Your search keyword '"Parker, Christine A."' showing total 14 results

1. Quantitative Imaging of Regional Cerebral Protein Synthesis in Clinical Alzheimer's Disease by [11C]Leucine PET

Author

Herholz, Karl, McMahon, Adam, Thompson, Jennifer C., Jones, Matthew, Boutin, Herve, Gregory, Jamil, Parker, Christine A., and Hinz, Rainer

Published

2024

2. Quantitative Imaging of Regional Cerebral Protein Synthesis in Clinical Alzheimer's Disease by [11C]Leucine PET.

Author

Herholz, Karl, McMahon, Adam, Thompson, Jennifer C., Jones, Matthew, Boutin, Herve, Gregory, Jamil, Parker, Christine A., and Hinz, Rainer

Subjects

POSITRON emission tomography, PROTEIN synthesis, ALZHEIMER'S disease, ALZHEIMER'S patients, MEDIAN (Mathematics)

Abstract

Purpose: Protein synthesis is essential to maintain integrity and function of the human brain, and protein synthesis is associated specifically with the formation of long-term memory. Experimental and clinical observations indicate that this process is disturbed in Alzheimer's dementia and other neurodegenerative diseases. In-vivo investigation with positron emission tomography (PET) using [11C]leucine provides a unique possibility to measure regional cerebral protein synthesis (rCPS) rates in human brain and to determine whether it is altered in Alzheimer's disease (AD), and thus may provide a target for future therapeutic interventions. Procedures: In this first human study, we measured rCPS by [11C]leucine PET in four patients with AD (age 57–73 years) and compared the results with six healthy controls (three of whom were age matched and the other three were young controls). Quantification of rCPS also required measurement of amino acid (AA) levels and of free and protein-bound [11C]leucine in plasma during the 90 min PET scans conducted following at least six hours of fasting. Results: Rates of rCPS measured in absolute units of nmol/g/min ranged between 1.81 and 2.53 in AD patients, 2.10 and 2.54 in matched controls, and 2.21 to 2.35 in the young controls. Mean and median values did not show significant differences between the groups. Rates of rCPS also depended upon whether corrections for plasma AA levels were included in the calculations. When considering regional values relative to the corpus callosum as a reference region, there was a tendency towards impairment of rCPS in patients, which was most prominent in the parietal cortex, but did not reach significance. Similar findings were observed with normalisation of rCPS to global cortical mean. Conclusions: In summary, this first human study assessing regional protein synthesis with [11C]leucine in AD has demonstrated where the sources of variance in measurements of cerebral protein synthesis may arise, along with the potential magnitude of this variance. This study also indicates that there is a tendency towards impairment of rCPS in patients with Alzheimer's disease, which requires further investigation including possible partial volume effects due to atrophy. [ABSTRACT FROM AUTHOR]

Published

2024

3. First evaluation of PET-based human biodistribution and radiation dosimetry of 11C-BU99008, a tracer for imaging the imidazoline2 binding site

Author

Venkataraman, Ashwin V., Keat, Nicholas, Myers, James F., Turton, Samuel, Mick, Inge, Gunn, Roger N., Rabiner, Eugenii A., Passchier, Jan, Parker, Christine A., Tyacke, Robin J., and Nutt, David J.

Published

2018

4. Imidazoline-I2 PET Tracers in Neuroimaging.

Author

Parker, Christine A., Nutt, David J., and Tyacke, Robin J.

Subjects

*POSITRON emission tomography, *ALZHEIMER'S patients, *PARKINSON'S disease, *DISEASE progression

Abstract

Targeting neuroinflammation, and in particular, microglial activation and astrocytosis, is a current area of the focus of new treatment interventions for a number of neurodegenerative disorders. Probing the roles of microglia and astrocytes in human disease requires the development of useful tools, such as PET imaging tools that are specific for the cell type(s) of interest. This review concentrates on the recent advances in the development of Imidazoline2 binding site (I2BS) PET tracers, which are purported to target astrocytes, and hence could represent key clinical imaging tools for targeting astrocytes in neurodegenerative disease. Five PET tracers for the I2BS are described in this review, with only one (11C-BU99008) being currently validated to GMP for clinical use, and data reported from healthy volunteers, Alzheimer's disease patients, and Parkinson's disease patients. The clinical data utilising 11C-BU99008 have revealed the potential early involvement of astrogliosis in neurodegeneration that might precede the activation of microglia, which, if confirmed, could provide a vital new means for potentially targeting neurodegeneration earlier in the disease course. [ABSTRACT FROM AUTHOR]

Published

2023

5. Preclinical evaluation of [18F]FB-A20FMDV2 as a selective marker for measuring αVβ6 integrin occupancy using positron emission tomography in rodent lung.

