Browsing by Author "Berghofer, PJ"
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- ItemAssessment of neuroinflammation in transferred EAE via a translocator protein ligand(IntechOpen, 2012-02-03) Mattner, F; Staykova, M; Callaghan, PD; Berghofer, PJ; Ballantyne, P; Grégoire, MC; Fordham, S; Pham, TQ; Rahardjo, GL; Jackson, TW; Linares, D; Katsifis, ANeuroinflammation is involved in the pathogenesis and progression of neurological disorders such as Alzheimer's disease and multiple sclerosis (MS) (Doorduin et al., 2008). MS has been considered a T cell-mediated autoimmune disorder of the central nervous system (CNS), characterized by inflammatory cell infiltration and myelin destruction (Hauser et al., 1986) and focal demyelinated lesions in the white matter are the traditional hallmarks of MS. However more recent evidence suggests more widespread damage to the brain and spinal cord, to areas of white matter distant from the inflammatory lesions and demyelination of deep and cortical grey matter (McFarland & Martin, 2007). Experimental autoimmune encephalomyelitis (EAE) is an extensively used model of T-cell mediated CNS inflammation; modelling disease processes involved in MS. EAE can be induced in several species by immunization with myelin antigens or via adoptive transfer of myelin-reactive T cells. The models of EAE in rodents [actively induced and transferred] provide information about different phases [inflammation, demyelination and remyelination] and types [monophasic, chronic-relapsing and chronic-progressive] of the human disease multiple sclerosis and a vast amount of clinical and histopathologic data has been accumulated through the decades. A key aim of current investigations is developing the ability to recognise the early symptoms of the disease and to follow its course and response to treatment. Molecular imaging is a rapidly evolving field of research that involves the evaluation of biochemical and physiological processes utilising specific, radioactive, fluorescent and magnetic resonance imaging probes. However, it is positron emission tomography (PET) and single photon emission computer tomography (SPECT) which, due to their exquisite sensitivity involving specifically designed radiolabelled molecules, that is leading the way in molecular imaging and has greatly enabled the non-invasive “visualisation” of many diseases in both animal models and humans. Furthermore, PET and SPECT molecular imaging are providing invaluable imaging data based on a biochemical-molecular biology interaction rather than from the traditional anatomical view. Increasingly, PET and SPECT radiotracers have been exploited to study or identify molecular biomarkers of disease, monitor disease progression, determining the effects of a drug on a particular pathology and assess the pharmacokinetic behaviour of pharmaceuticals in vivo. Significantly, these new imaging systems provide investigators with an unprecedented ability to examine and measure in vivo biological and pharmacological processes over time in the same animals thus reducing experimental variability, time and costs. Molecular imaging based on the radiotracer principle allows chemical processes ranging from cellular events, to cellular communication and interaction in their environment, to the organisation and function of complete tissue and organs to be studied in real time without perturbation. One of the key benefits of molecular imaging is a technique that allows longitudinal studies vital for monitoring intra-individual progression in disease, or regression with supplementary pharmacotherapies. This is key in animal models of diseases such as MS, where there is significant intra-individual variability in the disease course and severity. Recent investigations have proposed the translocator protein (TSPO; 18 kDa), also known as the peripheral benzodiazepine receptor (PBR), as a molecular target for imaging neuroinflammation (Chen & Guilarte, 2008; Doorduin et al., 2008; Papadopoulos et al., 2006). TSPO (18 kDa) is a multimeric protein consisting of five transmembrane helices, which, in association with a 32 kDa subunit that functions as a voltage dependent anion channel and a 30 kDa subunit that functions as an adenine nucleotide carrier forms part of a hetero-oligomeric complex (McEnery et al., 1992) responsible for cholesterol, heme and calcium transport in specific tissue. TSPO is primarily located on the outer mitochondrial membrane and is predominantly expressed in visceral organs (kidney, heart) and the steroid hormone producing cells of the adrenal cortex, testis and ovaries. In the central nervous system (CNS), TSPO is sparsely expressed under normal physiological conditions, however its expression is significantly upregulated following CNS injury (Chen et al., 2004; Papadopoulos et al., 1997; Venneti et al., 2006; Venneti, et al., 2008). Several studies have identified activated glial cells as the cells responsible for TSPO upregulation in inflamed brain tissue, both in humans and in experimental models (Mattner et al., 2011; Myers et al., 1991a; Stephenson et al., 1995; Vowinckel et al., 