Your search keyword '"Beaino W"' showing total 45 results

1. Application of 89Zr-DFO*-immuno-PET to assess improved target engagement of a bispecific anti-amyloid-ß monoclonal antibody

Author

Stergiou, N., Wuensche, T. E., Schreurs, M., Mes, I., Verlaan, M., Kooijman, E. J. M., Windhorst, A. D., Helboe, L., Vergo, S., Christensen, S., Asuni, A. A., Jensen, A., Van Dongen, G. A. M. S., Bang-Andersen, B., Vugts, D. J., and Beaino, W.

Published

2023

2. Application of 89Zr-DFO*-immuno-PET to assess improved target engagement of a bispecific anti-amyloid-ß monoclonal antibody.

Author

Stergiou, N., Wuensche, T. E., Schreurs, M., Mes, I., Verlaan, M., Kooijman, E. J. M., Windhorst, A. D., Helboe, L., Vergo, S., Christensen, S., Asuni, A. A., Jensen, A., Van Dongen, G. A. M. S., Bang-Andersen, B., Vugts, D. J., and Beaino, W.

Subjects

ALZHEIMER'S disease treatment, ADUCANUMAB, IMMUNOTHERAPY, TRANSFERRIN receptors, IMMUNOGLOBULINS

Abstract

Purpose: The recent conditional FDA approval of Aducanumab (Adu) for treating Alzheimer's disease (AD) and the continued discussions around that decision have increased interest in immunotherapy for AD and other brain diseases. Reliable techniques for brain imaging of antibodies may guide decision-making in the future but needs further development. In this study, we used 89Zr-immuno-PET to evaluate the targeting and distribution of a bispecific brain-shuttle IgG based on Adu with transferrin receptor protein-1 (TfR1) shuttling mechanism, mAbAdu-scFab8D3, designated Adu-8D3, as a candidate theranostic for AD. We also validated the 89Zr-immuno-PET platform as an enabling technology for developing new antibody-based theranostics for brain disorders. Methods: Adu, Adu-8D3, and the non-binding control construct B12-8D3 were modified with DFO*-NCS and radiolabeled with 89Zr. APP/PS1 mice were injected with 89Zr-labeled mAbs and imaged on days 3 and 7 by positron emission tomography (PET). Ex vivo biodistribution was performed on day 7, and ex vivo autoradiography and immunofluorescence staining were done on brain tissue to validate the PET imaging results and target engagement with amyloid-β plaques. Additionally, [89Zr]Zr-DFO*-Adu-8D3 was evaluated in 3, 7, and 10-month-old APP/PS1 mice to test its potential in early stage disease. Results: A 7-fold higher brain uptake was observed for [89Zr]Zr-DFO*-Adu-8D3 compared to [89Zr]Zr-DFO*-Adu and a 2.7-fold higher uptake compared to [89Zr]Zr-DFO*-B12-8D3 on day 7. Autoradiography and immunofluorescence of [89Zr]Zr-DFO*-Adu-8D3 showed co-localization with amyloid plaques, which was not the case with the Adu and B12-8D3 conjugates. [89Zr]Zr-DFO*-Adu-8D3 was able to detect low plaque load in 3-month-old APP/PS1 mice. Conclusion: 89Zr-DFO*-immuno-PET revealed high and specific uptake of the bispecific Adu-8D3 in the brain and can be used for the early detection of Aβ plaque pathology. Here, we demonstrate that 89Zr-DFO*-immuno-PET can be used to visualize and quantify brain uptake of mAbs and contribute to the evaluation of biological therapeutics for brain diseases. [ABSTRACT FROM AUTHOR]

Published

2023

3. Corrigendum to “SSP-27: 89Zr-immuno-PET of a novel bispecific amyloid β monoclonal antibody reveals improved and high specific brain uptake” [Nucl Med Biol (2020) Volumes 96–97, Supplement. S30-S31]

Author

Stergiou, N., Wünsche, E.T., Mes, I., Schreurs, M., Verlaan, M., Kooijman, E.J.M., Windhorst, A.D., Dongen, G.A.M.S., Helboe, L., Vergo, S., Christensen, S., Asuni, A., Jensen, A., Bang-Andersen, B., Vugts, D.J., and Beaino, W.

Published

2022

4. Validation et caractérisation d’un modèle murin de polyradiculonévrite chronique

Author

Kremer, L., Brun, S., Beaino, W., Taleb, O., Lam, D., Trifilieff, E., and De Seze, J.

Published

2014

5. Investigation of the Impact of the H310A FcRn Region Mutation on 89 Zr-Immuno-PET Brain Imaging with a BBB-Shuttle Anti‑Amyloid Beta Antibody.

Author

Wuensche TE, Stergiou N, Mes I, Verlaan M, Kooijman EJM, Windhorst AD, Jensen A, Asuni AA, Bang-Andersen B, van Dongen GAMS, Vugts DJ, and Beaino W

Subjects

Animals, Receptors, Fc metabolism, Histocompatibility Antigens Class I metabolism, Tissue Distribution, Mice, Transgenic, Mice, Antibodies, Monoclonal, Humanized chemistry, Antibodies, Monoclonal, Humanized pharmacokinetics, CHO Cells, Cricetulus, Antibodies, Monoclonal pharmacokinetics, Antibodies, Monoclonal chemistry, Humans, Zirconium chemistry, Blood-Brain Barrier metabolism, Positron-Emission Tomography methods, Brain diagnostic imaging, Brain metabolism, Radioisotopes chemistry, Amyloid beta-Peptides metabolism, Mutation

Abstract

Purpose: In the emerging field of antibody treatments for neurodegenerative diseases, reliable tools are needed to evaluate new therapeutics, diagnose and select patients, monitor disease progression, and assess therapy response. Immuno-PET combines the high affinity and exceptional specificity of monoclonal antibodies with the non-invasive imaging technique positron emission tomography (PET). Its application in neurodegenerative disease brain imaging has been limited due to the marginal uptake across the blood-brain barrier (BBB). The emergence of BBB-shuttle antibodies with enhanced uptake across the BBB extended immuno-PET to brain imaging. We recently reported about specific brain uptake of a bispecific aducanumab mTfR antibody in APP/PS1 TG mice using 89 Zr-immuno-PET. However, a sufficient target-to-background ratio was reached at a relatively late scanning time point of 7 days post-injection. To investigate if a better target-to-background ratio could be achieved earlier, an aducanumab BBB-shuttle with a mutated Fc region for reduced FcRn affinity was evaluated., Procedures: Adu H310A -8D3 and Adu-8D3 were modified with DFO*-NCS and subsequently radiolabeled with 89 Zr. The potential influence of the H310A mutation, modification with DFO*-NCS, and subsequent radiolabeling on the in vitro binding to amyloid-beta and mTfR1 was investigated via amyloid-beta peptide ELISA and FACS analysis using mTfR1 transfected CHO-S cells. Blood kinetics, brain uptake, in vivo PET imaging and target engagement of radiolabeled Adu H310A -8D3 were evaluated and compared to non-mutated Adu-8D3 in APP/PS1 TG mice and wild-type animals as controls., Results: Radiolabeling was performed with sufficient radiochemical yields and radiochemical purity. In vitro binding to amyloid-beta and mTfR1 showed no impairment. [ 89 Zr]Zr-Adu H310A -8D3 showed faster blood clearance and earlier differentiation of amyloid-beta-related brain uptake compared to [ 89 Zr]Zr-Adu-8D3. However, only half of the brain uptake was observed for [ 89 Zr]Zr-Adu H310A -8D3., Conclusions: Although a faster blood clearance of Adu H310A -8D3 was observed, it was concluded that no beneficial effects for 89 Zr-immuno-PET imaging of brain uptake were obtained., (© 2024. The Author(s).)

Published

2024

6. Navigating the landscape of PD-1/PD-L1 imaging tracers: from challenges to opportunities.

Author

Badenhorst M, Windhorst AD, and Beaino W

Abstract

Immunotherapy targeted to immune checkpoint inhibitors, such as the program cell death receptor (PD-1) and its ligand (PD-L1), has revolutionized cancer treatment. However, it is now well-known that PD-1/PD-L1 immunotherapy response is inconsistent among patients. The current challenge is to customize treatment regimens per patient, which could be possible if the PD-1/PD-L1 expression and dynamic landscape are known. With positron emission tomography (PET) imaging, it is possible to image these immune targets non-invasively and system-wide during therapy. A successful PET imaging tracer should meet specific criteria concerning target affinity, specificity, clearance rate and target-specific uptake, to name a few. The structural profile of such a tracer will define its properties and can be used to optimize tracers in development and design new ones. Currently, a range of PD-1/PD-L1-targeting PET tracers are available from different molecular categories that have shown impressive preclinical and clinical results, each with its own advantages and disadvantages. This review will provide an overview of current PET tracers targeting the PD-1/PD-L1 axis. Antibody, peptide, and antibody fragment tracers will be discussed with respect to their molecular characteristics and binding properties and ways to optimize them., Competing Interests: AW is editor-in-chief of Nuclear Medicine and Biology. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Badenhorst, Windhorst and Beaino.)

Published

2024

7. Synthesis and preclinical evaluation of [ 11 C]EAI045 as a PET tracer for imaging tumors expressing mutated epidermal growth factor receptor.