Author

Onega, Mayca, Parker, Christine A., Coello, Christopher, Rizzo, Gaia, Keat, Nicholas, Ramada-Magalhaes, Joaquim, Moz, Sara, Tang, Sac-Pham, Plisson, Christophe, Wells, Lisa, Ashworth, Sharon, Slack, Robert J., Vitulli, Giovanni, Wilson, Frederick J., Gunn, Roger, Lukey, Pauline T., and Passchier, Jan

Subjects

*POSITRON emission tomography, *RODENTS, *INTEGRINS, *RADIOCHEMICAL purification, *FOOT & mouth disease

Abstract

Purpose: Integrin αvβ6 belongs to the RGD subset of the integrin family, and its expression levels are a prognostic and theranostic factor in some types of cancer and pulmonary fibrosis. This paper describes the GMP radiolabelling of the synthetic 20 amino acid peptide A20FMDV2 (NAVPNLRGDLQVLAQKVART), derived from the foot-and-mouth disease virus, and characterises the use of [18F]FB-A20FMDV2 as a high affinity, specific and selective PET radioligand for the quantitation and visualisation of αvβ6 in rodent lung to support human translational studies. Methods: The synthesis of [18F]FB-A20FMDV2 was performed using a fully automated and GMP-compliant process. Sprague-Dawley rats were used to perform homologous (unlabelled FB-A20FMDV2) and heterologous (anti-αvβ6 antibody 8G6) blocking studies. In order to generate a dosimetry estimate, tissue residence times were generated, and associated tissue exposure and effective dose were calculated using the Organ Level Internal Dose Assessment/Exponential Modelling (OLINDA/EXM) software. Results: [18F]FB-A20FMDV2 synthesis was accomplished in 180 min providing ~800 MBq of [18F]FB-A20FMDV2 with a molar activity of up to 150 GBq/μmol and high radiochemical purity (> 97%). Following i.v. administration to rats, [18F]FB-A20FMDV2 was rapidly metabolised with intact radiotracer representing 5% of the total radioactivity present in rat plasma at 30 min. For the homologous and heterologous block in rats, lung-to-heart SUV ratios at 30–60 min post-administration of [18F]FB-A20FMDV2 were reduced by 38.9 ± 6.9% and 56 ± 19.2% for homologous and heterologous block, respectively. Rodent biodistribution and dosimetry calculations using OLINDA/EXM provided a whole body effective dose in humans 33.5 μSv/MBq. Conclusion: [18F]FB-A20FMDV2 represents a specific and selective PET ligand to measure drug-associated αvβ6 integrin occupancy in lung. The effective dose, extrapolated from rodent data, is in line with typical values for compounds labelled with fluorine-18 and combined with the novel fully automated and GMP-compliant synthesis and allows for clinical use in translational studies. [ABSTRACT FROM AUTHOR]

Published

2020

6. Clinical quantification of the integrin αvβ6 by [18F]FB-A20FMDV2 positron emission tomography in healthy and fibrotic human lung (PETAL Study).

Author

Lukey, Pauline T., Coello, Christopher, Gunn, Roger, Parker, Christine, Wilson, Frederick J., Saleem, Azeem, Garman, Nadia, Costa, Maria, Kendrick, Stuart, Onega, Mayca, Kang'ombe, Arthur R., Listanco, Allan, Davies, James, Ramada-Magalhaes, Joaquim, Moz, Sara, Fahy, William A., Maher, Toby M., Jenkins, Gisli, Passchier, Jan, and Marshall, Richard P.