1997) and the TSPO ligand [11C]-PK11195 was one of the first PET ligands used for imaging activated microglia in various neurodegenerative diseases (Venneti et al., 2006). Although [11C]-(R)-PK11195 is widely used for imaging of microglia, its considerable high plasma protein binding, high levels of nonspecific binding, relatively poor blood–brain barrier permeability and short half-life, limits its use in brain imaging (Chauveau et al., 2008). Recently, alternative PET radioligands for TSPO including the phenoxyarylacetamide derivative [11C]-DAA1106 and its analogues (Gulyas et al., 2009; Takano et al., 2010; Venneti et al., 2008), the imidazopyridines (PBR111) and its analogues (Boutin et al., 2007a; Fookes et al., 2008) and the pyrazolo[1,5-a]pyrimidine derivatives [18F]-DPA-714 and [11C]-DPA-713 (Boutin et al., 2007b; James et al., 2008) have been investigated. In addition to imaging with PET, recent advances in new generation of hybrid SPECT imaging systems enabling increased resolution and morphological documentation with associated computed tomography have been made for use clinically and preclinically. These advances have created a need and an opportunity for SPECT tracers; particularly those incorporating the longer lived radiotracer iodine-123 (t ½ = 13.2 h), to facilitate extended longitudinal imaging studies. In this study the recently developed high-affinity TSPO, SPECT ligand, 6-chloro-2-(4′-iodophenyl)-3-(N,N-diethyl)-imidazo[1,2-a]pyridine-3-acetamide or CLINDE , was used to explore the expression of activated glia in a model of transferred EAE (tEAE). [123I]-CLINDE has demonstrated its potency and specificity for TSPO binding, its ability to penetrate the blood-brain barrier and suitable pharmacokinetics for SPECT imaging studies (Mattner et al., 2008). It has also been shown that [123I]-CLINDE was able to detect in vivo inflammatory processes characterized by increased density of TSPO in several animal models (Arlicot et al., 2008; Arlicot et al., 2010; Mattner et al., 2005; Mattner et al., 2011; Song et al., 2010), thus representing a promising SPECT radiotracer for imaging neuroinflammation. The present study aimed to investigate the effectiveness of [123I]-CLINDE to detect and quantify the activated glia and consequently correlate the intensity of TSPO upregulation with the severity of disease in a model of tEAE. © 2022 IntechOpen (Open Access).
- ItemCentral nervous system expression and PET imaging of the translocator protein in relapsing–remitting experimental autoimmune encephalomyelitis(Society of Nuclear Medicine and Molecular Imaging, 2013-01-15) Mattner, F; Staykova, M; Berghofer, PJ; Wong, HJ; Fordham, S; Callaghan, PD; Jackson, T; Pham, TQ; Grégoire, MC; Zahra, D; Rahardjo, GL; Linares, D; Katsifis, AGlial neuroinflammation is associated with the development and progression of multiple sclerosis. PET imaging offers a unique opportunity to evaluate neuroinflammatory processes longitudinally in a noninvasive and clinically translational manner. (18)F-PBR111 is a newly developed PET radiopharmaceutical with high affinity and selectivity for the translocator protein (TSPO), expressed on activated glia. This study aimed to investigate neuroinflammation at different phases of relapsing-remitting (RR) experimental autoimmune encephalomyelitis (EAE) in the brains of SJL/J mice by postmortem histologic analysis and in vivo by PET imaging with (18)F-PBR111. METHODS: RR EAE was induced by immunization with PLP(139-151) peptide in complete Freund's adjuvant. Naive female SJL/J mice and mice immunized with saline-complete Freund's adjuvant were used as controls. The biodistribution of (18)F-PBR111 was measured in 13 areas of the central nervous system and compared with PET imaging results during different phases of RR EAE. The extents of TSPO expression and glial activation were assessed with immunohistochemistry, immunofluorescence, and a real-time polymerase chain reaction. RESULTS: There was significant TSPO expression in all of the central nervous system areas studied at the peak of the first clinical episode and, importantly, at the preclinical stage. In contrast, only a few TSPO-positive cells were observed at the second episode. At the third episode, there was again an increase in TSPO expression. TSPO expression was associated with microglial cells or macrophages without obvious astrocyte labeling. The dynamics of (18)F-PBR111 uptake in the brain, as measured by in vivo PET imaging and biodistribution, followed the pattern of TSPO expression during RR EAE. CONCLUSION: PET imaging with the TSPO ligand (18)F-PBR111 clearly reflected the dynamics of microglial activation in the SJL/J mouse model of RR EAE. The results are the first to highlight the discrepancy between the clinical symptoms of EAE and TSPO expression in the brain, as measured by PET imaging at the peaks of various EAE episodes. The results suggest a significant role for PET imaging investigations of neuroinflammation in multiple sclerosis and allow for in vivo follow-up of antiinflammatory treatment strategies. © 2013 Society of Nuclear Medicine and Molecular Imaging, Inc.
