Cholinergic PET imaging in infections and inflammation using 11 C-donepezil and 18 F-FEOBV

Immune cells utilize acetylcholine as a paracrine-signaling molecule. Many white blood cells express components of the cholinergic signaling pathway, and these are up-regulated when immune cells are activated. However, in vivo molecular imaging of cholinergic signaling in the context of inflammation...

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Veröffentlicht in:	European journal of nuclear medicine and molecular imaging 2017-03, Vol.44 (3), p.449
Hauptverfasser:	Jørgensen, Nis Pedersen, Alstrup, Aage K O, Mortensen, Frank V, Knudsen, Karoline, Jakobsen, Steen, Madsen, Line Bille, Bender, Dirk, Breining, Peter, Petersen, Mikkel Steen, Schleimann, Mariane Høgsberg, Dagnæs-Hansen, Frederik, Gormsen, Lars C, Borghammer, Per
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Schlagworte:	Acetylcholinesterase - metabolism Adult Aged Animals Carbon Radioisotopes Carcinoma, Non-Small-Cell Lung - diagnostic imaging Carcinoma, Renal Cell - diagnostic imaging Cholinesterase Inhibitors - pharmacokinetics Female Fluorodeoxyglucose F18 Humans Indans - pharmacokinetics Kidney Neoplasms - diagnostic imaging Lung Neoplasms - diagnostic imaging Magnetic Resonance Imaging Male Mice Mice, Inbred C57BL Middle Aged Piperidines - pharmacokinetics Positron Emission Tomography Computed Tomography Radiopharmaceuticals - pharmacokinetics Staphylococcal Infections - diagnostic imaging Swine Vesicular Acetylcholine Transport Proteins - metabolism
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creator	Jørgensen, Nis Pedersen Alstrup, Aage K O Mortensen, Frank V Knudsen, Karoline Jakobsen, Steen Madsen, Line Bille Bender, Dirk Breining, Peter Petersen, Mikkel Steen Schleimann, Mariane Høgsberg Dagnæs-Hansen, Frederik Gormsen, Lars C Borghammer, Per
description	Immune cells utilize acetylcholine as a paracrine-signaling molecule. Many white blood cells express components of the cholinergic signaling pathway, and these are up-regulated when immune cells are activated. However, in vivo molecular imaging of cholinergic signaling in the context of inflammation has not previously been investigated. We performed positron emission tomography (PET) using the glucose analogue 18F-FDG, and 11C-donepezil and 18F-FEOBV, markers of acetylcholinesterase and the vesicular acetylcholine transporter, respectively. Mice were inoculated subcutaneously with Staphylococcus aureus, and PET scanned at 24, 72, 120, and 144 h post-inoculation. Four pigs with post-operative abscesses were also imaged. Finally, we present initial data from human patients with infections, inflammation, and renal and lung cancer. In mice, the FDG uptake in abscesses peaked at 24 h and remained stable. The 11C-donepezil and 18F-FEOBV uptake displayed progressive increase, and at 120-144 h was nearly at the FDG level. Moderate 11C-donepezil and slightly lower 18F-FEOBV uptake were seen in pig abscesses. PCR analyses suggested that the 11C-donepezil signal in inflammatory cells is derived from both acetylcholinesterase and sigma-1 receptors. In humans, very high 11C-donepezil uptake was seen in a lobar pneumonia and in peri-tumoral inflammation surrounding a non-small cell lung carcinoma, markedly superseding the 18F-FDG uptake in the inflammation. In a renal clear cell carcinoma no 11C-donepezil uptake was seen. The time course of cholinergic tracer accumulation in murine abscesses was considerably different from 18F-FDG, demonstrating in the 11C-donepezil and 18F-FEOBV image distinct aspects of immune modulation. Preliminary data in humans strongly suggest that 11C-donepezil can exhibit more intense accumulation than 18F-FDG at sites of chronic inflammation. Cholinergic PET imaging may therefore have potential applications for basic research into cholinergic mechanisms of immune modulation, but also clinical applications for diagnosing infections, inflammatory disorders, and cancer inflammation.