Subjects

POSITRON emission tomography, INTEGRINS, IDIOPATHIC pulmonary fibrosis, TRANSFORMING growth factors-beta, PULMONARY fibrosis, CONNECTIVE tissue diseases

Abstract

Purpose: The RGD-integrin, αvβ6, plays a role in the pathogenesis of pulmonary fibrosis through activation of transforming growth factor beta (TGFβ). This study sought to quantify expression of αvβ6 in the lungs of healthy humans and subjects with pulmonary fibrosis using the αvβ6-selective [18F]FB-A20FMDV2 PET ligand. Methods: [18F]FB-A20FMDV2 PET/CT scans were performed in healthy subjects and those with fibrotic lung disease. Standard uptake values (SUV) and volume of distribution (VT) were used to quantify αvβ6 expression. In subjects with fibrotic lung disease, qualitative assessment of the relationship between αvβ6 expression and the distribution of fibrosis on high resolution computed tomography was conducted. Results: A total of 15 participants (6 healthy, 7 with idiopathic pulmonary fibrosis (IPF) and 2 with connective tissue disease (CTD) associated PF) were enrolled. VT and SUV of [18F]FB-A20FMDV2 were increased in the lungs of subjects with pulmonary fibrosis (PF) compared with healthy subjects. Geometric mean VT (95% CI) was 0.88 (0.60, 1.29) mL/cm3 for healthy subjects, and 1.40 (1.22, 1.61) mL/cm3 for subjects with IPF; and SUV was 0.54 (0.36, 0.81) g/mL for healthy subjects and 1.03 (0.86, 1.22) g/mL for subjects with IPF. The IPF/healthy VT ratio (geometric mean, (95% CI of ratio)) was 1.59 (1.09, 2.32) (probability ratio > 1 = 0.988)) and the SUV ratio was 1.91 (1.27, 2.87) (probability ratio > 1 = 0.996). Increased uptake of [18F]FB-A20FMDV2 in PF was predominantly confined to fibrotic areas. [18F]FB-A20FMDV2 measurements were reproducible at an interval of 2 weeks. [18F]FB-A20FMDV2 was safe and well tolerated. Conclusions: Lung uptake of [18F]FB-A20FMDV2, a measure of expression of the integrin αvβ6, was markedly increased in subjects with PF compared with healthy subjects. [ABSTRACT FROM AUTHOR]

Published

2020

7. Imaging endogenous opioid peptide release with [11C]carfentanil and [3H]diprenorphine: influence of agonist-induced internalization.

Author

Quelch, Darren R, Katsouri, Loukia, Nutt, David J, Parker, Christine A, and Tyacke, Robin J

Subjects

OPIOID peptides, POSITRON emission tomography, NEUROTRANSMITTER antagonists, FENTANYL, AMPHETAMINES, METHADONE hydrochloride, DRUG administration, THERAPEUTICS

Abstract

Understanding the cellular processes underpinning the changes in binding observed during positron emission tomography neurotransmitter release studies may aid translation of these methodologies to other neurotransmitter systems. We compared the sensitivities of opioid receptor radioligands, carfentanil, and diprenorphine, to amphetamine-induced endogenous opioid peptide (EOP) release and methadone administration in the rat. We also investigated whether agonist-induced internalization was involved in reductions in observed binding using subcellular fractionation and confocal microscopy. After radioligand administration, significant reductions in [11C]carfentanil, but not [3H]diprenorphine, uptake were observed after methadone and amphetamine pretreatment. Subcellular fractionation and in vitro radioligand binding studies showed that amphetamine pretreatment only decreased total [11C]carfentanil binding. In vitro saturation binding studies conducted in buffers representative of the internalization pathway suggested that μ-receptors are significantly less able to bind the radioligands in endosomal compared with extracellular compartments. Finally, a significant increase in μ-receptor-early endosome co-localization in the hypothalamus was observed after amphetamine and methadone treatment using double-labeling confocal microscopy, with no changes in δ- or κ-receptor co-localization. These data indicate carfentanil may be superior to diprenorphine when imaging EOP release in vivo, and that alterations in the ability to bind internalized receptors may be a predictor of ligand sensitivity to endogenous neurotransmitter release. [ABSTRACT FROM AUTHOR]

Published

2014

8. Evaluation and initial in vitro and ex vivo characterization of the potential positron emission tomography ligand, BU99008 (2-(4,5-Dihydro-1 H-imidazol-2-yl)-1- methyl-1 H-indole), for the imidazoline2 binding site.

Author

Tyacke, Robin J., Fisher, Amy, Robinson, Emma S.J., Grundt, Peter, Turner, Emma M., Husbands, Stephen M., Hudson, Alan L., Parker, Christine A., and Nutt, David J.