- ItemClusterin facilitates in vivo clearance of extracellular misfolded proteins(Springer Basel AG, 2011-12-01) Wyatt, AR; Yerbury, JJ; Berghofer, PJ; Greguric, I; Katsifis, A; Dobson, CM; Wilson, MRThe extracellular deposition of misfolded proteins is a characteristic of many debilitating age-related disorders. However, little is known about the specific mechanisms that act to suppress this process in vivo. Clusterin (CLU) is an extracellular chaperone that forms stable and soluble complexes with misfolded client proteins. Here we explore the fate of complexes formed between CLU and misfolded proteins both in vitro and in a living organism. We show that proteins injected into rats are cleared more rapidly from circulation when complexed with CLU as a result of their more efficient localization to the liver and that this clearance is delayed by pre-injection with the scavenger receptor inhibitor fucoidan. The CLU– client complexes were found to bind preferentially, in a fucoidan-inhibitable manner, to human peripheral blood monocytes and isolated rat hepatocytes and in the latter cell type were internalized and targeted to lysosomes for degradation. The data suggest, therefore, that CLU plays a key role in an extracellular proteostasis system that recognizes, keeps soluble, and then rapidly mediates the disposal of misfolded proteins. © 2012, Springer.
- ItemComparison of in vivo binding properties of the 18-kDa translocator protein (TSPO) ligands [18F]PBR102 and [18F]PBR111 in a model of excitotoxin-induced neuroinflammation(Springer Link, 2015-01) Callaghan, PD; Wimberley, CA; Rahardjo, GL; Berghofer, PJ; Pham, TQ; Jackson, TW; Zahra, D; Bourdier, T; Wyatt, N; Greguric, I; Howell, NR; Siegele, R; Pastuovic, Z; Mattner, F; Loc'h, C; Grégoire, MC; Katsifis, AThe in vivo binding parameters of the novel imidazopyridine TSPO ligand [18F]PBR102 were assessed and compared with those of [18F]PBR111 in a rodent model of neuroinflammation. The validity of the key assumptions of the simplified reference tissue model (SRTM) for estimation of binding potential (BP) was determined, with validation against a two-tissue compartment model (2TC). Methods Acute neuroinflammation was assessed 7 days after unilateral stereotaxic administration of (R,S)-α-amino-3-hydroxy-5-methyl-4-isoxazolopropionique (AMPA) in anaesthetized adult Wistar rats. Anaesthetized rats were implanted with a femoral arterial cannula then injected with a low mass of [18F]PBR102 or [18F]PBR111 and dynamic images were acquired over 60 min using an INVEON PET/CT camera. Another population of rats underwent the same PET protocol after pretreatment with a presaturating mass of the same unlabelled tracer (1 mg/kg) to assess the validity of the reference region for SRTM analysis. Arterial blood was sampled during imaging, allowing pharmacokinetic determination of radiotracer concentrations. Plasma activity concentration–time curves were corrected for unchanged tracer based on metabolic characterization experiments in a separate cohort of Wistar rats. The stability of neuroinflammation in both imaging cohorts was assessed by [125I] CLINDE TSPO quantitative autoradiography, OX42/GFAP immunohistochemistry, Fluoro-Jade C histology, and elemental mapping using microparticle-induced x-ray emission spectroscopy. The BP of each ligand were assessed in the two cohorts of lesioned animals using both SRTM and a 2TC with arterial parent compound concentration, coupled with the results from the presaturation cohort for comparison and validation of the SRTM. Results The BPs of [18F]PBR102 [18F]PBR111 were equivalent, with improved signal-to-noise ratio and sensitivity compared with [11C]PK11195. The presaturation study showed differences in the volume of distribution between the ipsilateral striatum and the striatum contralateral to the injury (0.7) indicating that an assumption of the SRTM was not met. The modelling indicated that the BPs were consistent for both ligands. Between the SRTM and 2TC model, the BPs were highly correlated, but there was a bias in BP. Conclusion [18F]PBR102 and [18F]PBR111 have equivalent binding properties in vivo, displaying significantly greater BPs with lower signal-to-noise ratio than [11C]PK11195. While an assumption of the SRTM was not met, this modelling approach was validated against 2TC modelling for both ligands, facilitating future use in longitudinal PET imaging of neuroinflammation.© 2014, Springer Nature