Author

Högnäsbacka AA, Poot AJ, Plisson C, Bergare J, Bonsall DR, McCluskey SP, Wells LA, Kooijman E, Schuit RC, Verlaan M, Beaino W, van Dongen GAMS, Vugts DJ, Elmore CS, Passchier J, and Windhorst AD

Abstract

Background: Mutations in the epidermal growth factor receptor (EGFR) kinase domain are common in non-small cell lung cancer. Conventional tyrosine kinase inhibitors target the mutation site in the ATP binding pocket, thereby inhibiting the receptor's function. However, subsequent treatment resistance mutations in the ATP binding site are common. The EGFR allosteric inhibitor, EAI045, is proposed to have an alternative mechanism of action, disrupting receptor signaling independent of the ATP-binding site. The antibody cetuximab is hypothesized to increase the number of accessible allosteric pockets for EAI045, thus increasing the potency of the inhibitor. This work aimed to gain further knowledge on pharmacokinetics, the EGFR mutation-targeting potential, and the influence of cetuximab on the uptake by radiolabeling EAI045 with carbon-11 and tritium., Results: 2-(5-fluoro-2-hydroxyphenyl)-2-((2-iodobenzyl)amino)-N-(thiazol-2-yl)acetamide and 2-(5-fluoro-2-hydroxyphenyl)-N-(5-iodothiazol-2-yl)-2-(1-oxoisoindolin-2-yl)acetamide were synthesized as precursors for the carbon-11 and tritium labeling of EAI045, respectively. [ 11 C]EAI045 was synthesized using [ 11 C]CO in a palladium-catalyzed ring closure in a 10 ± 1% radiochemical yield (decay corrected to end of [ 11 C]CO 2 production), > 97% radiochemical purity and 26 ± 1 GBq/µmol molar activity (determined at end of synthesis) in 51 min. [ 3 H]EAI045 was synthesized by a tritium-halogen exchange in a 0.2% radiochemical yield, 98% radiochemical purity, and 763 kBq/nmol molar activity. The ability of [ 11 C]EAI045 to differentiate between L858R/T790M mutated EGFR expressing H1975 xenografts and wild-type EGFR expressing A549 xenografts was evaluated in female nu/nu mice. The uptake was statistically significantly higher in H1975 xenografts compared to A549 xenografts (0.45 ± 0.07%ID/g vs. 0.31 ± 0.10%ID/g, P = 0.0166). The synergy in inhibition between EAI045 and cetuximab was evaluated in vivo and in vitro. While there was some indication that cetuximab influenced the uptake of [ 3 H]EAI045 in vitro, this could not be confirmed in vivo when tumor-bearing mice were administered cetuximab (0.5 mg), 24 h prior to injection of [ 11 C]EAI045., Conclusions: EAI045 was successfully labeled with tritium and carbon-11, and the in vivo results indicated [ 11 C]EAI045 may be able to distinguish between mutated and non-mutated EGFR in non-small cell lung cancer mouse models. Cetuximab was hypothesized to increase EAI045 uptake; however, no significant effect was observed on the uptake of [ 11 C]EAI045 in vivo or [ 3 H]EAI045 in vitro in H1975 xenografts and cells., (© 2024. The Author(s).)

Published

2024

8. Development of 18 F-Labeled PET Tracer Candidates for Imaging of the Abelson Non-receptor Tyrosine Kinase in Parkinson's Disease.

Author

Stéen EJL, Park AY, Beaino W, Gadhe CG, Kooijman E, Schuit RC, Schreurs M, Leferink P, Hoozemans JJM, Kim JE, Lee J, and Windhorst AD

Abstract

Activated Abelson non-receptor tyrosine kinase (c-Abl) plays a harmful role in neurodegenerative conditions such as Parkinson's disease (PD). Inhibition of c-Abl is reported to have a neuroprotective effect and be a promising therapeutic strategy for PD. We have previously identified a series of benzo[ d ]thiazole derivatives as selective c-Abl inhibitors from which one compound showed high therapeutic potential. Herein, we report the development of a complementary positron emission tomography (PET) tracer. In total, three PET tracer candidates were developed and eventually radiolabeled with fluorine-18 for in vivo evaluation studies in mice. Candidate [ 18 F] 3 was identified as the most promising compound, since it showed sufficient brain uptake, good washout kinetics, and satisfactory metabolic stability. In conclusion, we believe this tracer provides a good starting point to further validate and explore c-Abl as a target for therapeutic strategies against PD supported by PET.

Published

2023

9. Synthesis and Preclinical Evaluation of [ Methylpiperazine - 11 C]brigatinib as a PET Tracer Targeting Both Mutated Epidermal Growth Factor Receptor and Anaplastic Lymphoma Kinase.

Author

Högnäsbacka AA, Poot AJ, Kooijman E, Schuit RC, Schreurs M, Verlaan M, Beaino W, van Dongen GAMS, Vugts DJ, and Windhorst AD

Subjects

Humans, Female, Animals, Mice, Anaplastic Lymphoma Kinase, ErbB Receptors genetics, Positron-Emission Tomography, Carcinoma, Non-Small-Cell Lung diagnostic imaging, Carcinoma, Non-Small-Cell Lung drug therapy, Lung Neoplasms drug therapy

Abstract

Brigatinib, a tyrosine kinase inhibitor (TKI) with specificity for gene rearranged anaplastic lymphoma kinase (ALK), such as the EML4-ALK, has shown a potential to inhibit mutated epidermal growth factor receptor (EGFR). In this study, N -desmethyl brigatinib was successfully synthesized as a precursor in five steps. Radiolabeling with [ 11 C]methyl iodide produced [ methylpiperazine - 11 C]brigatinib in a 10 ± 2% radiochemical yield, 91 ± 17 GBq/μmol molar activity, and ≥95% radiochemical purity in 49 ± 4 min. [ Methylpiperazine - 11 C]brigatinib was evaluated in non-small cell lung cancer xenografted female nu/nu mice. An hour post-injection (p.i.), 87% of the total radioactivity in plasma originated from intact [ methylpiperazine - 11 C]brigatinib. Significant differences in tumor uptake were observed between the endogenously EML4-ALK mutated H2228 and the control xenograft A549. The tumor-to-blood ratio in H2228 xenografts could be reduced by pretreatment with ALK inhibitor crizotinib. Tracer uptake in EGFR Del19 mutated HCC827 and EML4-ALK fusion A549 was not significantly different from uptake in A549 xenografts.

Published

2023

10. Synthesis and preclinical evaluation of two osimertinib isotopologues labeled with carbon-11 as PET tracers targeting the tyrosine kinase domain of the epidermal growth factor receptor.

Author

Högnäsbacka A, Poot AJ, Kooijman E, Schuit RC, Schreurs M, Verlaan M, van den Hoek J, Heideman DAM, Beaino W, van Dongen GAMS, Vugts DJ, and Windhorst AD

Subjects

Humans, Female, Animals, Mice, ErbB Receptors genetics, Tissue Distribution, Protein Kinase Inhibitors pharmacology, Mutation, Drug Resistance, Neoplasm, Aniline Compounds pharmacology, Lung Neoplasms diagnostic imaging, Lung Neoplasms drug therapy, Carcinoma, Non-Small-Cell Lung drug therapy

Abstract

Introduction: Osimertinib is a third-generation tyrosine kinase inhibitor (TKI) that is able to inhibit the EGFR treatment resistance mutation T790M and primary EGFR mutations Del19 and L858R. The aim of the study was to evaluate the potential of carbon-11 labeled osimertinib to be used as a tracer for the PET imaging of tumors bearing the T790M mutation., Methods: Osimertinib was labeled with carbon-11 at two positions, and the effect of the labeling position on the metabolism and biodistribution was studied in female nu/nu mice. The mutation status specificity of osimertinib was confirmed in vitro in a cell growth inhibition experiment, and the tumor-targeting potential of the carbon-11 isotopologues was evaluated using female nu/nu mice xenografted with NSCLC cell lines; the wild-type EGFR expressing A549, the primary Del19 EGFR mutated HCC827 and the resistance T790M/L858R mutated H1975. One of the osimertinib tracers was selected based on the results acquired and evaluated for tracer specificity and selectivity by assessment of tumor uptake in a PET study where HCC827 tumor-bearing mice were pretreated with osimertinib or afatinib., Results: [Methylindole- 11 C]- and [dimethylamine- 11 C]osimertinib were synthesized by 11 C-methylation of precursors AZ5104 and AZ7550, respectively. Rapid metabolism of both analogs of [ 11 C]osimertinib was observed. Although the tumor uptake and retention of [methylindole- 11 C]- and [dimethylamine- 11 C]osimertinib in tumors were similar, the tumor-to-muscle ratios appeared to be higher for [methylindole- 11 C]osimertinib. The highest uptake, tumor-to-blood, and tumor-to-muscle ratio were observed in the Del19 EGFR mutated HCC827 tumors. However, the specificity and selectivity of [methylindole- 11 C]osimertinib PET could not be demonstrated in HCC827 tumors. The uptake of [methylindole- 11 C]osimertinib was not significantly higher in T790M resistance mutated H1975 xenografts compared to the negative control cell line A549., Conclusions: Osimertinib was successfully labeled at two positions with carbon-11, yielding two EGFR PET tracers, [methylindole- 11 C]osimertinib and [dimethylamine- 11 C]osimertinib. The preclinical evaluation demonstrated uptake and retention in three NSCLC xenografts; A549, HCC827, and H1975. The highest uptake was observed in the primary Del19 EGFR mutated HCC827. The ability of [methylindole- 11 C]osimertinib to distinguish between the T790M resistance mutated H1975 xenografts and the wild-type EGFR expressing A549 could not be confirmed in the ex vivo study., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: A.D. Windhorst is editor-in-chief of Nuclear Medicine & Biology. Daniëlle A.M. Heideman is a minority shareholder of Self-screen B.V., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