Abstract

The density of the Imidazoline2 binding site (I2BS) has been shown to change in psychiatric conditions such as depression and addiction, along with neurodegenerative disorders such as Alzheimer's disease and Huntington's chorea. The presence of I2BS on glial cells and the possibility that they may in some way regulate glial fibrillary acidic protein has led to increased interest into the role of I2BS and I2BS ligands in conditions characterized by marked gliosis. In addition, it has been suggested that I2BS may be a marker for human glioblastomas. Therefore, the development of a positron emission tomography (PET) radioligand for the I2BS would be of major benefit in our understanding of these conditions. We now report the successful synthesis and initial pharmacological evaluation of potential PET radioligands for the I2BS as well as the tritiation and characterization of the most favorable of the series, BU99008 ( 6), both in vitro and ex vivo in rat. The series as a whole demonstrated excellent affinity and selectivity for the I2BS, with BU99008 ( 6) selected as the lead candidate to be taken forward for in vivo assessment. BU99008 ( 6) showed very good affinity for the I2BS ( Ki of 1.4 nM; Kd = 1.3 nM), good selectivity compared with the α2-adrenoceptor (909-fold). In addition, following peripheral administration, [3H]BU99008 demonstrated a heterogenous uptake into the rat brain consistent with the known distribution of the I2BS in vivo. This, and the amenability of BU99008 ( 6) to radiolabeling with a positron-emitting radioisotope, indicates its potential as a PET radioligand for imaging the I2BS in vivo. Synapse, 2012. © 2012 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2012

9. Combining PET biodistribution and equilibrium dialysis assays to assess the free brain concentration and BBB transport of CNS drugs.

Author

Gunn, Roger N, Summerfield, Scott G, Salinas, Cristian A, Read, Kevin D, Guo, Qi, Searle, Graham E, Parker, Christine A, Jeffrey, Phil, and Laruelle, Marc

Subjects

POSITRON emission tomography, BLOOD-brain barrier, DRUG development, P-glycoprotein, THERAPEUTICS, CENTRAL nervous system diseases, NEUROPROTECTIVE agents, MICRODIALYSIS

Abstract

The passage of drugs in and out of the brain is controlled by the blood-brain barrier (BBB), typically, using either passive diffusion across a concentration gradient or active transport via a protein carrier. In-vitro and preclinical measurements of BBB penetration do not always accurately predict the in-vivo situation in humans. Thus, the ability to assay the concentration of novel drug candidates in the human brain in vivo provides valuable information for derisking of candidate molecules early in drug development. Here, positron emission tomography (PET) measurements are combined with in-vitro equilibrium dialysis assays to enable assessment of transport and estimation of the free brain concentration in vivo. The PET and equilibrium dialysis data were obtained for 36 compounds in the pig. Predicted P-glycoprotein (P-gp) status of the compounds was consistent with the PET/equilibrium dialysis results. In particular, Loperamide, a well-known P-gp substrate, exhibited a significant concentration gradient consistent with active efflux and after inhibition of the P-gp process the gradient was removed. The ability to measure the free brain concentration and assess transport of novel compounds in the human brain with combined PET and equilibrium dialysis assays can be a useful tool in central nervous system (CNS) drug development. [ABSTRACT FROM AUTHOR]

Published

2012

10. An 18-kDa Translocator Protein (TSPO) polymorphism explains differences in binding affinity of the PET radioligand PBR28.

Author

Owen, David R, Yeo, Astrid J, Gunn, Roger N, Song, Kijoung, Wadsworth, Graham, Lewis, Andrew, Rhodes, Chris, Pulford, David J, Bennacef, Idriss, Parker, Christine A, StJean, Pamela L, Cardon, Lon R, Mooser, Vincent E, Matthews, Paul M, Rabiner, Eugenii A, and Rubio, Justin P

Subjects

CHROMOSOMAL translocation, GENETIC polymorphisms, PROTEIN binding, POSITRON emission tomography, LIGAND binding (Biochemistry), PHENOTYPES

Abstract

[11C]PBR28 binds the 18-kDa Translocator Protein (TSPO) and is used in positron emission tomography (PET) to detect microglial activation. However, quantitative interpretations of signal are confounded by large interindividual variability in binding affinity, which displays a trimodal distribution compatible with a codominant genetic trait. Here, we tested directly for an underlying genetic mechanism to explain this. Binding affinity of PBR28 was measured in platelets isolated from 41 human subjects and tested for association with polymorphisms in TSPO and genes encoding other proteins in the TSPO complex. Complete agreement was observed between the TSPO Ala147Thr genotype and PBR28 binding affinity phenotype (P value=3.1 × 10−13). The TSPO Ala147Thr polymorphism predicts PBR28 binding affinity in human platelets. As all second-generation TSPO PET radioligands tested hitherto display a trimodal distribution in binding affinity analogous to PBR28, testing for this polymorphism may allow quantitative interpretation of TSPO PET studies with these radioligands. [ABSTRACT FROM AUTHOR]