- ItemDifferent radiolabelling methods alter the pharmacokinetic and biodistribution properties of Plasminogen Activator Inhibitor Type 2 (PAI-2) forms(Elsevier B.V., 2012-08-01) Ranson, M; Berghofer, PJ; Vine, KL; Greguric, I; Shepherd, R; Katsifis, AIntroduction Tumour-associated urokinase plasminogen activator (uPA) is a critical marker of invasion and metastasis, and it is recognised as having strong prognostic relevance as well as being a therapeutic target. The specific uPA inhibitor plasminogen activator inhibitor type-2 (PAI-2, SerpinB2) specifically targets cell bound uPA and is internalised. Furthermore, preclinical studies have established the “proof-of-principle” of uPA-targeting by PAI-2-cytotoxin conjugates in human carcinoma models. However, these studies also suggest that PAI-2 is rapidly cleared via the renal system with low total dose reaching the tumour. In this study, a comparative single photon emission computed tomography (SPECT) and biodistribution (BD) analysis of different forms of PAI-2 labelled with the radioisotopes iodine-123 (123I) and technetium-99m (99mTc) was undertaken. Methods The pharmacokinetic (PK) properties and BD of wild-type, ΔCD-loop and PEGylated ΔCD-loop PAI-2 labelled with the commonly used diagnostic SPECT radioisotopes 99mTc or 123I were compared in mouse models of human prostate carcinoma. Whole body SPECT imaging was also performed. Results Both wild-type and the shorter but active ΔCD-loop form of PAI-2 123I-labelled indirectly via conjugation to free amine groups (termed 123I-Bn-PAI-2) exhibited low tumour uptake, rapid excretion and similar PK profiles. Preliminary studies with a short branched-chain PEGylated 123I-Bn-PAI-2 ΔCD-loop indicated an increase in blood retention time and tumour uptake. All 123I-Bn-labelled radiotracers were largely excreted through the kidneys. By comparison, both wild-type 123I-PAI-2 (labelled directly via tyrosine residues) and 99mTc-PAI-2 displayed different PK/BD patterns compared to 123I-Bn-PAI-2, suggesting greater liver based catabolism and thus slower elimination. SPECT imaging mimicked the BD results of all radiotracers. © 2020 Elsevier B.V. Conclusion The different labelling methods gave distinct PAI-2 BD and tumour uptake profiles, with radioiodination resulting in the best non-tumour organ clearance profiles. Preliminary analyses with short branched-chain PEGylated 123I-Bn-PAI-2 ΔCD-loop suggest that further investigations with other PEGylation reagents are required to optimise this approach for tumour imaging. These findings impact on the use of PAI-2 for drug delivery and/or diagnostic development. © 2012 Published by Elsevier Inc.
- ItemDiscovery of [F-18]N-(2-(Diethylamino)ethyl)-6-fluoronicotinamide: a melanoma positron emission tomography imaging radiotracer with high tumor to body contrast ratio and rapid renal clearance(American Chemical Society, 2009-09-10) Greguric, I; Taylor, SR; Denoyer, D; Ballantyne, P; Berghofer, PJ; Roselt, P; Pham, TQ; Mattner, F; Bourdier, T; Neels, OC; Dorow, DS; Loc'h, C; Hicks, RJ; Katsifis, AThe high melanoma uptake and rapid body clearance displayed by our series of [123I]iodonicotinamides prompted the development of [18F]N-(2-(diethylamino)ethyl)-6-fluoronicotinamide ([18F]2), a novel radiotracer for PET melanoma imaging. Significantly, unlike fluorobenzoates, [18F]fluorine incorporation on the nicotinamide ring is one step, facile, and high yielding. [18F]2 displayed high tumor uptake, rapid body clearance via predominantly renal excretion, and is currently being evaluated in preclinical studies for progression into clinical trials to assess the responsiveness of therapeutic agents. © 2009, American Chemical Society
- ItemEvaluation of [I-123]-CLINDE as a potent SPECT radiotracer to assess the degree of astroglia activation in cuprizone-induced neuroinflammation(Springer, 2011-08-01) Mattner, F; Bandin, DL; Staykova, M; Berghofer, PJ; Grégoire, MC; Ballantyne, P; Quinlivan, M; Fordham, S; Pham, TQ; Willenborg, DO; Katsifis, AThe purpose of this study was to assess the feasibility and sensitivity of the high-affinity translocator protein (TSPO) ligand [123I]-CLINDE in imaging TSPO changes in vivo and characterise and compare astroglial and TSPO changes in the cuprizone model of demyelination and remyelination in C57BL/6 mice. Methods C57BL/6 mice were fed with cuprizone for 4 weeks to induce demyelination followed by 2–4 weeks of standard diet (remyelination). Groups of mice were followed by in vivo single photon emission computed tomography (SPECT)/CT imaging using [123I]-CLINDE and uptake correlated with biodistribution, autoradiography, immunohistochemistry, immunofluorescence and real-time polymerase chain reaction (RT-PCR). Results The uptake of [123I]-CLINDE in the brain as measured by SPECT imaging over the course of treatment reflects the extent of the physiological response, with significant increases observed during demyelination followed by a decrease in uptake during remyelination. This was confirmed by autoradiography and biodistribution studies. A positive correlation between TSPO expression and astrogliosis was found and both activated astrocytes and microglial cells expressed TSPO. [123I]-CLINDE uptake reflects astrogliosis in brain structures such as corpus callosum, caudate putamen, medium septum and olfactory tubercle as confirmed by both in vitro and in vivo results. Conclusion The dynamics in the cuprizone-induced astroglial and TSPO changes, observed by SPECT imaging, were confirmed by immunofluorescence, RT-PCR and autoradiography. The highly specific TSPO radioiodinated ligand CLINDE can be used as an in vivo marker for early detection and monitoring of a variety of neuropathological conditions using noninvasive brain imaging techniques. © 2011, Springer.
