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Ayata, P., Badimon, A., Strasburger, H.J., Duff, M.K., Montgomery, S.E., Loh, Y.H., Ebert, A., Pimenova, A.A., Ramirez, B.R., Chan, A.T., Sullivan, J.M., Purushothaman, I., Scarpa, J.R., Goate, A.M., Busslinger, M., Shen, L., Losic, B. and Schaefer, A. (2018) Epigenetic Regulation of Brain Region-Specific Microglia Clearance Activity. Nature Neuroscience, 21, 1049-1060.
https://doi.org/10.1038/s41593-018-0192-3
has been cited by the following article:
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TITLE:
Small-Molecule Ligands as Challenge for Positron Emission Tomography of Peptide Receptors in Neurons and Microglia of the Brain
AUTHORS:
Margit Pissarek
KEYWORDS:
Positron Emisson Tomography, Brain, Small-Molecule Ligand, Peptide Receptors, Neuron, Microglia
JOURNAL NAME:
World Journal of Neuroscience,
Vol.9 No.4,
November
29,
2019
ABSTRACT: Neuropeptide and chemokine receptors of the G protein-coupled receptor (GPCR) family belong to different classes and subgroups providing different docking sites and special binding behavior at extracellular and also transmembrane domains for small molecules potentially suitable for positron emission tomography (PET). The contribution gives an overview updating developments of small-molecule, nonpeptide ligands at a selection of peptide and chemokine receptors, expressed in neurons and microglia of the brain, regarding the last five years. Orexin 1 and orexin 2 receptors (OX1R; OX2R) and neuropeptide Y1 and Y2 receptors (NPY1R, NPY2R) were chosen as representatives of Class A neuropeptide receptors, chemokine receptor CX3C (CX3CR1) as Class A, protein-activated receptor, highly expressed in activated microglia, and corticotropin releasing factor receptor 1 (CRFR1) as representative Class B1 receptor. Structural differences between binding domains and their endogenous ligands as well as parallel expression in different types of cells and generally low density of these receptors in brain tissue are factors making the search for selective and sensitive ligands more difficult than for classical GPCR receptors. Main progress in ligand development is observed for NPY receptor antagonists and orexin receptor antagonists. For orexin receptors, search for suitable ligands can be supported with modelling approaches, as recently the complete molecular structure of these receptors is available. Small molecules, binding at CRFR1, as for other Class B1 receptor ligands, in PET and investigations of pharmacodynamics revealed rather allosteric binding modes, although, the complete crystal structure of CRFR1 as prototype of Class B1 provides, hitherto, improved possibilities for understanding binding mechanisms. Highly specific as a marker of microglia amongthe GPCRs, CX3CR1 is focused as target of PET during inflammation of brain and spinal cord.
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