11. Imaging the TGFβ type I receptor in pulmonary arterial hypertension.

Author

Rotteveel L, Poot AJ, Kooijman EJM, Schuit RC, Schalij I, Sun X, Kurakula K, Happé C, Beaino W, Ten Dijke P, Lammertsma AA, Bogaard HJ, and Windhorst AD

Abstract

Transforming growth factor β (TGFβ) activity is perturbed in remodelled pulmonary vasculature of patients with pulmonary arterial hypertension (PAH), cancer, vascular diseases and developmental disorders. Inhibition of TGFβ, which signals via activin receptor-like kinase 5 (ALK5), prevents progression and development of experimental PAH. The purpose of this study was to assess two ALK5 targeting positron emission tomography (PET) tracers ([ 11 C]LR111 and [ 18 F]EW-7197) for imaging ALK5 in monocrotaline (MCT)- and Sugen/hypoxia (SuHx)-induced PAH. Both tracers were subjected to extensive in vitro and in vivo studies. [ 11 C]LR111 showed the highest metabolic stability, as 46 ± 2% of intact tracer was still present in rat blood plasma after 60 min. In autoradiography experiments, [ 11 C]LR111 showed high ALK5 binding in vitro compared with controls, 3.2 and 1.5 times higher in SuHx and MCT, respectively. In addition, its binding could be blocked by SB431542, an adenosine triphosphate competitive ALK5 kinase inhibitor. However, [ 18 F]EW-7197 showed the best in vivo results. 15 min after injection, uptake was 2.5 and 1.4 times higher in the SuHx and MCT lungs, compared with controls. Therefore, [ 18 F]EW-7197 is a promising PET tracer for ALK5 imaging in PAH., (© 2023. The Author(s).)

Published

2023

12. Advancing 89 Zr-immuno-PET in neuroscience with a bispecific anti-amyloid-beta monoclonal antibody - The choice of chelator is essential.

Author

Wuensche TE, Stergiou N, Mes I, Verlaan M, Schreurs M, Kooijman EJM, Janssen B, Windhorst AD, Jensen A, Asuni AA, Bang-Andersen B, Beaino W, Dongen GAMS, and Vugts DJ

Subjects

Animals, Mice, Iodine Radioisotopes, Chelating Agents, Deferoxamine, Zirconium, Tissue Distribution, Cell Line, Tumor, Positron-Emission Tomography methods, Antibodies, Monoclonal therapeutic use, Amyloid beta-Peptides, Immunoglobulin Fab Fragments, Esters, Alzheimer Disease diagnostic imaging, Alzheimer Disease drug therapy, Antibodies, Bispecific

Abstract

The accelerated approval of the monoclonal antibody (mAb) aducanumab as a treatment option for Alzheimer's Disease and the continued discussions about its efficacy have shown that a better understanding of immunotherapy for the treatment of neurodegenerative diseases is needed. 89 Zr-immuno-PET could be a suitable tool to open new avenues for the diagnosis of CNS disorders, monitoring disease progression, and assessment of novel therapeutics. Herein, three different 89 Zr-labeling strategies and direct radioiodination with 125 I of a bispecific anti-amyloid-beta aducanumab derivate, consisting of aducanumab with a C-terminal fused anti-transferrin receptor binding single chain Fab fragment derived from 8D3 (Adu-8D3), were compared ex vivo and in vivo with regard to brain uptake and target engagement in an APP/PS1 Alzheimer's disease mouse model and wild type animals. Methods: Adu-8D3 and a negative control antibody, based on the HIV specific B12 antibody also carrying C-terminal fused 8D3 scFab (B12-8D3), were each conjugated with NCS-DFO, NCS-DFO*, or TFP- N -suc-DFO-Fe-ester, followed by radiolabeling with 89 Zr. 125 I was used as a substitute for 124 I for labeling of both antibodies. 30 µg of radiolabeled mAb, corresponding to approximately 6 MBq 89 Zr or 2.5 MBq 125 I, were injected per mouse. PET imaging was performed 1, 3 and 7 days post injection (p.i.). All mice were sacrificed on day 7 p.i. and subjected to ex vivo biodistribution and brain autoradiography. Immunostaining on brain tissue was performed after autoradiography for further validation. Results: Ex vivo biodistribution revealed that the brain uptake of [ 89 Zr]Zr-DFO*-NCS-Adu-8D3 (2.19 ±0.12 %ID/g) was as high as for its 125 I-analog (2.21 ±0.15 %ID/g). [ 89 Zr]Zr-DFO-NCS-Adu-8D3 and [ 89 Zr]Zr-DFO- N -suc-Adu-8D3 showed significantly lower uptake (< 0.65 %ID/g), being in the same range as for the 89 Zr-labeled controls (B12-8D3). Autoradiography of [ 89 Zr]Zr-DFO*-NCS-Adu-8D3 and [ 125 I]I-Adu-8D3 showed an amyloid-beta related granular uptake pattern of radioactivity. In contrast, the [ 89 Zr]Zr-DFO-conjugates and the control antibody groups did not show any amyloid-beta related uptake pattern, indicating that DFO is inferior for 89 Zr-immuno-PET imaging of the brain in comparison to DFO* for Adu-8D3. This was confirmed by day 7 PET images showing only amyloid-beta related brain uptake for [ 89 Zr]Zr-DFO*-NCS-Adu-8D3. In wild type animals, such an uptake was not observed. Immunostaining showed a co-localization of all administered Adu-8D3 conjugates with amyloid-beta plaques. Conclusion: We successfully demonstrated that 89 Zr-immuno-PET is suitable for imaging and quantifying amyloid-beta specific brain uptake using a bispecific aducanumab brain shuttling antibody, Adu-8D3, but only when using the novel chelator DFO*, and not DFO, for labeling with 89 Zr., Competing Interests: Competing Interests: The authors do not have any conflict of interest. Allan Jensen, Ayodeji A. Asuni and Benny Bang-Andersen are paid employees of Lundbeck., (© The author(s).)

Published

2022

13. Synthesis and preclinical evaluation of [ 11 C]LR111 and [ 18 F]EW-7197 as PET tracers of the activin-receptor like kinase-5.

Author

Rotteveel L, Kurakula K, Kooijman EJM, Schuit RC, Verlaan M, Schreurs M, Beaino W, van Dinther MAH, Ten Dijke P, Lammertsma AA, Poot AJ, Bogaard HJ, and Windhorst AD

Subjects

Activins, Aniline Compounds, Animals, Humans, Mice, Receptor, Transforming Growth Factor-beta Type I, Transforming Growth Factor beta metabolism, Triazoles, Lung Neoplasms, Positron-Emission Tomography methods

Abstract

The transforming growth factor β (TGFβ) pathway plays a complex role in cancer biology, being involved in both tumour suppression as well as promotion. Overactive TGFβ signalling has been linked to multiple diseases, including cancer, pulmonary arterial hypertension, and fibrosis. One of the key meditators within this pathway is the TGFβ type I receptor, also termed activin receptor-like kinase 5 (ALK5). ALK5 expression level is a key determinant of TGFβ signalling intensity and duration, and perturbation has been linked to diseases. A validated ALK5 positron emission tomography (PET) tracer creates an opportunity, therefore, to study its role in human diseases. To develop ALK5 PET tracers, two small molecule ALK5 kinase inhibitors were selected as lead compounds, which were labelled with carbon-11 and fluorine-18, respectively. [ 11 C]LR111 was synthesized with a yield of 17 ± 6%, a molar activity of 126 ± 79 GBq·μmol -1 and a purity of >95% (n = 44). [ 18 F]EW-7197 was synthesized with a yield of 10 ± 5%, a molar activity of 183 ± 126 GBq·μmol -1 and a purity of >95% (n = 11). Metabolic stability was evaluated in vivo in mice, showing 39 ± 2% of intact [ 11 C]LR111 and 21 ± 2% of intact [ 18 F]EW-7197 in blood plasma at 45 min p.i. In vitro binding experiments were conducted in breast cancer MDA-MB-231 and lung cancer A431 cell lines. In addition, both tracers were used for PET imaging in MDA-MB-231 xenograft models. Selective uptake of [ 18 F]EW-7197 and [ 11 C]LR111 was observed in MDA-MB-231 cells, in the MDA-MB-231 tumour xenografts in vivo and in the autoradiograms. As [ 11 C]LR111 and [ 18 F]EW-7197 showed selectivity of binding to ALK5 in vivo and in vitro. Both tracers are thereby valuable tools for the detection of ALK5 activity., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

14. Pretargeted PET Imaging with a TCO-Conjugated Anti-CD44v6 Chimeric mAb U36 and [ 89 Zr]Zr-DFO-PEG 5 -Tz.

Author

Lumen D, Vugts D, Chomet M, Imlimthan S, Sarparanta M, Vos R, Schreurs M, Verlaan M, Lang PA, Hippeläinen E, Beaino W, Windhorst AD, and Airaksinen AJ

Subjects

Antibodies, Monoclonal pharmacokinetics, Cell Line, Tumor, Humans, Squamous Cell Carcinoma of Head and Neck diagnostic imaging, Zirconium, Head and Neck Neoplasms diagnostic imaging, Positron-Emission Tomography methods