- ItemHybrid non-rigid registration method for registering rat skeletons from micro-CT images(Society of Nuclear Medicine and Molecular Imaging, 2009-05) Xiao, D; Zahra, D; Bourgeat, P; Tamayo, OA; Berghofer, PJ; Fripp, J; Grégoire, MC; Salvado, OObjectives: A hybrid non-rigid registration method for automatic rat spine detection and registration and further rat limbs registration was proposed. Methods: We first developed an automatic algorithm to extract the rat spine from its whole-body skeleton and then detect top point on the spinous process of each vertebra starting from the first vertebra at thoracic vertebrae towards the tail. The extracted points were matched to the predefined corresponding points of the spine in a rat atlas. Their correspondences field was used to perform skeletons registration by thin-plate-spline (TPS). Further, we extend 3D shape context algorithm for landmarks matching for rat limbs between the atlas and the newly extracted skeletons. The correspondences found were used to perform the rat limb skeletons registration by TPS. Results: Experiments were described using phantoms and actual rat skeletons. Mean square errors decrease was observed during registration process. Visually, the skeletons were successfully registered. Conclusions: The method can improve the robustness of rat skeleton registration, even in the case of large variation in some postures and this first step work can be extended to further improve rat organs registration guided by the correspondences found from the skeletons.© 2009 by Society of Nuclear Medicine
- ItemAn improved 3D shape context based non-rigid registration method and its application to small animal skeletons registration(Pergamon-Elsevier Science Ltd, 2010-06-01) Xiao, D; Zahra, D; Bourgeat, P; Berghofer, PJ; Tamayo, OA; Wimberley, CA; Grégoire, MC; Salvado, O3D shape context is a method to define matching points between similar shapes. It can be used as a preprocessing step in a non-rigid registration. The main limitation of the method is point mismatching, which includes long geodesic distance mismatch causing wrong topological structure, and neighbors crossing mismatch between two adjacent points. In this paper, we propose a topological structure verification method to correct the long geodesic distance mismatch and a correspondence field smoothing method to correct the neighbors crossing mismatch. A robust 3D shape context model is generated and further combined with thin-plate spline model for non-rigid registration. The method was tested on phantoms and applied to rat hind limb and mouse hind limb skeletons registration from micro-CT images. Errors between the registered surfaces were reduced by using the proposed method. The robustness of the method is demonstrated. © 2010, Elsevier Ltd.
- ItemAn improved 3D shape context registration method for non-rigid surface registration.(Society of Photo-optical Instrumentation Engineers (SPIE), 2010-02-14) Xiao, D; Zahra, D; Bourgeat, P; Berghofer, PJ; Tamayo, AO; Wimberley, CA; Grégoire, MC; Salvado, O3D shape context is a method to define matching points between similar shapes as a pre-processing step to non-rigid registration. The main limitation of the approach is point mismatching, which includes long geodesic distance mismatch and neighbors crossing mismatch. In this paper, we propose a topological structure verification method to correct the long geodesic distance mismatch and a correspondence field smoothing method to correct the neighbors crossing mismatch. A robust 3D shape context model is proposed and further combined with thin-plate spline model for non-rigid surface registration. The method was tested on phantoms and rat hind limb skeletons from micro CT images. The results from experiments on mouse hind limb skeletons indicate that the approach is robust.
- ItemIn vivo pharmacokinetics of radioiodinated urokinase plasminogen activator (uPA) inhibitors for imaging metastatic cancer(Wiley-Blackwell, 2011-07-01) Berghofer, PJ; Greguric, I; Shepherd, R; Katsifis, A; Ranson, M; Vine, KLTo determine and compare the in vivo tissue distribution, tumour uptake and clearance patterns of PAI2 and PAI2 Δ CD-loop radiolabelled indirectly with Iodine 123 for evaluation as imaging and therapeutic tools in prostate cancer.© 2011, Wiley-Blackwell.
- ItemNon-rigid registration method for mouse whole body skeleton registration.(Society of Photo-optical Instrumentation Engineers (SPIE), 2010-02-14) Xiao, D; Zahra, D; Bourgeat, P; Berghofer, PJ; Tamayo, AO; Wimberley, CA; Grégoire, MC; Salvado, OMicro-CT/PET imaging scanner provides a powerful tool to study tumor in small rodents in response to therapy. Accurate image registration is a necessary step to quantify the characteristics of images acquired in longitudinal studies. Small animal registration is challenging because of the very deformable body of the animal often resulting in different postures despite physical restraints. In this paper, we propose a non-rigid registration approach for the automatic registration of mouse whole body skeletons, which is based on our improved 3D shape context non-rigid registration method. The whole body skeleton registration approach has been tested on 21 pairs of mouse CT images with variations of individuals and time-instances. The experimental results demonstrated the stability and accuracy of the proposed method for automatic mouse whole body skeleton registration. © 2012, SPIE.