Published

2012

11. Two binding sites for [3H]PBR28 in human brain: implications for TSPO PET imaging of neuroinflammation.

Author

Owen, David R., Howell, Owain W., Tang, Sac-Pham, Wells, Lisa A., Bennacef, Idriss, Bergstrom, Mats, Gunn, Roger N., Rabiner, Eugenii A., Wilkins, Martin R., Reynolds, Richard, Matthews, Paul M., and Parker, Christine A.

Subjects

RADIOLIGAND assay, BINDING sites, BIOCHEMISTRY, POSITRON emission tomography, BRAIN imaging, BRAIN research

Abstract

[11C]PBR28, a radioligand targeting the translocator protein (TSPO), does not produce a specific binding signal in approximately 14% of healthy volunteers. This phenomenon has not been reported for [11C]PK11195, another TSPO radioligand. We measured the specific binding signals with [3H]PK11195 and [3H]PBR28 in brain tissue from 22 donors. Overall, 23% of the samples did not generate a visually detectable specific autoradiographic signal with [3H]PBR28, although all samples showed [3H]PK11195 binding. There was a marked reduction in the affinity of [3H]PBR28 for TSPO in samples with no visible [3H]PBR28 autoradiographic signal (Ki=188±15.6 nmol/L), relative to those showing normal signal (Ki=3.4±0.5 nmol/L, P<0.001). Of this latter group, [3H]PBR28 bound with a two-site fit in 40% of cases, with affinities (Ki) of 4.0±2.4 nmol/L (high-affinity site) and 313±77 nmol/L (low-affinity site). There was no difference in Kd or Bmax for [3H]PK11195 in samples showing no [3H]PBR28 autoradiographic signal relative to those showing normal [3H]PBR28 autoradiographic signal. [3H]PK11195 bound with a single site for all samples. The existence of three different binding patterns with PBR28 (high-affinity binding (46%), low-affinity binding (23%), and two-site binding (31%)) suggests that a reduction in [11C]PBR28 binding may not be interpreted simply as a reduction in TSPO density. The functional significance of differences in binding characteristics warrants further investigation. [ABSTRACT FROM AUTHOR]

Published

2010

12. PET studies in drug development: Methodological considerations.

Author

Cunningham, Vincent J., Parker, Christine A., Rabiner, Eugenii A., Gee, Antony D., and Gunn, Roger N.

Subjects

DRUG development, POSITRON emission tomography, MEDICAL imaging systems, MEDICAL research

Abstract

Positron emission tomography (PET), as an in vivo pharmacological imaging tool in experimental medicine, is playing an increasing role in drug development. There are two areas where PET is particularly useful in this respect, namely biodistribution and drug occupancy studies. Radiotracer design, the properties of the molecular targets which can be studied and the quantitative estimation of pharmacological endpoints will be discussed in relation to these applications, with particular reference to studies in brain. [Copyright &y& Elsevier]

Published

2005

13. First evaluation of PET-based human biodistribution and radiation dosimetry of 11C-BU99008, a tracer for imaging the imidazoline2 binding site.

Author

Venkataraman, Ashwin V., Keat, Nicholas, Myers, James F., Turton, Samuel, Mick, Inge, Gunn, Roger N., Rabiner, Eugenii A., Passchier, Jan, Parker, Christine A., Tyacke, Robin J., and Nutt, David J.