Abstract

The recent advances in the production of engineered antibodies have facilitated the development and application of tailored, target-specific antibodies. Positron emission tomography (PET) of these antibody-based drug candidates can help to better understand their in vivo behavior. In this study, we report an in vivo proof-of-concept pretargeted immuno-PET study where we compare a pretargeting vs targeted approach using a new 89 Zr-labeled tetrazine as a bio-orthogonal ligand in an inverse electron demand Diels-Alder (IEDDA) in vivo click reaction. A CD44v6-selective chimeric monoclonal U36 was selected as the targeting antibody because it has potential in immuno-PET imaging of head-and-neck squamous cell carcinoma (HNSCC). Zirconium-89 ( t 1/2 = 78.41 h) was selected as the radionuclide of choice to be able to make a head-to-head comparison of the pretargeted and targeted approaches. [ 89 Zr]Zr-DFO-PEG 5 -Tz ([ 89 Zr]Zr- 3 ) was synthesized and used in pretargeted PET imaging of HNSCC xenografts (VU-SCC-OE) at 24 and 48 h after administration of a trans -cyclooctene (TCO)-functionalized U36. The pretargeted approach resulted in lower absolute tumor uptake than the targeted approach (1.5 ± 0.2 vs 17.1 ± 3.0% ID/g at 72 h p.i. U36) but with comparable tumor-to-non-target tissue ratios and significantly lower absorbed doses. In conclusion, anti-CD44v6 monoclonal antibody U36 was successfully used for 89 Zr-immuno-PET imaging of HNSCC xenograft tumors using both a targeted and pretargeted approach. The results not only support the utility of the pretargeted approach in immuno-PET imaging but also demonstrate the challenges in achieving optimal in vivo IEDDA reaction efficiencies in relation to antibody pharmacokinetics.

Published

2022

15. α-Synuclein Radiotracer Development and In Vivo Imaging: Recent Advancements and New Perspectives.

Author

Alzghool OM, van Dongen G, van de Giessen E, Schoonmade L, and Beaino W

Subjects

Biomarkers metabolism, Humans, Lewy Bodies pathology, Ligands, alpha-Synuclein metabolism, Parkinson Disease metabolism, Synucleinopathies

Abstract

α-Synucleinopathies including idiopathic Parkinson's disease, dementia with Lewy bodies and multiple systems atrophy share overlapping symptoms and pathological hallmarks. Selective neurodegeneration and Lewy pathology are the main hallmarks of α-synucleinopathies. Currently, there is no imaging biomarker suitable for a definitive early diagnosis of α-synucleinopathies. Although dopaminergic deficits detected with single-photon emission computed tomography (SPECT) and positron emission tomography (PET) radiotracers can support clinical diagnosis by confirming the presence of dopaminergic neurodegeneration, dopaminergic imaging cannot visualize the preceding disease process, nor distinguish α-synucleinopathies from tauopathies with dopaminergic neurodegeneration, especially at early symptomatic disease stage when clinical presentation is often overlapping. Aggregated α-synuclein (αSyn) could be a suitable imaging biomarker in α-synucleinopathies, because αSyn aggregation and therefore, Lewy pathology is evidently an early driver of α-synucleinopathies pathogenesis. Additionally, several antibodies and small molecule compounds targeting aggregated αSyn are in development for therapy. However, there is no way to directly measure if or how much they lower the levels of aggregated αSyn in the brain. There is clearly a paramount diagnostic and therapeutic unmet medical need. To date, aggregated αSyn and Lewy pathology inclusion bodies cannot be assessed ante-mortem with SPECT or PET imaging because of the suboptimal binding characteristics and/or physicochemical properties of current radiotracers. The aim of this narrative review is to highlight the suitability of aggregated αSyn as an imaging biomarker in α-synucleinopathies, the current limitations with and lessons learned from αSyn radiotracer development, and finally to propose antibody-based ligands for imaging αSyn aggregates as a complementary tool rather than an alternative to small molecule ligands. © 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson Movement Disorder Society., (© 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson Movement Disorder Society.)

Published

2022

16. Correction to Novel Thienopyrimidine-Based PET Tracers for P2Y 12 Receptor Imaging in the Brain.

Author

van der Wildt B, Janssen B, Pekošak A, Stéen EJL, Schuit RC, Kooijman EJM, Beaino W, Vugts DJ, and Windhorst AD

Published

2022

17. Immuno-PET Imaging of Atherosclerotic Plaques with [ 89 Zr]Zr-Anti-CD40 mAb-Proof of Concept.

Author

Poels K, Schreurs M, Jansen M, Vugts DJ, Seijkens TTP, van Dongen GAMS, Lutgens E, and Beaino W

Abstract

Non-invasive imaging of atherosclerosis can help in the identification of vulnerable plaque lesions. CD40 is a co-stimulatory molecule present on various immune and non-immune cells in the plaques and is linked to inflammation and plaque instability. We hypothesize that a 89 Zr-labeled anti-CD40 monoclonal antibody (mAb) tracer has the potential to bind to cells present in atherosclerotic lesions and that CD40 Positron Emission Tomography (PET) can contribute to the detection of vulnerable atherosclerotic plaque lesions. To study this, wild-type (WT) and ApoE -/- mice were fed a high cholesterol diet for 14 weeks to develop atherosclerosis. Mice were injected with [ 89 Zr]Zr-anti-CD40 mAb and the aortic uptake was evaluated and quantified using PET/Computed Tomography (CT) imaging. Ex vivo biodistribution was performed post-PET imaging and the uptake in the aorta was assessed with autoradiography and compared with Oil red O staining to determine the tracer potential to detect atherosclerotic plaques. On day 3 and 7 post injection, analysis of [ 89 Zr]Zr-anti-CD40 mAb PET/CT scans showed a more pronounced aortic signal in ApoE -/- compared to WT mice with an increased aorta-to-blood uptake ratio. Autoradiography revealed [ 89 Zr]Zr-anti-CD40 mAb uptake in atherosclerotic plaque areas in ApoE -/- mice, while no signal was found in WT mice. Clear overlap was observed between plaque areas as identified by Oil red O staining and autoradiography signal of [ 89 Zr]Zr-anti-CD40 mAb in ApoE -/- mice. In this proof of concept study, we showed that PET/CT with [ 89 Zr]Zr-anti-CD40 mAb can detect atherosclerotic plaques. As CD40 is associated with plaque vulnerability, [ 89 Zr]Zr-anti-CD40 mAb has the potential to become a tracer to detect vulnerable atherosclerotic plaques.

Published

2022

18. Folate Receptor Beta for Macrophage Imaging in Rheumatoid Arthritis.

Author

Steinz MM, Ezdoglian A, Khodadust F, Molthoff CFM, Srinivasarao M, Low PS, Zwezerijnen GJC, Yaqub M, Beaino W, Windhorst AD, Tas SW, Jansen G, and van der Laken CJ

Subjects

Animals, Arthritis, Rheumatoid diagnostic imaging, Arthritis, Rheumatoid drug therapy, Folic Acid metabolism, Folic Acid Antagonists pharmacology, Folic Acid Antagonists therapeutic use, Humans, Positron-Emission Tomography, Arthritis, Rheumatoid metabolism, Folate Receptor 2 metabolism, Macrophages metabolism

Abstract

Non-invasive imaging modalities constitute an increasingly important tool in diagnostic and therapy response monitoring of patients with autoimmune diseases, including rheumatoid arthritis (RA). In particular, macrophage imaging with positron emission tomography (PET) using novel radiotracers based on differential expression of plasma membrane proteins and functioning of cellular processes may be suited for this. Over the past decade, selective expression of folate receptor β (FRβ), a glycosylphosphatidylinositol-anchored plasma membrane protein, on myeloid cells has emerged as an attractive target for macrophage imaging by exploiting the high binding affinity of folate-based PET tracers. This work discusses molecular, biochemical and functional properties of FRβ, describes the preclinical development of a folate-PET tracer and the evaluation of this tracer in a translational model of arthritis for diagnostics and therapy-response monitoring, and finally the first clinical application of the folate-PET tracer in RA patients with active disease. Consequently, folate-based PET tracers hold great promise for macrophage imaging in a variety of (chronic) inflammatory (autoimmune) diseases beyond RA., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Steinz, Ezdoglian, Khodadust, Molthoff, Srinivasarao, Low, Zwezerijnen, Yaqub, Beaino, Windhorst, Tas, Jansen and van der Laken.)

Published

2022

19. Novel Thienopyrimidine-Based PET Tracers for P2Y 12 Receptor Imaging in the Brain.

Author

van der Wildt B, Janssen B, Pekošak A, Stéen EJL, Schuit RC, Kooijman EJM, Beaino W, Vugts DJ, and Windhorst AD

Subjects

ATP Binding Cassette Transporter, Subfamily G, Member 2, Animals, Brain diagnostic imaging, Positron-Emission Tomography, Pyrimidines, Rats, Rats, Wistar, Neoplasm Proteins, Neuroinflammatory Diseases

Abstract

The P2Y 12 receptor (P2Y 12 R) is uniquely expressed on microglia in the brain, and its expression level directly depends on the microglial activation state. Therefore, P2Y 12 R provides a promising imaging marker for distinguishing the pro- and anti-inflammatory microglial phenotypes, both of which play crucial roles in neuroinflammatory diseases. In this study, three P2Y 12 R antagonists were selected from the literature, radiolabeled with carbon-11 or fluorine-18, and evaluated in healthy Wistar rats. Brain imaging was performed with and without blocking of efflux transporters P -glycoprotein and breast cancer resistance protein using tariquidar. Low brain uptake in healthy rats was observed for all tracers at baseline conditions, whereas blocking of efflux transporters resulted in a strong (6-7 fold) increase in brain uptake for both of them. Binding of the most promising tracer, [ 18 F] 3 , was further evaluated by in vitro autoradiography on rat brain sections, ex vivo metabolite studies, and in vivo P2Y 12 R blocking studies. In vitro binding of [ 18 F] 3 on rat brain sections indicated high P2Y 12 R targeting with approximately 70% selective and specific binding. At 60 min post-injection, over 95% of radioactivity in the brain accounted for an intact tracer. In blood plasma, still 40% intact tracer was found, and formed metabolites did not enter the brain. A moderate P2Y 12 R blocking effect was observed in vivo by positron emission tomography (PET) imaging with [ 18 F] 3 ( p = 0.04). To conclude, three potential P2Y 12 R PET tracers were obtained and analyzed for P2Y 12 R targeting in the brain. Unfortunately, the brain uptake appeared low. Future work will focus on the design of P2Y 12 R inhibitors with improved physicochemical characteristics to reduce efflux transport and increase brain penetration.