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Many white blood cells express components of the cholinergic signaling pathway, and these are up-regulated when immune cells are activated. However, in vivo molecular imaging of cholinergic signaling in the context of inflammation has not previously been investigated. We performed positron emission tomography (PET) using the glucose analogue 18F-FDG, and 11C-donepezil and 18F-FEOBV, markers of acetylcholinesterase and the vesicular acetylcholine transporter, respectively. Mice were inoculated subcutaneously with Staphylococcus aureus, and PET scanned at 24, 72, 120, and 144 h post-inoculation. Four pigs with post-operative abscesses were also imaged. Finally, we present initial data from human patients with infections, inflammation, and renal and lung cancer. In mice, the FDG uptake in abscesses peaked at 24 h and remained stable. The 11C-donepezil and 18F-FEOBV uptake displayed progressive increase, and at 120-144 h was nearly at the FDG level. Moderate 11C-donepezil and slightly lower 18F-FEOBV uptake were seen in pig abscesses. PCR analyses suggested that the 11C-donepezil signal in inflammatory cells is derived from both acetylcholinesterase and sigma-1 receptors. In humans, very high 11C-donepezil uptake was seen in a lobar pneumonia and in peri-tumoral inflammation surrounding a non-small cell lung carcinoma, markedly superseding the 18F-FDG uptake in the inflammation. In a renal clear cell carcinoma no 11C-donepezil uptake was seen. The time course of cholinergic tracer accumulation in murine abscesses was considerably different from 18F-FDG, demonstrating in the 11C-donepezil and 18F-FEOBV image distinct aspects of immune modulation. Preliminary data in humans strongly suggest that 11C-donepezil can exhibit more intense accumulation than 18F-FDG at sites of chronic inflammation. 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Moderate 11C-donepezil and slightly lower 18F-FEOBV uptake were seen in pig abscesses. PCR analyses suggested that the 11C-donepezil signal in inflammatory cells is derived from both acetylcholinesterase and sigma-1 receptors. In humans, very high 11C-donepezil uptake was seen in a lobar pneumonia and in peri-tumoral inflammation surrounding a non-small cell lung carcinoma, markedly superseding the 18F-FDG uptake in the inflammation. In a renal clear cell carcinoma no 11C-donepezil uptake was seen. The time course of cholinergic tracer accumulation in murine abscesses was considerably different from 18F-FDG, demonstrating in the 11C-donepezil and 18F-FEOBV image distinct aspects of immune modulation. Preliminary data in humans strongly suggest that 11C-donepezil can exhibit more intense accumulation than 18F-FDG at sites of chronic inflammation. Cholinergic PET imaging may therefore have potential applications for basic research into cholinergic mechanisms of immune modulation, but also clinical applications for diagnosing infections, inflammatory disorders, and cancer inflammation.</description><subject>Acetylcholinesterase - metabolism</subject><subject>Adult</subject><subject>Aged</subject><subject>Animals</subject><subject>Carbon Radioisotopes</subject><subject>Carcinoma, Non-Small-Cell Lung - diagnostic imaging</subject><subject>Carcinoma, Renal Cell - diagnostic imaging</subject><subject>Cholinesterase Inhibitors - pharmacokinetics</subject><subject>Female</subject><subject>Fluorodeoxyglucose F18</subject><subject>Humans</subject><subject>Indans - pharmacokinetics</subject><subject>Kidney Neoplasms - diagnostic imaging</subject><subject>Lung Neoplasms - diagnostic imaging</subject><subject>Magnetic Resonance Imaging</subject><subject>Male</subject><subject>Mice</subject><subject>Mice, Inbred C57BL</subject><subject>Middle Aged</subject><subject>Piperidines - pharmacokinetics</subject><subject>Positron Emission Tomography Computed Tomography</subject><subject>Radiopharmaceuticals - pharmacokinetics</subject><subject>Staphylococcal Infections - diagnostic imaging</subject><subject>Swine</subject><subject>Vesicular Acetylcholine Transport Proteins - metabolism</subject><issn>1619-7089</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpjYuA0NDO01DU3sLDkYOAqLs4yMDC0MLKwZGfgMDI3tzA1NbbgZIhyzsjPycxLLUrPTFYIcA1RyMxNTM_MS1fIzAOitNTkksz8vGKFxLwUEDcnMTc3ESSiUFoMUmRoqOCsm5Kfl1qQWpWZA1ZlaKHgpuvm6u8UxsPAmpaYU5zKC6W5GeTcXEOcPXQLSpNyU1PiC4qAdhVVxsMcY0xQAQCe_j3w</recordid><startdate>201703</startdate><enddate>201703</enddate><creator>Jørgensen, Nis Pedersen</creator><creator>Alstrup, Aage K O</creator><creator>Mortensen, Frank V</creator><creator>Knudsen, Karoline</creator><creator>Jakobsen, Steen</creator><creator>Madsen, Line Bille</creator><creator>Bender, Dirk</creator><creator>Breining, Peter</creator><creator>Petersen, Mikkel Steen</creator><creator>Schleimann, Mariane Høgsberg</creator><creator>Dagnæs-Hansen, Frederik</creator><creator>Gormsen, Lars C</creator><creator>Borghammer, Per</creator><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><orcidid>https://orcid.org/0000-0001-6391-8052</orcidid></search><sort><creationdate>201703</creationdate><title>Cholinergic PET imaging in infections and inflammation using 11 C-donepezil and 18 F-FEOBV</title><author>Jørgensen, Nis Pedersen ; 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Many white blood cells express components of the cholinergic signaling pathway, and these are up-regulated when immune cells are activated. However, in vivo molecular imaging of cholinergic signaling in the context of inflammation has not previously been investigated. We performed positron emission tomography (PET) using the glucose analogue 18F-FDG, and 11C-donepezil and 18F-FEOBV, markers of acetylcholinesterase and the vesicular acetylcholine transporter, respectively. Mice were inoculated subcutaneously with Staphylococcus aureus, and PET scanned at 24, 72, 120, and 144 h post-inoculation. Four pigs with post-operative abscesses were also imaged. Finally, we present initial data from human patients with infections, inflammation, and renal and lung cancer. In mice, the FDG uptake in abscesses peaked at 24 h and remained stable. The 11C-donepezil and 18F-FEOBV uptake displayed progressive increase, and at 120-144 h was nearly at the FDG level. Moderate 11C-donepezil and slightly lower 18F-FEOBV uptake were seen in pig abscesses. PCR analyses suggested that the 11C-donepezil signal in inflammatory cells is derived from both acetylcholinesterase and sigma-1 receptors. In humans, very high 11C-donepezil uptake was seen in a lobar pneumonia and in peri-tumoral inflammation surrounding a non-small cell lung carcinoma, markedly superseding the 18F-FDG uptake in the inflammation. In a renal clear cell carcinoma no 11C-donepezil uptake was seen. The time course of cholinergic tracer accumulation in murine abscesses was considerably different from 18F-FDG, demonstrating in the 11C-donepezil and 18F-FEOBV image distinct aspects of immune modulation. Preliminary data in humans strongly suggest that 11C-donepezil can exhibit more intense accumulation than 18F-FDG at sites of chronic inflammation. Cholinergic PET imaging may therefore have potential applications for basic research into cholinergic mechanisms of immune modulation, but also clinical applications for diagnosing infections, inflammatory disorders, and cancer inflammation.</abstract><cop>Germany</cop><pmid>27785538</pmid><orcidid>https://orcid.org/0000-0001-6391-8052</orcidid></addata></record>
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subjects	Acetylcholinesterase - metabolism Adult Aged Animals Carbon Radioisotopes Carcinoma, Non-Small-Cell Lung - diagnostic imaging Carcinoma, Renal Cell - diagnostic imaging Cholinesterase Inhibitors - pharmacokinetics Female Fluorodeoxyglucose F18 Humans Indans - pharmacokinetics Kidney Neoplasms - diagnostic imaging Lung Neoplasms - diagnostic imaging Magnetic Resonance Imaging Male Mice Mice, Inbred C57BL Middle Aged Piperidines - pharmacokinetics Positron Emission Tomography Computed Tomography Radiopharmaceuticals - pharmacokinetics Staphylococcal Infections - diagnostic imaging Swine Vesicular Acetylcholine Transport Proteins - metabolism
title	Cholinergic PET imaging in infections and inflammation using 11 C-donepezil and 18 F-FEOBV
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