Chimeric GPCRs mimic distinct signaling pathways and modulate microglia responses
Schulz R, Korkut M, Venturino A, Colombo G, Siegert S. 2022. Chimeric GPCRs mimic distinct signaling pathways and modulate microglia responses. Nature Communications. 13, 4728.
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Abstract
G protein-coupled receptors (GPCRs) regulate processes ranging from immune responses to neuronal signaling. However, ligands for many GPCRs remain unknown, suffer from off-target effects or have poor bioavailability. Additionally, dissecting cell type-specific responses is challenging when the same GPCR is expressed on different cells within a tissue. Here, we overcome these limitations by engineering DREADD-based GPCR chimeras that bind clozapine-N-oxide and mimic a GPCR-of-interest. We show that chimeric DREADD-β2AR triggers responses comparable to β2AR on second messenger and kinase activity, post-translational modifications, and protein-protein interactions. Moreover, we successfully recapitulate β2AR-mediated filopodia formation in microglia, an immune cell capable of driving central nervous system inflammation. When dissecting microglial inflammation, we included two additional DREADD-based chimeras mimicking microglia-enriched GPR65 and GPR109A. DREADD-β2AR and DREADD-GPR65 modulate the inflammatory response with high similarity to endogenous β2AR, while DREADD-GPR109A shows no impact. Our DREADD-based approach allows investigation of cell type-dependent pathways without known endogenous ligands.
Publishing Year
Date Published
2022-08-15
Journal Title
Nature Communications
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Springer Nature
Acknowledgement
The authors thank the Scientific Service Units at ISTA, in particular the Molecular Biology Service of the Lab Support Facility, Imaging & Optics Facility, and the Preclinical Facility, and the Novarino group, Harald Janoviak, and Marco Benevento for sharing reagents and expertise. This research was supported by a DOC Fellowship (24979) awarded to R.S. by the Austrian Academy of Sciences.
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13
Article Number
4728
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IST-REx-ID
Cite this
Schulz R, Korkut M, Venturino A, Colombo G, Siegert S. Chimeric GPCRs mimic distinct signaling pathways and modulate microglia responses. Nature Communications. 2022;13. doi:10.1038/s41467-022-32390-1
Schulz, R., Korkut, M., Venturino, A., Colombo, G., & Siegert, S. (2022). Chimeric GPCRs mimic distinct signaling pathways and modulate microglia responses. Nature Communications. Springer Nature. https://doi.org/10.1038/s41467-022-32390-1
Schulz, Rouven, Medina Korkut, Alessandro Venturino, Gloria Colombo, and Sandra Siegert. “Chimeric GPCRs Mimic Distinct Signaling Pathways and Modulate Microglia Responses.” Nature Communications. Springer Nature, 2022. https://doi.org/10.1038/s41467-022-32390-1.
R. Schulz, M. Korkut, A. Venturino, G. Colombo, and S. Siegert, “Chimeric GPCRs mimic distinct signaling pathways and modulate microglia responses,” Nature Communications, vol. 13. Springer Nature, 2022.
Schulz R, Korkut M, Venturino A, Colombo G, Siegert S. 2022. Chimeric GPCRs mimic distinct signaling pathways and modulate microglia responses. Nature Communications. 13, 4728.
Schulz, Rouven, et al. “Chimeric GPCRs Mimic Distinct Signaling Pathways and Modulate Microglia Responses.” Nature Communications, vol. 13, 4728, Springer Nature, 2022, doi:10.1038/s41467-022-32390-1.
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