
期	6634
DOI	https://doi.org/10.1126/science.add0488
出版状态	已出版 - 24 2月 2023

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10.1126/science.add0488

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abstract = "The annual regrowth of deer antlers provides a valuable model for studying organ regeneration in mammals. We describe a single-cell atlas of antler regrowth. The earliest-stage antler initiators were mesenchymal cells that express the paired related homeobox 1 gene (PRRX1+ mesenchymal cells). We also identified a population of “antler blastema progenitor cells” (ABPCs) that developed from the PRRX1+ mesenchymal cells and directed the antler regeneration process. Cross-species comparisons identified ABPCs in several mammalian blastema. In vivo and in vitro ABPCs displayed strong self-renewal ability and could generate osteochondral lineage cells. Last, we observed a spatially well-structured pattern of cellular and gene expression in antler growth center during the peak growth stage, revealing the cellular mechanisms involved in rapid antler elongation.",

author = "Tao Qin and Guokun Zhang and Yi Zheng and Shengyou Li and Yuan Yuan and Qingjie Li and Mingliang Hu and Huazhe Si and Guanning Wei and Xueli Gao and Xinxin Cui and Bing Xia and Jing Ren and Kun Wang and Hengxing Ba and Zhen Liu and Rasmus Heller and Zhipeng Li and Wen Wang and Jinghui Huang and Chunyi Li and Qiang Qiu",

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T1 - A population of stem cells with strong regenerative potential discovered in deer antlers

AU - Qin, Tao

AU - Zhang, Guokun

AU - Zheng, Yi

AU - Li, Shengyou

AU - Yuan, Yuan

AU - Li, Qingjie

AU - Hu, Mingliang

AU - Si, Huazhe

AU - Wei, Guanning

AU - Gao, Xueli

AU - Cui, Xinxin

AU - Xia, Bing

AU - Ren, Jing

AU - Wang, Kun

AU - Ba, Hengxing

AU - Liu, Zhen

AU - Heller, Rasmus

AU - Li, Zhipeng

AU - Wang, Wen

AU - Huang, Jinghui

AU - Li, Chunyi

AU - Qiu, Qiang

PY - 2023/2/24

Y1 - 2023/2/24

N2 - The annual regrowth of deer antlers provides a valuable model for studying organ regeneration in mammals. We describe a single-cell atlas of antler regrowth. The earliest-stage antler initiators were mesenchymal cells that express the paired related homeobox 1 gene (PRRX1+ mesenchymal cells). We also identified a population of “antler blastema progenitor cells” (ABPCs) that developed from the PRRX1+ mesenchymal cells and directed the antler regeneration process. Cross-species comparisons identified ABPCs in several mammalian blastema. In vivo and in vitro ABPCs displayed strong self-renewal ability and could generate osteochondral lineage cells. Last, we observed a spatially well-structured pattern of cellular and gene expression in antler growth center during the peak growth stage, revealing the cellular mechanisms involved in rapid antler elongation.

AB - The annual regrowth of deer antlers provides a valuable model for studying organ regeneration in mammals. We describe a single-cell atlas of antler regrowth. The earliest-stage antler initiators were mesenchymal cells that express the paired related homeobox 1 gene (PRRX1+ mesenchymal cells). We also identified a population of “antler blastema progenitor cells” (ABPCs) that developed from the PRRX1+ mesenchymal cells and directed the antler regeneration process. Cross-species comparisons identified ABPCs in several mammalian blastema. In vivo and in vitro ABPCs displayed strong self-renewal ability and could generate osteochondral lineage cells. Last, we observed a spatially well-structured pattern of cellular and gene expression in antler growth center during the peak growth stage, revealing the cellular mechanisms involved in rapid antler elongation.

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DO - 10.1126/science.add0488

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AN - SCOPUS:85148679947

SN - 0036-8075

VL - 379

SP - 840

EP - 847

JO - Science

JF - Science

IS - 6634

ER -

A population of stem cells with strong regenerative potential discovered in deer antlers

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