- ItemPET imaging of brain inflammation during early epileptogenesis in a rat model of temporal lobe epilepsy(Springer-Velag, 2012-11-08) Dedeurwaerdere, S; Callaghan, PD; Pham, TQ; Rahardjo, GL; Amhaoul, H; Berghofer, PJ; Quinlivan, M; Mattner, F; Loc'h, C; Katsifis, A; Grégoire, MCBackground Recently, inflammatory cascades have been suggested as a target for epilepsy therapy. Positron emission tomography (PET) imaging offers the unique possibility to evaluate brain inflammation longitudinally in a non-invasive translational manner. This study investigated brain inflammation during early epileptogenesis in the post-kainic acid-induced status epilepticus (KASE) model with post-mortem histology and in vivo with [18F]-PBR111 PET. Methods Status epilepticus (SE) was induced (N = 13) by low-dose injections of KA, while controls (N = 9) received saline. Translocator protein (TSPO) expression and microglia activation were assessed with [125I]-CLINDE autoradiography and OX-42 immunohistochemistry, respectively, 7 days post-SE. In a subgroup of rats, [18F]-PBR111 PET imaging with metabolite-corrected input function was performed before post-mortem evaluation. [18F]-PBR111 volume of distribution (V t) in volume of interests (VOIs) was quantified by means of kinetic modelling and a VOI/metabolite-corrected plasma activity ratio. Results Animals with substantial SE showed huge overexpression of TSPO in vitro in relevant brain regions such as the hippocampus and amygdala (P < 0.001), while animals with mild symptoms displayed a smaller increase in TSPO in amygdala only (P < 0.001). TSPO expression was associated with OX-42 signal but without obvious cell loss. Similar in vivo [18F]-PBR111 increases in V t and the simplified ratio were found in key regions such as the hippocampus (P < 0.05) and amygdala (P < 0.01). Conclusion Both post-mortem and in vivo methods substantiate that the brain regions important in seizure generation display significant brain inflammation during epileptogenesis in the KASE model. This work enables future longitudinal investigation of the role of brain inflammation during epileptogenesis and evaluation of anti-inflammatory treatments. © 2012, Springer.
- ItemPreparation and biologic evaluation of a novel radioiodinated benzylpiperazine, 123I-MEL037, for malignant melanoma(Society of Nuclear Medicine and Molecular Imaging, 2007-07-13) Pham, TQ; Berghofer, PJ; Liu, X; Greguric, I; Dikic, B; Ballantyne, P; Mattner, F; Nguyen, VH; Loc'h, C; Katsifis, ARadiopharmaceuticals that can target the random metastatic dissemination of melanoma tumors may present opportunities for imaging and staging the disease as well as potential radiotherapeutic applications. A novel molecule, 2-(2-(4-(4-123I-iodobenzyl)piperazin-1-yl)-2-oxoethyl)isoindoline-1,3-dione (MEL037), was synthesized, labeled with 123I, and evaluated for application in melanoma tumor scintigraphy and radiotherapy. Methods: The tumor imaging potential of 123I-MEL037 was studied in vivo in C57BL/6J female mice bearing the B16F0 murine melanoma tumor and in BALB/c nude mice bearing the A375 human amelanotic melanoma tumor by biodistribution, competition studies, and SPECT. Results: 123I-MEL037 exhibited high and rapid uptake in the B16F0 melanoma tumor at 1 h (13 %ID/g [percentage injected dose per gram]), increasing with time to reach 25 %ID/g at 6 h. A significant uptake was also observed in the eyes (2 %ID, at 3–6 h after injection) of black mice. No uptake was observed in the tumor or in the eyes of nude mice bearing the A375 tumor. Because of high uptake and long retention in the tumor and rapid body clearance, the mean contrast ratios (MCR) of 123I-MEL037 were 30 and 60, at 24 and 48 h after injection, respectively. At 24 h after injection of mice bearing the B16 melanoma, SPECT indicated that the radioactivity was located predominately in the tumor followed by the eyes, whereas no specific localization of the radioactivity was noted in mice bearing the A375 human amelanotic tumor. In competition experiments, uptake of 123I-MEL037 in brain, lung, heart, and kidney—organs known to contain σ-receptors—was not significantly different in haloperidol-treated animals compared with control animals. Therefore, reduction of uptake in tumor and eyes of the pigmented mice bearing the B16F0 tumor suggested that the mechanism of tumor uptake was likely due to an interaction with melanin. Conclusion: These findings suggested that 123I-MEL037, which displays a rapid and very high tumor uptake, appeared to be a promising imaging agent for detection of most melanoma tumors with the potential for development as a therapeutic agent in melanoma tumor proliferation. © 2007 by the Society of Nuclear Medicine, Inc.
