<p>The vertebrate central nervous system is protected by the blood–brain barrier and meningeal membranes, which ensure immune privilege<sup><CitationRef CitationID="CR1">1</CitationRef></sup>. In the mammalian brain, microglia and barrier-associated or border-associated macrophages (BAMs) provide immune surveillance and scavenge wastes<sup><CitationRef CitationID="CR2">2</CitationRef></sup>, yet how evolution shaped immune-cell diversity and function is not understood. In zebrafish, a vascular-derived mural lymphatic endothelial cell (muLEC) lineage fulfils scavenger cell functions at central nervous system borders<sup><CitationRef AdditionalCitationIDS="CR4" CitationID="CR3">3</CitationRef>–<CitationRef CitationID="CR5">5</CitationRef></sup>. Here we identify the transcription factor <i>odd-skipped related 2</i> (<i>osr2</i>) as a specific marker and regulator of muLEC differentiation and maintenance. <i>osr2</i> controls the transition of muLECs from interconnected endothelial cells to individual scavenger cells in part by means of control of <i>cadherin-6</i>. muLECs are more transcriptionally similar to BAMs than to other mammalian meningeal cells and share several functions in tissue homeostasis. However, BAMs are absent from zebrafish and muLECs from mice and humans. Analysis of <i>osr2</i>, lymphatic endothelial cell (LEC) and BAM markers in diverse vertebrate species reveals muLECs as an ancient lineage and BAMs a recent mammalian specialization. muLECs and BAMs share functional analogies but are not homologous, providing an example of convergent evolution. This highlights the physiological importance of meningeal scavenger cells and the developmental plasticity of LECs in generating specialized cell types throughout evolution.</p>

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Convergent evolution of scavenger cell development at brain borders

  • Andrea U. Gaudi,
  • Michelle Meier,
  • Oguzhan F. Baltaci,
  • Sayali Chowdhary,
  • Frank J. Tulenko,
  • Stefanie Dudczig,
  • Sebastian-Alexander Stamatis,
  • Scott Paterson,
  • Hujun Yu,
  • Maria Cristina Rondon Galeano,
  • Elizabeth Mason,
  • Lee B. Miles,
  • Robert J. Bryson-Richardson,
  • Andrew J. Pask,
  • Jana Vukovic,
  • Anne K. Lagendijk,
  • Kelly A. Smith,
  • Jan Kaslin,
  • Michael RM Harrison,
  • Peter D. Currie,
  • Neil I. Bower,
  • Benjamin M. Hogan

摘要

The vertebrate central nervous system is protected by the blood–brain barrier and meningeal membranes, which ensure immune privilege1. In the mammalian brain, microglia and barrier-associated or border-associated macrophages (BAMs) provide immune surveillance and scavenge wastes2, yet how evolution shaped immune-cell diversity and function is not understood. In zebrafish, a vascular-derived mural lymphatic endothelial cell (muLEC) lineage fulfils scavenger cell functions at central nervous system borders35. Here we identify the transcription factor odd-skipped related 2 (osr2) as a specific marker and regulator of muLEC differentiation and maintenance. osr2 controls the transition of muLECs from interconnected endothelial cells to individual scavenger cells in part by means of control of cadherin-6. muLECs are more transcriptionally similar to BAMs than to other mammalian meningeal cells and share several functions in tissue homeostasis. However, BAMs are absent from zebrafish and muLECs from mice and humans. Analysis of osr2, lymphatic endothelial cell (LEC) and BAM markers in diverse vertebrate species reveals muLECs as an ancient lineage and BAMs a recent mammalian specialization. muLECs and BAMs share functional analogies but are not homologous, providing an example of convergent evolution. This highlights the physiological importance of meningeal scavenger cells and the developmental plasticity of LECs in generating specialized cell types throughout evolution.