Published

2021

20. Towards PET imaging of the dynamic phenotypes of microglia.

Author

Beaino W, Janssen B, Vugts DJ, de Vries HE, and Windhorst AD

Subjects

Humans, Neurodegenerative Diseases pathology, Neuroinflammatory Diseases pathology, Prostaglandin-Endoperoxide Synthases analysis, Radioactive Tracers, Receptor, Cannabinoid, CB2 analysis, Receptor, Macrophage Colony-Stimulating Factor analysis, Receptors, GABA analysis, Receptors, Purinergic P2X7 analysis, Receptors, Purinergic P2Y12 analysis, Microglia pathology, Neurodegenerative Diseases diagnostic imaging, Neuroinflammatory Diseases diagnostic imaging, Positron-Emission Tomography methods

Abstract

There is increasing evidence showing the heterogeneity of microglia activation in neuroinflammatory and neurodegenerative diseases. It has been hypothesized that pro-inflammatory microglia are detrimental and contribute to disease progression, while anti-inflammatory microglia play a role in damage repair and remission. The development of therapeutics targeting the deleterious glial activity and modulating it into a regenerative phenotype relies heavily upon a clearer understanding of the microglia dynamics during disease progression and the ability to monitor therapeutic outcome in vivo. To that end, molecular imaging techniques are required to assess microglia dynamics and study their role in disease progression as well as to evaluate the outcome of therapeutic interventions. Positron emission tomography (PET) is such a molecular imaging technique, and provides unique capabilities for non-invasive quantification of neuroinflammation and has the potential to discriminate between microglia phenotypes and define their role in the disease process. However, several obstacles limit the possibility for selective in vivo imaging of microglia phenotypes mainly related to the poor characterization of specific targets that distinguish the two ends of the microglia activation spectrum and lack of suitable tracers. PET tracers targeting translocator protein 18 kDa (TSPO) have been extensively explored, but despite the success in evaluating neuroinflammation they failed to discriminate between microglia activation statuses. In this review, we highlight the current knowledge on the microglia phenotypes in the major neuroinflammatory and neurodegenerative diseases. We also discuss the current and emerging PET imaging targets, the tracers and their potential in discriminating between the pro- and anti-inflammatory microglia activation states., (© 2021 The Authors. Clinical & Experimental Immunology published by John Wiley & Sons Ltd on behalf of British Society for Immunology.)

Published

2021

21. Synthesis and evaluation of [ 18 F]cinacalcet for the imaging of parathyroid hyperplasia.

Author

Pees A, Beaino W, Kooijman EJM, Schreurs M, Verlaan M, Schuit RC, Vosjan MJWD, Engelsman AF, Windhorst AD, and Vugts DJ

Abstract

Introduction: Parathyroid hyperplasia is a disease characterized by overactive parathyroid glands secreting increased levels of parathyroid hormone. Surgical removal of the parathyroid glands is the standard treatment but requires precise pre-operative localization of the glands. However, currently available imaging modalities show limited sensitivity. Since positron emission tomography (PET) is a molecular imaging technique with high accuracy and sensitivity, our aim was to develop a new PET tracer for overactive parathyroid glands imaging by radiolabelling cinacalcet, a drug binding to the calcium-sensing receptor of the parathyroid glands., Methods: [ 18 F]Cinacalcet was synthesized by copper-catalysed [ 18 F]trifluoromethylation of a boronic acid precursor using high molar activity [ 18 F]fluoroform. Ex vivo biodistribution and metabolism were evaluated in 12 healthy male Wistar rats at 5, 15, 45 and 90 min. PET scans were performed at baseline and after blocking with NPS R-568., Results: [ 18 F]Cinacalcet was obtained in an overall radiosynthesis time of 1 h with a radiochemical purity of 98 ± 1%, a radiochemical yield of 8 ± 4% (overall, n = 7, corrected for decay) and a molar activity of 40 ± 11 GBq/μmol (n = 7, at EOS). The ex vivo biodistribution showed uptake in the thyroid and parathyroid glands as well as in other glands such as adrenals, salivary glands and pancreas. The tracer was rapidly cleared from the blood via liver and kidneys and showed fast metabolism. PET images confirmed uptake in the target organ. However, in a blocking study with NPS R-568 specific binding of [ 18 F]cinacalcet to the CaSR could not be confirmed., Conclusions: [ 18 F]Cinacalcet was successfully synthesized. First in vivo experiments in healthy rats showed uptake of the tracer in the target organ and fast metabolism, encouraging further in vivo evaluation of this tracer., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Albert D. Windhorst, co-author of this manuscript, is editor-in-chief of Nuclear Medicine and Biology. He was not involved in the review process of this manuscript to avoid any potential conflict of interest., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

22. Retention of 64 Cu-FLFLF, a Formyl Peptide Receptor 1-Specific PET Probe, Correlates with Macrophage and Neutrophil Abundance in Lung Granulomas from Cynomolgus Macaques.

Author

Mattila JT, Beaino W, White AG, Nyiranshuti L, Maiello P, Tomko J, Frye LJ, Fillmore D, Scanga CA, Lin PL, Flynn JL, and Anderson CJ

Subjects

Animals, Granuloma diagnostic imaging, Lung diagnostic imaging, Macaca fascicularis, Macrophages, Positron Emission Tomography Computed Tomography, Neutrophils, Receptors, Formyl Peptide

Abstract

Neutrophilic inflammation correlates with severe tuberculosis (TB), a disease caused by Mycobacterium tuberculosis ( Mtb ). Granulomas are lesions that form in TB, and a PET probe for following neutrophil recruitment to granulomas could predict disease progression. We tested the formyl peptide receptor 1 (FPR1)-targeting peptide FLFLF in Mtb -infected macaques. Preliminary studies in mice demonstrated specificity for neutrophils. In macaques, 64 Cu-FLFLF was retained in lung granulomas and analysis of lung granulomas identified positive correlations between 64 Cu-FLFLF and neutrophil and macrophage numbers (R 2 = 0.8681 and 0.7643, respectively), and weaker correlations for T cells and B cells (R 2 = 0.5744 and 0.5908, respectively), suggesting that multiple cell types drive 64 Cu-FLFLF avidity. By PET/CT imaging, we found that granulomas retained 64 Cu-FLFLF but with less avidity than the glucose analog 18 F-FDG. These studies suggest that neutrophil-specific probes have potential PET/CT applications in TB, but important issues need to be addressed before they can be used in nonhuman primates and humans.

Published

2021

23. Performance of nanoScan PET/CT and PET/MR for quantitative imaging of 18 F and 89 Zr as compared with ex vivo biodistribution in tumor-bearing mice.

Author

Chomet M, Schreurs M, Vos R, Verlaan M, Kooijman EJ, Poot AJ, Boellaard R, Windhorst AD, van Dongen GA, Vugts DJ, Huisman MC, and Beaino W

Abstract

Introduction: The assessment of ex vivo biodistribution is the preferred method for quantification of radiotracers biodistribution in preclinical models, but is not in line with current ethics on animal research. PET imaging allows for noninvasive longitudinal evaluation of tracer distribution in the same animals, but systemic comparison with ex vivo biodistribution is lacking. Our aim was to evaluate the potential of preclinical PET imaging for accurate tracer quantification, especially in tumor models., Methods: NEMA NU 4-2008 phantoms were filled with 11 C, 68 Ga, 18 F, or 89 Zr solutions and scanned in Mediso nanoPET/CT and PET/MR scanners until decay. N87 tumor-bearing mice were i.v. injected with either [ 18 F]FDG (~ 14 MBq), kept 50 min under anesthesia followed by imaging for 20 min, or with [ 89 Zr]Zr-DFO-NCS-trastuzumab (~ 5 MBq) and imaged 3 days post-injection for 45 min. After PET acquisition, animals were killed and organs of interest were collected and measured in a γ-counter to determine tracer uptake levels. PET data were reconstructed using TeraTomo reconstruction algorithm with attenuation and scatter correction and regions of interest were drawn using Vivoquant software. PET imaging and ex vivo biodistribution were compared using Bland-Altman plots., Results: In phantoms, the highest recovery coefficient, thus the smallest partial volume effect, was obtained with 18 F for both PET/CT and PET/MR. Recovery was slightly lower for 11 C and 89 Zr, while the lowest recovery was obtained with 68 Ga in both scanners. In vivo, tumor uptake of the 18 F- or 89 Zr-labeled tracer proved to be similar irrespective whether quantified by either PET/CT and PET/MR or ex vivo biodistribution with average PET/ex vivo ratios of 0.8-0.9 and a deviation of 10% or less. Both methods appeared less congruent in the quantification of tracer uptake in healthy organs such as brain, kidney, and liver, and depended on the organ evaluated and the radionuclide used., Conclusions: Our study suggests that PET quantification of 18 F- and 89 Zr-labeled tracers is reliable for the evaluation of tumor uptake in preclinical models and a valuable alternative technique for ex vivo biodistribution. However, PET and ex vivo quantification require fully described experimental and analytical procedures for reliability and reproducibility.