- ItemRadiosynthesis and biological evaluation of L and D S-(3-[18F]Fluoropropyl)-homocysteine for tumor imaging using positron emission tomography(Americam Chemical Society, 2011-03-24) Bourdier, T; Shepherd, R; Berghofer, PJ; Jackson, TW; Fookes, CJR; Denoyer, D; Dorow, DS; Greguric, I; Grégoire, MC; Hicks, RJ; Katsifis, AInterest in radiolabeled amino acids for metabolic imaging of cancer and limitations with [11C]methionine has prompted the development of a new 18F-labeled methionine derivative S-(3-[18F]fluoropropyl)homocysteine ([18F]FPHCys). The L and D enantiomers of [18F]FPHCys were prepared from their respective protected S-(3-tosyloxypropyl)homocysteine precursors 1 by [18F]fluoride substitution using K2.2.2 and potassium oxalate, followed by acid hydrolysis on a Tracerlab FXFN synthesis module. [18F]-L-FPHCys and [18F]-D-FPHCys were isolated in 20 ( 5% radiochemical yield and >98% radiochemical and enantiomeric purity in 65 min. Competitive uptake studies in A375 and HT29 tumor cells suggest that L- and D-[18F]FPHCys are taken up by the L-transporter system. [18F]-L-FPHCys and [18F]-D-FPHCys displayed good stability In Vivo without incorporation into protein at least 2 h postinjection. Biodistribution studies demonstrate good uptake in A375 tumor-bearing rodents with tumor to blood ratios of 3.5 and 5.0 for [18F]-L-FPHCys and [18F]-D-FPHCys, respectively, at 2 h postinjection. © 2011, American Chemical Society.
- ItemRadiosynthesis, in vivo biological evaluation, and imaging of brain lesions with [123I]-CLINME, a new SPECT tracer for the translocator protein(Hindawi Publishing Corporation, 2015-06-25) Mattner, F; Quinlivan, M; Greguric, I; Pham, TQ; Liu, X; Jackson, TW; Berghofer, PJ; Fookes, CJR; Dikic, B; Grégoire, MC; Dollé, F; Katsifis, AThe high affinity translocator protein (TSPO) ligand 6-chloro-2-(4′-iodophenyl)-3-(N,N-methylethyl)imidazo[1,2-a]pyridine-3-acetamide (CLINME) was radiolabelled with iodine-123 and assessed for its sensitivity for the TSPO in rodents. Moreover neuroinflammatory changes on a unilateral excitotoxic lesion rat model were detected using SPECT imaging. [123I]-CLINME was prepared in 70–80% radiochemical yield. The uptake of [123I]-CLINME was evaluated in rats by biodistribution, competition, and metabolite studies. The unilateral excitotoxic lesion was performed by injection of α-amino-3-hydroxy-5-methylisoxazole-4-propionic acid unilaterally into the striatum. The striatum lesion was confirmed and correlated with TSPO expression in astrocytes and activated microglia by immunohistochemistry and autoradiography. In vivo studies with [123I]-CLINME indicated a biodistribution pattern consistent with TPSO distribution and the competition studies with PK11195 and Ro 5-4864 showed that [123I]-CLINME is selective for this site. The metabolite study showed that the extractable radioactivity was unchanged [123I]-CLINME in organs which expresses TSPO. SPECT/CT imaging on the unilateral excitotoxic lesion indicated that the mean ratio uptake in striatum (lesion : nonlesion) was 2.2. Moreover, TSPO changes observed by SPECT imaging were confirmed by immunofluorescence, immunochemistry, and autoradiography. These results indicated that [123I]-CLINME is a promising candidate for the quantification and visualization of TPSO expression in activated astroglia using SPECT. © 2015 F. Mattner et al.
- ItemSynthesis and biological characterisation of 18F-SIG343 and 18F-SIG353, novel and high selectivity σ2 radiotracers, for tumour imaging properties(Springer Nature, 2013-12-11) Nguyen, VH; Pham, TQ; Fookes, CJR; Berghofer, PJ; Greguric, I; Arthur, A; Mattner, F; Rahardjo, GL; Davis, E; Howell, NR; Grégoire, MC; Katsifis, A; Shepherd, RSigma2 (σ2) receptors are highly expressed in cancer cell lines and in tumours. Two novel selective 18F-phthalimido σ2 ligands, 18F-SIG343 and 18F-SIG353, were prepared and characterised for their potential tumour imaging properties. © 2013 Nguyen et al.; licensee Springer.
