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A human embryonic limb cell atlas resolved in space and time.
Zhang, Bao; He, Peng; Lawrence, John E G; Wang, Shuaiyu; Tuck, Elizabeth; Williams, Brian A; Roberts, Kenny; Kleshchevnikov, Vitalii; Mamanova, Lira; Bolt, Liam; Polanski, Krzysztof; Li, Tong; Elmentaite, Rasa; Fasouli, Eirini S; Prete, Martin; He, Xiaoling; Yayon, Nadav; Fu, Yixi; Yang, Hao; Liang, Chen; Zhang, Hui; Blain, Raphael; Chedotal, Alain; FitzPatrick, David R; Firth, Helen; Dean, Andrew; Bayraktar, Omer Ali; Marioni, John C; Barker, Roger A; Storer, Mekayla A; Wold, Barbara J; Zhang, Hongbo; Teichmann, Sarah A.
Afiliação
  • Zhang B; The Key Laboratory for Stem Cells and Tissue Engineering, Ministry of Education, Zhongshan School of Medicine, Sun Yat-sen University, Guangzhou, China.
  • He P; European Molecular Biology Laboratory, European Bioinformatics Institute (EMBL-EBI), Wellcome Genome Campus, Hinxton, UK.
  • Lawrence JEG; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Wang S; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Tuck E; Department of Trauma and Orthopaedics, Cambridge University Hospitals NHS Foundation Trust, Addenbrooke's Hospital, Cambridge, UK.
  • Williams BA; The Key Laboratory for Stem Cells and Tissue Engineering, Ministry of Education, Zhongshan School of Medicine, Sun Yat-sen University, Guangzhou, China.
  • Roberts K; Department of Obstetrics, Guangzhou Institute of Pediatrics, Guangzhou Women and Children's Medical Center, Guangzhou Medical University, Guangzhou, China.
  • Kleshchevnikov V; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Mamanova L; Division of Biology and Biological Engineering, California Institute of Technology, Pasadena, CA, USA.
  • Bolt L; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Polanski K; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Li T; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Elmentaite R; Enhanc3D Genomics Ltd, Cambridge, UK.
  • Fasouli ES; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Prete M; Genomics England, London, UK.
  • He X; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Yayon N; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Fu Y; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Yang H; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Liang C; Basic Research Center, Biomedical Research Foundation, Academy of Athens, Athens, Greece.
  • Zhang H; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Blain R; John van Geest Centre for Brain Repair, Department of Clinical Neurosciences, University of Cambridge, Cambridge, UK.
  • Chedotal A; Wellcome-MRC Cambridge Stem Cell Institute, University of Cambridge, Cambridge, UK.
  • FitzPatrick DR; European Molecular Biology Laboratory, European Bioinformatics Institute (EMBL-EBI), Wellcome Genome Campus, Hinxton, UK.
  • Firth H; Wellcome Sanger Institute, Wellcome Genome Campus, Hinxton, UK.
  • Dean A; The Key Laboratory for Stem Cells and Tissue Engineering, Ministry of Education, Zhongshan School of Medicine, Sun Yat-sen University, Guangzhou, China.
  • Bayraktar OA; The Key Laboratory for Stem Cells and Tissue Engineering, Ministry of Education, Zhongshan School of Medicine, Sun Yat-sen University, Guangzhou, China.
  • Marioni JC; The Key Laboratory for Stem Cells and Tissue Engineering, Ministry of Education, Zhongshan School of Medicine, Sun Yat-sen University, Guangzhou, China.
  • Barker RA; Institute of Human Virology, Key Laboratory of Tropical Disease Control of Ministry of Education, Zhongshan School of Medicine, Sun Yat-sen University, Guangzhou, China.
  • Storer MA; Sorbonne Université, INSERM, CNRS, Institut de la Vision, Paris, France.
  • Wold BJ; Sorbonne Université, INSERM, CNRS, Institut de la Vision, Paris, France.
  • Zhang H; Institut de pathologie, groupe hospitalier Est, hospices civils de Lyon, Lyon, France.
  • Teichmann SA; University Claude Bernard Lyon 1, MeLiS, CNRS UMR5284, INSERM U1314, Lyon, France.
Nature ; 2023 Dec 06.
Article em En | MEDLINE | ID: mdl-38057666
Human limbs emerge during the fourth post-conception week as mesenchymal buds, which develop into fully formed limbs over the subsequent months1. This process is orchestrated by numerous temporally and spatially restricted gene expression programmes, making congenital alterations in phenotype common2. Decades of work with model organisms have defined the fundamental mechanisms underlying vertebrate limb development, but an in-depth characterization of this process in humans has yet to be performed. Here we detail human embryonic limb development across space and time using single-cell and spatial transcriptomics. We demonstrate extensive diversification of cells from a few multipotent progenitors to myriad differentiated cell states, including several novel cell populations. We uncover two waves of human muscle development, each characterized by different cell states regulated by separate gene expression programmes, and identify musculin (MSC) as a key transcriptional repressor maintaining muscle stem cell identity. Through assembly of multiple anatomically continuous spatial transcriptomic samples using VisiumStitcher, we map cells across a sagittal section of a whole fetal hindlimb. We reveal a clear anatomical segregation between genes linked to brachydactyly and polysyndactyly, and uncover transcriptionally and spatially distinct populations of the mesenchyme in the autopod. Finally, we perform single-cell RNA sequencing on mouse embryonic limbs to facilitate cross-species developmental comparison, finding substantial homology between the two species.

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: Nature Ano de publicação: 2023 Tipo de documento: Article País de afiliação: China

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: Nature Ano de publicação: 2023 Tipo de documento: Article País de afiliação: China