4.4 Article

Ackr3-Venus knock-in mouse lights up brain vasculature

Journal

MOLECULAR BRAIN
Volume 14, Issue 1, Pages -

Publisher

BMC
DOI: 10.1186/s13041-021-00862-y

Keywords

CXCR7; GPCR; Signaling; G protein; beta arrestin; GABA; Endothelial cells

Categories

Funding

  1. Consortium Quebecois de Decouverte de Medicaments
  2. Region Alsace/Biovalley
  3. FEDER
  4. National Institute of Health (National Institute of Drug Abuse) [DA05010]
  5. Canadian Institute for Health Research [MOP11215, FDN148431]
  6. Canada Fund for Innovation

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Researchers have generated Ackr3-Venus knock-in mice to track the ACKR3 receptor, enabling direct detection of the receptor under physiological conditions and revealing its expression patterns in the brain.
The atypical chemokine receptor 3, ACKR3, is a G protein-coupled receptor, which does not couple to G proteins but recruits beta arrestins. At present, ACKR3 is considered a target for cancer and cardiovascular disorders, but less is known about the potential of ACKR3 as a target for brain disease. Further, mouse lines have been created to identify cells expressing the receptor, but there is no tool to visualize and study the receptor itself under physiological conditions. Here, we engineered a knock-in (KI) mouse expressing a functional ACKR3-Venus fusion protein to directly detect the receptor, particularly in the adult brain. In HEK-293 cells, native and fused receptors showed similar membrane expression, ligand induced trafficking and signaling profiles, indicating that the Venus fusion does not alter receptor signaling. We also found that ACKR3-Venus enables direct real-time monitoring of receptor trafficking using resonance energy transfer. In ACKR3-Venus knock-in mice, we found normal ACKR3 mRNA levels in the brain, suggesting intact gene transcription. We fully mapped receptor expression across 14 peripheral organs and 112 brain areas and found that ACKR3 is primarily localized to the vasculature in these tissues. In the periphery, receptor distribution aligns with previous reports. In the brain there is notable ACKR3 expression in endothelial vascular cells, hippocampal GABAergic interneurons and neuroblast neighboring cells. In conclusion, we have generated Ackr3-Venus knock-in mice with a traceable ACKR3 receptor, which will be a useful tool to the research community for interrogations about ACKR3 biology and related diseases.

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