期刊
JOURNAL OF NUCLEAR MEDICINE
卷 55, 期 3, 页码 466-472出版社
SOC NUCLEAR MEDICINE INC
DOI: 10.2967/jnumed.113.125625
关键词
neuroinflammation; positron emission tomography; second-generation TSPO ligand; brain; astrocyte
资金
- Academy of Finland
- Biocentre Finland
- GE Healthcare, Ltd.
- European Union [HEALTH-F2-2011-278850]
It remains unclear how different translocator protein (TSPO) ligands reflect the spatial extent of astrocyte or microglial activation in various neuroinflammatory conditions. Here, we use a reproducible lipopolysaccharide (LPS)-induced model of acute central nervous system inflammation to compare the binding performance of a new TSPO ligand F-18-GE-180 with C-11-(R)-PK11195. Using immunohistochemistry, we also explore the ability of the TSPO ligands to detect activated microglial cells and astrocytes. Methods: Lewis rats (n = 30) were microinjected with LPS (1 or 10 mu g) or saline (1 mu L) into the left striatum. The animals were imaged in vivo at 16 h after the injection using PET radiotracers F-18-GE-180 or C-11-(R)-PK11195 (n = 3 in each group) and were killed afterward for autoradiography of the brain. Immunohistochemical assessment of OX-42 and glial fibrillary acidic protein (GFAP) was performed to identify activated microglial cells and reactive astrocytes. Results: In vivo PET imaging revealed an increase in the ipsilateral TSPO binding, compared with binding in the contralateral hemisphere, after the microinjection of 10 mu g of LPS. No increase was observed with vehicle. By autoradiography, the TSPO radiotracer binding potential in the injected hemisphere was increased after striatal injection of 1 or 10 mu g of LPS. However, the significant increase was observed only when using F-18-GE-180. The area of CD11b-expressing microglial cells extended beyond that of enhanced GFAP staining and mapped more closely to the extent of F-18-GE-180 binding than to C-11-(R)-PK11195 binding. The signal from either PET ligand was significantly increased in regions of increased GFAP immunoreactivity and OX-42 colocalization, meaning that the presence of both activated microglia and astrocytes in a given area leads to increased binding of the TSPO radiotracers. Conclusion: F-18-GE-180 is able to reveal sites of activated microglia in both gray and white matter. However, the signal is increased by the presence of activated astrocytes. Therefore, F-18-GE-180 is a promising new fluorinated longer-half-life tracer that reveals the presence of activated microglia in a manner that is superior to C-11-(R)-PK11195 due to the higher binding potential observed for this ligand.
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