Cell-surface proteomic profiling identifies CD72 as a regulator of microglial tiling

  1. Tamara C. Chan
  2. Mohit Rastogi
  3. Micah X. Williams
  4. Samuel Zhang
  5. Sophia M. Shi
  6. Steven R. Shuken
  7. Teresa Bartling
  8. Katleen Wild
  9. Micaiah Atkins
  10. Oliver Hahn
  11. Joao A. Paulo
  12. Saša Jereb
  13. S. Andrew Shuster
  14. Yongjin Yoo
  15. Alan Napole
  16. Victoria G. Hernandez
  17. Liqun Luo
  18. Marion S. Buckwalter
  19. Beth Stevens
  20. Benjamin E. Deverman
  21. Deborah Kronenberg-Versteeg
  22. Steven P. Gygi
  23. Tony Wyss-Coray
  24. Marius Wernig
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Abstract

Microglial tiling—the phenomenon of consistent cell-to-cell distances and non-overlapping processes—is regarded as a qualitative indicator of homeostasis, but mechanisms of microglial tiling are unknown. We used cell-surface proximity labeling and mass spectrometry to profile the microglial cell-surface proteome in an in vitro model of homeostatic glial physiology and used single-cell RNA sequencing and public databases to identify candidate cell-surface proteins that might modulate tiling. We designed an image-based functional assay which measures six morphological/spatial readouts to screen these proteins for modulation of tiling. CD72, a coreceptor to the B cell receptor that is expressed by microglia, disrupted tiling; we validated its effects in vitro and in situ in organotypic hippocampal brain slices. Phosphoproteomic studies revealed that CD72 modulates pathways associated with cell adhesion, repulsive receptors, microglial activation, and cytoskeletal organization. These results lay the groundwork for further investigation of the functional roles of tiling in homeostasis and disease.

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  1. Version published to 10.1101/2025.06.02.657480v1 on bioRxiv