Published

2021

24. The Role of 89 Zr-Immuno-PET in Navigating and Derisking the Development of Biopharmaceuticals.

Author

van Dongen GAMS, Beaino W, Windhorst AD, Zwezerijnen GJC, Oprea-Lager DE, Hendrikse NH, van Kuijk C, Boellaard R, Huisman MC, and Vugts DJ

Subjects

Animals, Humans, Biological Products, Drug Design, Positron-Emission Tomography methods, Radioisotopes chemistry, Zirconium chemistry

Abstract

The identification of molecular drivers of disease and the compelling rise of biotherapeutics have impacted clinical care but have also come with challenges. Such therapeutics include peptides, monoclonal antibodies, antibody fragments and nontraditional binding scaffolds, activatable antibodies, bispecific antibodies, immunocytokines, antibody-drug conjugates, enzymes, polynucleotides, and therapeutic cells, as well as alternative drug carriers such as nanoparticles. Drug development is expensive, attrition rates are high, and efficacy rates are lower than desired. Almost all these drugs, which in general have a long residence time in the body, can stably be labeled with 89 Zr for whole-body PET imaging and quantification. Although not restricted to monoclonal antibodies, this approach is called 89 Zr-immuno-PET. This review summarizes the state of the art of the technical aspects of 89 Zr-immuno-PET and illustrates why it has potential for steering the design, development, and application of biologic drugs. Appealing showcases are discussed to illustrate what can be learned with this emerging technology during preclinical and especially clinical studies about biologic drug formats and disease targets. In addition, an overview of ongoing and completed clinical trials is provided. Although 89 Zr-immuno-PET is a young tool in drug development, its application is rapidly expanding, with first clinical experiences giving insight on why certain drug-target combinations might have better perspectives than others., (© 2021 by the Society of Nuclear Medicine and Molecular Imaging.)

Published

2021

25. Head-to-head comparison of DFO* and DFO chelators: selection of the best candidate for clinical 89 Zr-immuno-PET.

Author

Chomet M, Schreurs M, Bolijn MJ, Verlaan M, Beaino W, Brown K, Poot AJ, Windhorst AD, Gill H, Marik J, Williams S, Cowell J, Gasser G, Mindt TL, van Dongen GAMS, and Vugts DJ

Subjects

Animals, Cell Line, Tumor, Deferoxamine, Mice, Positron-Emission Tomography, Tissue Distribution, Zirconium, Chelating Agents, Radioisotopes

Abstract

Purpose: Almost all radiolabellings of antibodies with 89 Zr currently employ the hexadentate chelator desferrioxamine (DFO). However, DFO can lead to unwanted uptake of 89 Zr in bones due to instability of the resulting metal complex. DFO*-NCS and the squaramide ester of DFO, DFOSq, are novel analogues that gave more stable 89 Zr complexes than DFO in pilot experiments. Here, we directly compare these linker-chelator systems to identify optimal immuno-PET reagents., Methods: Cetuximab, trastuzumab and B12 (non-binding control antibody) were labelled with 89 Zr via DFO*-NCS, DFOSq, DFO-NCS or DFO*Sq. Stability in vitro was compared at 37 °C in serum (7 days), in formulation solution (24 h ± chelator challenges) and in vivo with N87 and A431 tumour-bearing mice. Finally, to demonstrate the practical benefit of more stable complexation for the accurate detection of bone metastases, [ 89 Zr]Zr-DFO*-NCS and [ 89 Zr]Zr-DFO-NCS-labelled trastuzumab and B12 were evaluated in a bone metastasis mouse model where BT-474 breast cancer cells were injected intratibially., Results: [ 89 Zr]Zr-DFO*-NCS-trastuzumab and [ 89 Zr]Zr-DFO*Sq-trastuzumab showed excellent stability in vitro, superior to their [ 89 Zr]Zr-DFO counterparts under all conditions. While tumour uptake was similar for all conjugates, bone uptake was lower for DFO* conjugates. Lower bone uptake for DFO* conjugates was confirmed using a second xenograft model: A431 combined with cetuximab. Finally, in the intratibial BT-474 bone metastasis model, the DFO* conjugates provided superior detection of tumour-specific signal over the DFO conjugates., Conclusion: DFO*-mAb conjugates provide lower bone uptake than their DFO analogues; thus, DFO* is a superior candidate for preclinical and clinical 89 Zr-immuno-PET.

Published

2021

26. PET imaging of P2X 7 R in the experimental autoimmune encephalomyelitis model of multiple sclerosis using [ 11 C]SMW139.

Author

Beaino W, Janssen B, Kooijman E, Vos R, Schuit RC, O'Brien-Brown J, Kassiou M, van Het Hof B, Vugts DJ, de Vries HE, and Windhorst AD

Subjects

Animals, Brain diagnostic imaging, Encephalomyelitis, Autoimmune, Experimental diagnostic imaging, Female, HEK293 Cells, Humans, Male, Multiple Sclerosis chemically induced, Multiple Sclerosis diagnostic imaging, Purinergic P2X Receptor Agonists chemistry, Purinergic P2X Receptor Agonists metabolism, Rats, Rats, Inbred Lew, Rats, Wistar, Brain metabolism, Carbon Radioisotopes metabolism, Encephalomyelitis, Autoimmune, Experimental metabolism, Multiple Sclerosis metabolism, Positron-Emission Tomography methods, Receptors, Purinergic P2X7 metabolism

Abstract

Background: Non-invasive imaging of the activation status of microglia and the ability to identify a pro- or anti-inflammatory environment can provide valuable insights not only into pathogenesis of neuro-inflammatory and neurodegenerative diseases but also the monitoring of the efficacy of immunomodulatory therapies. P2X 7 R is highly expressed on pro-inflammatory microglia and [ 11 C]SMW139, a specific P2X 7 R tracer for positron emission tomography imaging, showed good pharmacokinetics, stability, and brain permeability in vivo. Our objective was to evaluate the potential of [ 11 C]SMW139 for PET imaging of neuroinflammation in vivo in the experimental autoimmune encephalomyelitis (EAE) model., Methods: We induced EAE in Lewis rats by immunization with MBP 69-88 in complete Freund's adjuvant (CFA). We determined the affinity of [ 11 C]SMW139 to human and rat P2X 7 R using saturation binding assay. Using this tracer, PET imaging was performed at the peak of disease and in the recovery phase. In vivo blocking experiments were conducted to validate the specific brain uptake of the tracer. Immunohistochemistry staining and autoradiography were performed to evaluate the level of neuroinflammation and validate the specific binding of [ 11 C]SMW139., Results: [ 11 C]SMW139 showed good affinity for the rat P2X 7 R with a K d of 20.6 ± 1.7 nM. The uptake of [ 11 C]SMW139 was significantly higher in EAE animals at the peak of disease compared to the recovery phase but not in CFA control animals. The amplitude of increase of [ 11 C]SMW139 uptake showed significant positive correlation with clinical scores mainly in the spinal cord (Pearson = 0.75, Spearman = 0.76; p < 0.0001). Treating EAE animals with P2X 7 R antagonist JNJ-47965567 blocked the uptake of [ 11 C]SMW139 in the spinal cord, cerebellum, and brain stem, demonstrating specific accumulation of the tracer. P-glycoprotein blocking with tariquidar (30 mg/kg) did not affect tracer penetration in the brain showing that [ 11 C]SMW139 is not a Pgp substrate., Conclusion: Our data shows that [ 11 C]SMW139 is a promising PET tracer for imaging neuroinflammation and evaluating the dynamics of pro-inflammatory microglia in the brain. This can provide crucial insights into the role of microglia in disease progression and enables the development of novel treatment strategies aimed at modulating the immune response in order to promote neuroprotection.