- ItemSynthesis and biological evaluation of substituted [18F]Imidazo[1,2-a]pyridines and [18F]Pyrazolo[1,5-a]pyrimidines for the study of the peripheral benzodiazepine receptor using positron emission tomography(American Chemical Society, 2008-06-17) Fookes, CJR; Pham, TQ; Mattner, F; Greguric, I; Loc'h, C; Liu, X; Berghofer, PJ; Shepherd, R; Grégoire, MC; Katsifis, AThe fluoroethoxy and fluoropropoxy substituted 2-(6-chloro-2-phenyl)imidazo[1,2- a]pyridin-3-yl)- N, N-diethylacetamides 8 (PBR102) and 12 (PBR111) and 2-phenyl-5,7-dimethylpyrazolo[1,5- a]pyrimidin-3-yl)- N, N-diethylacetamides 15 (PBR099) and 18 (PBR146) were synthesized and found to have high in vitro affinity and selectivity for the peripheral benzodiazepine receptors (PBRs) when compared with the central benzodiazepine receptors (CBRs). The corresponding radiolabeled compounds [ (18)F] 8 [ (18)F] 12, [ (18)F] 15, and [ (18)F] 18 were prepared from their p-toluenesulfonyl precursors in 50-85% radiochemical yield. In biodistribution studies in rats, the distribution of radioactivity of the [ (18)F]PBR compounds paralleled the known localization of PBRs. In the olfactory bulbs, where the uptake of radioactivity was higher than in the rest of the brain, PK11195 and Ro 5-4864 were able to significantly inhibit [ (18)F] 12, while little or no pharmacological action of these established PBR drugs were observed on the uptake of [ (18)F] 8, [ (18)F] 15, and [ (18)F] 18 compared to control animals. Hence, [ (18)F] 12 appeared to be the best candidate for evaluation as an imaging agent for PBR expression in neurodegenerative disorders. © 2008 American Chemical Society
- ItemSynthesis and evaluation of an [18F] labelled imidazopyridine, for the study of the peripheral benzodiazepine binding sites using PET(Society of Nuclear Medicine and Molecular Imaging, 2007-05-01) Katsifis, A; Mattner, F; Pham, TQ; Fookes, CJR; Greguric, I; Berghofer, PJ; Ballantyne, P; Shepherd, R; Liu, XObjectives: The purpose of this study was to synthesise and evaluate the F-18 imidazopyridine 2-(2-(4-(3-fluoropropoxy)phenyl)-6,8-dichloroimidazo[1,2-a]pyridin-3-yl)-N-methyl-N-phenylacetamide 1 as a potential tracer for the study of PBBS using PET. Methods: [18F]1 has been prepared by nucleophilic substitution of the tosylethyloxy precursor with 18F-fluoride in the presence of K222, K2CO3 in ACN at 100°C for 5 mins followed by RP-HPLC purification. The biodistribution of [18F]1 was performed in SD rats and brain and peripheral tissues were analysised at 15, 30 min, 1, and 4 h p.i. The specificity and selectivity of the tracer was assessed by pre-treatment with the PBBS ligands PK11195 and Ro 5-4864 and with Flumazenil for CBR at 1 mg/kg 5 min prior to injection of [18F]1. Results: In vitro binding of 1 indicated an IC50 of 7.4 nM for PBBS and >4000 nM for the CBR. [18F]1 was synthesised in 40-55 % radiochemical yield non-decay corrected and with > 95 % radiochemical purity. The specific activity ranged from 37-80 GBq/μmol (non optimised). Biodistribution studies indicated uptake of [18F]1 in tissue expressing PBBS. The adrenals showed high uptake, increasing from 9% ID/g at 30 min p.i to 11% at 4 h. In the kidneys the activity peaked at 15 min p.i.(5%) and decreased over time to 3.6% at 4h. In the heart the uptake was maintained at 7% througout the experiment (15 min to 4 h). Bone uptake ranged from 1% (at 15 min) to 2.9% at 4h. [18F]1 readily penetrated the blood-brain barrier with uptake in the olfactory regions ranging from an initial 0.66% at 15 min to 0.26% at 4 h p.i. The concentration in the blood was significantly lower than the brain regions (0.7% at 15 min to 0.15% at 4 h). Pre-treatment with PK 11195, Ro 5-4864 and non radioactive analogue 1 significantly decreased the uptake in the brain and peripheral organs except in the adrenals which showed a modest increase or no change in uptake. Flumazenil had no effect in the uptake of [18F]1 in the brain or peripheral organs. Conclusions: These results demonstrate the specific PBBS uptake of [18F]1 in vivo. Therefore [18F]1 warrants further investigation as a potential PET tracer for the PBBS. Copyright © 2020 Society of Nuclear Medicine and Molecular Imaging
- ItemSynthesis and evaluation of novel radioiodinated benzamides for malignant melanoma(American Chemical Society, 2007-07-26) Pham, TQ; Greguric, I; Liu, X; Berghofer, PJ; Ballantyne, P; Chapman, J; Mattner, F; Dikic, B; Jackson, TW; Loc'h, C; Katsifis, AThe imaging potential of a series of [123I]benzamides was studied in mice bearing B16F0 melanoma tumors. Compound [123I]25 exhibited tumor uptake >8 %ID/g at 1 h, while that of [123I]14d and [123I]25 reached a maximum of 9−12 %ID/g at 6 h. Standardized uptake values of [123I]14d were higher than 100 between 24 and 72 h after injection. In haloperidol treated animals, the tumor uptake of [123I]14d was not significantly different to controls, while significant reduction of [123I]25 uptake was observed, supporting that [123I]14d uptake relates to melanin interaction, whereas part of the mechanism of [123I]25 uptake is related to its σ1-receptor affinity. Benzamides 14d and 25, which display rapid and high tumor uptake, appear to be promising imaging agents for melanoma detection, while 14d, which displays a long lasting and high melanoma/nontarget ratio, is more suitable for evaluation as a potential radiotherapeutic. © 2007, American Chemical Society.