Subjects

POSITRON emission tomography, RADIATION dosimetry, IMIDAZOLINES, TRACERS (Biology), BINDING sites

Abstract

Background: We measured whole body distribution of 11C-BU99008, a new PET biomarker for non-invasive identification of the imidazoline2 binding site. The purpose of this phase I study was to evaluate the biodistribution and radiation dosimetry of 11C-BU99008 in healthy human subjects.Methods: A single bolus injection of 11C-BU99008 (296 ± 10.5 MBq) was administered to four healthy subjects who underwent whole-body PET/CT over 120 min from the cranial vertex to the mid-thigh. Volumes of interest were drawn around visually identifiable source organs to generate time-activity curves (TAC). Residence times were determined from time-activity curves. Absorbed doses to individual organs and the whole body effective dose were calculated using OLINDA/EXM 1.1 for each subject.Results: The highest measured activity concentration was in the kidney and spleen. The longest residence time was in the muscle at 0.100 ± 0.023 h, followed by the liver at 0.067 ± 0.015 h and lungs at 0.052 ± 0.010 h. The highest mean organ absorbed dose was within the heart wall (0.028 ± 0.002 mGy/MBq), followed by the kidneys (0.026 ± 0.005 mGy/MBq). The critical organ was the heart wall. The total mean effective dose averaged over subjects was estimated to be 0.0056 ± 0.0004 mSv/MBq for an injection of 11C-BU99008.Conclusions: The biodistribution of 11C-BU99008 has been shown here for the first time in humans. Our dosimetry data showed the total mean effective dose over all subjects was 0.0056 ± 0.0004 mSv/MBq, which would result in a total effective dose of 1.96 mSv for a typical injection of 350 MBq of 11C-BU99008. The effective dose is not appreciably different from those obtained with other 11C tracers. [ABSTRACT FROM AUTHOR]

Published

2018

14. Resolving the cellular specificity of TSPO imaging in a rat model of peripherally-induced neuroinflammation.

Author

Vicente-Rodríguez, Marta, Singh, Nisha, Turkheimer, Federico, Peris-Yague, Alba, Randall, Karen, Veronese, Mattia, Simmons, Camilla, Karim Haji-Dheere, Abdul, Bordoloi, Jayanta, Sander, Kerstin, Awais, Ramla O., Årstad, Erik, NIMA Consortium, Cash, Diana, and Parker, Christine A.

Subjects

*ANIMAL disease models, *NEUROINFLAMMATION, *POSITRON emission tomography, *CD14 antigen, *FRACTALKINE, *FLUORESCENCE in situ hybridization, *CENTRAL nervous system

Abstract

• [18F]DPA-714 PET showed an increased brain signal following peripheral LPS challenge. • The cellular origin of TSPO signal appears to depend on the brain region examined. • TSPO signal increase in the hippocampus arises from microglia and astrocytes. • Microglia, macrophages and astrocytes are the main contributors in the substantia nigra. • Macrophages and microglial cells expressing TSPO are distinguished by RNAscope. The increased expression of 18 kDa Translocator protein (TSPO) is one of the few available biomarkers of neuroinflammation that can be assessed in humans in vivo by positron emission tomography (PET). TSPO PET imaging of the central nervous system (CNS) has been widely undertaken, but to date no clear consensus has been reached about its utility in brain disorders. One reason for this could be because the interpretation of TSPO PET signal remains challenging, given the cellular heterogeneity and ubiquity of TSPO in the brain. The aim of the current study was to ascertain if TSPO PET imaging can be used to detect neuroinflammation induced by a peripheral treatment with a low dose of the endotoxin, lipopolysaccharide (LPS), in a rat model (ip LPS), and investigate the origin of TSPO signal changes in terms of their cellular sources and regional distribution. An initial pilot study utilising both [18F]DPA-714 and [11C]PK11195 TSPO radiotracers demonstrated [18F]DPA-714 to exhibit a significantly higher lesion-related signal in the intracerebral LPS rat model (ic LPS) than [11C]PK11195. Subsequently, [18F]DPA-714 was selected for use in the ip LPS study. Twenty-four hours after ip LPS, there was an increased uptake of [18F]DPA-714 across the whole brain. Further analyses of regions of interest, using immunohistochemistry and RNAscope Multiplex fluorescence V2 in situ hybridization technology, showed TSPO expression in microglia, monocyte derived-macrophages, astrocytes, neurons and endothelial cells. The expression of TSPO was significantly increased after ip LPS in a region-dependent manner: with increased microglia, monocyte-derived macrophages and astrocytes in the substantia nigra, in contrast to the hippocampus where TSPO was mostly confined to microglia and astrocytes. In summary, our data demonstrate the robust detection of peripherally-induced neuroinflammation in the CNS utilising the TSPO PET radiotracer, [18F]DPA-714, and importantly, confirm that the resultant increase in TSPO signal increase arises mostly from a combination of microglia, astrocytes and monocyte-derived macrophages. [ABSTRACT FROM AUTHOR]

Published

2021