Published

2020

27. Altered secretory and neuroprotective function of the choroid plexus in progressive multiple sclerosis.

Author

Rodríguez-Lorenzo S, Ferreira Francisco DM, Vos R, van Het Hof B, Rijnsburger M, Schroten H, Ishikawa H, Beaino W, Bruggmann R, Kooij G, and de Vries HE

Subjects

Adrenomedullin cerebrospinal fluid, Adrenomedullin genetics, Adult, Aged, Case-Control Studies, Female, Gene Expression Profiling, Gene Ontology, Glycoproteins cerebrospinal fluid, Glycoproteins genetics, Humans, Hypoxia-Inducible Factor 1, Hypoxia-Inducible Factor 1, alpha Subunit genetics, Intercellular Signaling Peptides and Proteins cerebrospinal fluid, Intercellular Signaling Peptides and Proteins genetics, Lateral Ventricles, Male, Metallothionein genetics, Middle Aged, Multiple Sclerosis, Chronic Progressive cerebrospinal fluid, Multiple Sclerosis, Relapsing-Remitting cerebrospinal fluid, Plasminogen Activator Inhibitor 1 cerebrospinal fluid, Plasminogen Activator Inhibitor 1 genetics, RNA, Antisense genetics, RNA, Long Noncoding, RNA-Seq, Choroid Plexus metabolism, Hypoxia genetics, Multiple Sclerosis, Chronic Progressive genetics, Multiple Sclerosis, Relapsing-Remitting genetics, Neuroprotection genetics, Neurosecretion genetics

Abstract

The choroid plexus (CP) is a key regulator of the central nervous system (CNS) homeostasis through its secretory, immunological and barrier properties. Accumulating evidence suggests that the CP plays a pivotal role in the pathogenesis of multiple sclerosis (MS), but the underlying mechanisms remain largely elusive. To get a comprehensive view on the role of the CP in MS, we studied transcriptomic alterations of the human CP in progressive MS and non-neurological disease controls using RNA sequencing. We identified 17 genes with significantly higher expression in progressive MS patients relative to that in controls. Among them is the newly described long non-coding RNA HIF1A-AS3. Next to that, we uncovered disease-affected pathways related to hypoxia, secretion and neuroprotection, while only subtle immunological and no barrier alterations were observed. In an ex vivo CP explant model, a subset of the upregulated genes responded in a similar way to hypoxic conditions. Our results suggest a deregulation of the Hypoxia-Inducible Factor (HIF)-1 pathway in progressive MS CP. Importantly, cerebrospinal fluid levels of the hypoxia-responsive secreted peptide PAI-1 were higher in MS patients with high disability relative to those with low disability. These findings provide for the first time a complete overview of the CP transcriptome in health and disease, and suggest that the CP environment becomes hypoxic in progressive MS patients, highlighting the altered secretory and neuroprotective properties of the CP under neuropathological conditions. Together, these findings provide novel insights to target the CP and promote the secretion of neuroprotective factors into the CNS of progressive MS patients.

Published

2020

28. The P2X 7 receptor tracer [ 11 C]SMW139 as an in vivo marker of neuroinflammation in multiple sclerosis: a first-in man study.

Author

Hagens MHJ, Golla SSV, Janssen B, Vugts DJ, Beaino W, Windhorst AD, O'Brien-Brown J, Kassiou M, Schuit RC, Schwarte LA, de Vries HE, Killestein J, Barkhof F, van Berckel BNM, and Lammertsma AA

Subjects

Brain diagnostic imaging, Humans, Microglia, Positron-Emission Tomography, Multiple Sclerosis diagnostic imaging, Multiple Sclerosis, Relapsing-Remitting diagnostic imaging

Abstract

Purpose: The novel PET tracer [ 11 C]SMW139 binds with high affinity to the P2X 7 receptor, which is expressed on pro-inflammatory microglia. The purposes of this first in-man study were to characterise pharmacokinetics of [ 11 C]SMW139 in patients with active relapsing remitting multiple sclerosis (RRMS) and healthy controls (HC) and to evaluate its potential to identify in vivo neuroinflammation in RRMS., Methods: Five RRMS patients and 5 age-matched HC underwent 90-min dynamic [ 11 C]SMW139 PET scans, with online continuous and manual arterial sampling to generate a metabolite-corrected arterial plasma input function. Tissue time activity curves were fitted to single- and two-tissue compartment models, and the model that provided the best fits was determined using the Akaike information criterion., Results: The optimal model for describing [ 11 C]SMW139 kinetics in both RRMS and HC was a reversible two-tissue compartment model with blood volume parameter and with the dissociation rate k 4 fixed to the whole-brain value. Exploratory group level comparisons demonstrated an increased volume of distribution (V T ) and binding potential (BP ND ) in RRMS compared with HC in normal appearing brain regions. BP ND in MS lesions was decreased compared with non-lesional white matter, and a further decrease was observed in gadolinium-enhancing lesions. In contrast, increased V T was observed in enhancing lesions, possibly resulting from disruption of the blood-brain barrier in active MS lesions. In addition, there was a high correlation between parameters obtained from 60- to 90-min datasets, although analyses using 60-min data led to a slight underestimation in regional V T and BP ND values., Conclusions: This first in-man study demonstrated that uptake of [ 11 C]SMW139 can be quantified with PET using BP ND as a measure for specific binding in healthy controls and RRMS patients. Additional studies are warranted for further clinical evaluation of this novel neuroinflammation tracer.

Published

2020

29. Combined VLA-4-Targeted Radionuclide Therapy and Immunotherapy in a Mouse Model of Melanoma.

Author

Choi J, Beaino W, Fecek RJ, Fabian KPL, Laymon CM, Kurland BF, Storkus WJ, and Anderson CJ

Subjects

Animals, B7-H1 Antigen antagonists & inhibitors, CTLA-4 Antigen antagonists & inhibitors, Cell Line, Tumor, Dipeptides chemistry, Female, Gallium Radioisotopes, Heterocyclic Compounds, 1-Ring chemistry, Humans, Lutetium pharmacokinetics, Male, Melanoma, Experimental diagnostic imaging, Mice, Mice, Inbred C57BL, Molecular Targeted Therapy methods, Phenylurea Compounds chemistry, Polyethylene Glycols chemistry, Programmed Cell Death 1 Receptor antagonists & inhibitors, Radioisotopes pharmacokinetics, Radiopharmaceuticals chemistry, Radiopharmaceuticals pharmacokinetics, Radiotherapy Dosage, Tumor Protein, Translationally-Controlled 1, Integrin alpha4beta1 antagonists & inhibitors, Lutetium therapeutic use, Melanoma, Experimental immunology, Melanoma, Experimental radiotherapy, Radioimmunotherapy methods, Radioisotopes therapeutic use, Radiopharmaceuticals therapeutic use

Abstract

Very late antigen-4 (VLA-4; also known as integrin α 4 β 1 ) is expressed at high levels in aggressive and metastatic melanoma tumors and may provide an ideal target for imaging and targeted radionuclide therapy (TRT). 177 Lu-DOTA-PEG 4 -LLP2A ( 177 Lu-LLP2A) is a TRT that shows high affinity for VLA-4 and high uptake in B16F10 mouse melanoma tumors in vivo. Here, we report efficacy studies of 177 Lu-LLP2A, alone and combined with immune checkpoint inhibitors (ICIs) (anti-PD-1, anti-PD-L1, and anti-CTLA-4 antibodies), in B16F10 tumor-bearing mice. Methods: Tumor cells (1 × 10 6 ) were implanted subcutaneously in C57BL/6 mice. After 8-10 d, the mice were randomized into 8 groups. 177 Lu-LLP2A was injected intravenously on day 8 or 9 (single dose), and ICI antibodies were administered intraperitoneally in 3 doses. Tumor growth was monitored over time via calipers. Terminal deoxynucleotidyl transferase dUTP nick-end labeling (TUNEL) staining for apoptosis was performed on fixed tumors. In a separate study, Cy3-LLP2A or Cy3-scrambled LLP2A was injected in tumor-bearing mice, and tumors were collected 4 h after injection and then analyzed by flow cytometry and immunofluorescence microscopy using different immune cell markers. Results: TRT alone showed efficacy comparable to the dual-ICI anti-PD-1 + anti-CTLA-4 or anti-PD-L1 + anti-CTLA-4, whereas TRT + ICIs significantly enhanced survival. TUNEL staining showed that the highest levels of apoptosis were in the TRT + ICI groups. In addition to targeting tumor cells, TRT also bound immune cells in the tumor microenvironment. Flow cytometry data showed that the tumors consisted of about 77% tumor cells and fibroblasts (CD45-negative/CD49d-positive) and about 23% immune cells (CD45-positive/CD49d-positive) and that immune cells expressed higher levels of VLA-4. Cy3-LLP2A and CD49d colocalized with macrophages (CD68), T cells (CD8, CD4), and B cells (CD19). Immunohistochemical analysis identified a significant colocalization of Cy3-LLP2A and CD68. Conclusion: Combination treatment with TRT + ICIs targets both tumor cells and immune cells and has potential as a therapeutic agent in patients with metastatic melanoma., (© 2018 by the Society of Nuclear Medicine and Molecular Imaging.)

Published

2018

30. Synthesis and Preclinical Evaluation of the First Carbon-11 Labeled PET Tracers Targeting Substance P 1-7 .

Author

Pekošak A, Bulc JŽ, Korat Š, Schuit RC, Kooijman E, Vos R, Rongen M, Verlaan M, Takkenkamp K, Beaino W, Poot AJ, and Windhorst AD

Subjects

Animals, Blood-Brain Barrier diagnostic imaging, Blood-Brain Barrier metabolism, Carbon Radioisotopes chemistry, Drug Evaluation, Preclinical, Injections, Intravenous, Male, Models, Animal, Peptidomimetics administration & dosage, Peptidomimetics chemistry, Permeability, Radiopharmaceuticals administration & dosage, Radiopharmaceuticals chemistry, Rats, Rats, Wistar, Spinal Cord diagnostic imaging, Spinal Cord metabolism, Tissue Distribution, Molecular Imaging methods, Peptidomimetics pharmacokinetics, Positron-Emission Tomography methods, Radiopharmaceuticals pharmacokinetics, Substance P metabolism

Abstract

Two potent SP 1-7 peptidomimetics have been successfully radiolabeled via [ 11 C]CO 2 -fixation with excellent yields, purity, and molar activity. l-[ 11 C]SP 1-7 -peptidomimetic exhibited promising ex vivo biodistribution profile. Metabolite analysis showed that l-[ 11 C]SP 1-7 -peptidomimetic is stable in brain and spinal cord, whereas rapid metabolic degradation occurs in rat plasma. Metabolic stability can be significantly improved by substituting l-Phe for d-Phe, preserving 70% more of intact tracer and resulting in better brain and spinal cord tracer retention. Positron emission tomography (PET) scanning confirmed moderate brain (1.5 SUV; peak at 3 min) and spinal cord (1.0 SUV; peak at 10 min) uptake for l- and d-[ 11 C]SP 1-7 -peptidomimetic. A slight decrease in SUV value was observed after pretreatment with natural peptide SP 1-7 in spinal cord for l-[ 11 C]SP 1-7 -peptidomimetic. On the contrary, blocking using cold analogues of l- and d-[ 11 C]tracers did not reduce the tracers' brain and spinal cord exposure. In summary, PET scanning of l- and d-[ 11 C]SP 1-7 -peptidomimetics confirms rapid blood-brain barrier and blood-spinal-cord barrier penetration. Therefore, further validation of these two tracers targeting SP 1-7 is needed in order to define a new PET imaging target and select its most appropriate radiopharmaceutical.

Published

2018

31. Identification of new molecular targets for PET imaging of the microglial anti-inflammatory activation state.

Author

Villa A, Klein B, Janssen B, Pedragosa J, Pepe G, Zinnhardt B, Vugts DJ, Gelosa P, Sironi L, Beaino W, Damont A, Dollé F, Jego B, Winkeler A, Ory D, Solin O, Vercouillie J, Funke U, Laner-Plamberger S, Blomster LV, Christophersen P, Vegeto E, Aigner L, Jacobs A, Planas AM, Maggi A, and Windhorst AD

Subjects

Animals, Anti-Inflammatory Agents administration & dosage, Carbon Radioisotopes administration & dosage, Computational Biology, Gene Expression Profiling, Humans, Immunohistochemistry, Interleukin-4 administration & dosage, Mice, Radioactive Tracers, Real-Time Polymerase Chain Reaction, Receptors, Purinergic P2Y12 analysis, Rodentia, Stroke pathology, Brain diagnostic imaging, Brain immunology, Microglia immunology, Molecular Imaging methods, Positron-Emission Tomography methods

Abstract

Microglia are potential targets for therapeutic intervention in neurological and neurodegenerative diseases affecting the central nervous system. In order to assess the efficacy of therapies aimed to reduce the tissue damaging activities of microglia and/or to promote the protective potential of these cells, suitable pre-clinical and clinical tools for the in vivo analysis of microglia activities and dynamics are required. The aim of this work was to identify new translational markers of the anti-inflammatory / protective state of microglia for the development of novel PET tracers. Methods: New translational markers of the anti-inflammatory/protective activation state of microglia were selected by bioinformatic approaches and were in vitro and ex vivo validated by qPCR and immunohistochemistry in rodent and human samples. Once a viable marker was identified, a novel PET tracer was developed. This tracer was subsequently confirmed by autoradiography experiments in murine and human brain tissues. Results: Here we provide evidence that P2RY12 expression increases in murine and human microglia following exposure to anti-inflammatory stimuli, and that its expression is modulated in the reparative phase of experimental and clinical stroke. We then synthesized a novel carbon-11 labeled tracer targeting P2RY12, showing increased binding in brain sections of mice treated with IL4, and low binding to brain sections of a murine stroke model and of a stroke patient. Conclusion: This study provides new translational targets for PET tracers for the anti-inflammatory/protective activation state of microglia and shows the potential of a rationale-based approach. It therefore paves the way for the development of novel non-invasive methodologies aimed to monitor the success of therapeutic approaches in various neurological diseases., Competing Interests: Competing Interests: The authors have declared that no competing interest exists.

Published

2018

32. In vivo evaluation of two tissue transglutaminase PET tracers in an orthotopic tumour xenograft model.

Author

van der Wildt B, Wilhelmus MMM, Beaino W, Kooijman EJM, Schuit RC, Bol JGJM, Breve JJP, Pasternack R, Lammertsma AA, Windhorst AD, and Drukarch B

Abstract

Background: The protein cross-linking enzyme tissue transglutaminase (TG2; EC 2.3.2.13) is associated with the pathogenesis of various diseases, including cancer. Recently, the synthesis and initial evaluation of two high-potential radiolabelled irreversible TG2 inhibitors were reported by us. In the present study, these two compounds were evaluated further in a breast cancer (MDA-MB-231) tumour xenograft model for imaging active tissue transglutaminase in vivo., Results: The metabolic stability of [ 11 C]1 and [ 18 F]2 in SCID mice was comparable to the previously reported stability in Wistar rats. Quantitative real-time polymerase chain reaction analysis on MDA-MB-231 cells and isolated tumours showed a high level of TG2 expression with very low expression of other transglutaminases. PET imaging showed low tumour uptake of [ 11 C]1 (approx. 0.5 percentage of the injected dose per gram (%ID/g) at 40-60 min p.i.) and with relatively fast washout. Tumour uptake for [ 18 F]2 was steadily increasing over time (approx. 1.7 %ID/g at 40-60 min p.i.). Pretreatment of the animals with the TG2 inhibitor ERW1041E resulted in lower tumour activity concentrations, and this inhibitory effect was enhanced using unlabelled 2., Conclusions: Whereas the TG2 targeting potential of [ 11 C]1 in this model seems inadequate, targeting of TG2 using [ 18 F]2 was achieved. As such, [ 18 F]2 could be used in future studies to clarify the role of active tissue transglutaminase in disease.

Published

2018

33. Identification of the allosteric P2X 7 receptor antagonist [ 11 C]SMW139 as a PET tracer of microglial activation.

Author

Janssen B, Vugts DJ, Wilkinson SM, Ory D, Chalon S, Hoozemans JJM, Schuit RC, Beaino W, Kooijman EJM, van den Hoek J, Chishty M, Doméné A, Van der Perren A, Villa A, Maggi A, Molenaar GT, Funke U, Shevchenko RV, Baekelandt V, Bormans G, Lammertsma AA, Kassiou M, and Windhorst AD

Subjects

Animals, Brain diagnostic imaging, Brain metabolism, Humans, Microglia drug effects, Molecular Structure, Protein Binding, Purinergic P2X Receptor Antagonists pharmacokinetics, Radiochemistry, Radiopharmaceuticals pharmacokinetics, Rats, Staining and Labeling, Tissue Distribution, Microglia metabolism, Molecular Imaging, Positron-Emission Tomography methods, Purinergic P2X Receptor Antagonists chemistry, Radiopharmaceuticals chemistry, Receptors, Purinergic P2X7 chemistry

Abstract

The P2X 7 receptor plays a significant role in microglial activation, and as a potential drug target, the P2X 7 receptor is also an interesting target in positron emission tomography. The current study aimed at the development and evaluation of a potent tracer targeting the P2X 7 receptor, to which end four adamantanyl benzamide analogues with high affinity for the human P2X 7 receptor were labelled with carbon-11. All four analogues could be obtained in excellent radiochemical yield and high radiochemical purity and molar activity, and all analogues entered the rat brain. [ 11 C]SMW139 showed the highest metabolic stability in rat plasma, and showed high binding to the hP2X 7 receptor in vivo in a hP2X 7 receptor overexpressing rat model. Although no significant difference in binding of [ 11 C]SMW139 was observed between post mortem brain tissue of Alzheimer's disease patients and that of healthy controls in in vitro autoradiography experiments, [ 11 C]SMW139 could be a promising tracer for P2X 7 receptor imaging using positron emission tomography, due to high receptor binding in vivo in the hP2X 7 receptor overexpressing rat model. However, further investigation of both P2X 7 receptor expression and binding of [ 11 C]SMW139 in other neurological diseases involving microglial activation is warranted.

Published

2018

34. 64 Cu-Labeled Phosphonate Cross-Bridged Chelator Conjugates of c(RGDyK) for PET/CT Imaging of Osteolytic Bone Metastases.

Author

Ocak M, Beaino W, White A, Zeng D, Cai Z, and Anderson CJ

Subjects

Humans, Neoplasm Metastasis, Bone Neoplasms genetics, Bone Neoplasms metabolism, Chelating Agents metabolism, Copper Radioisotopes metabolism, Organophosphonates metabolism, Positron Emission Tomography Computed Tomography methods

Abstract

Objective: The goal of this research was to evaluate c(RGDyK) conjugated to phosphonate-based cross-bridged chelators using Cu-free click chemistry in the 4T1 mouse mammary tumor bone metastasis model in comparison with 64 Cu-CB-TE2A-c(RGDyK), which previously showed selective binding to integrin αvβ3 on osteoclasts., Experimental: Two phosphonate-based cross-bridged chelators (CB-TE1A1P and CB-TE1K1P) were conjugated to c(RGDyK) through bio-orthogonal strain-promoted alkyne-azide cycloaddition. In vitro and in vivo evaluation of the 64 Cu-labeled TE1A1P-DBCO-c(RGDyK) (AP-c(RGDyK)), TE1K1P-PEG4-DBCO-c(RGDyK) (KP-c(RGDyK)), and CB-TE2A-c(RGDyK) were compared in the 4T1 mouse model of bone metastasis. The affinities of the unconjugated and chelator-c(RGDyK) analogs for αvβ3 integrin were determined using a competitive-binding assay. For in vivo evaluation, BALB/c mice were injected with 1 × 10 5 4T1/Luc cells in the left ventricle. Formation of metastases was monitored by bioluminescence imaging (BLI) followed by small-animal PET/CT 2 h postinjection of radiotracers., Results: The chelator-peptide conjugates showed similar affinity to integrin αvβ3, in the low nM range. PET imaging demonstrated a higher uptake in bones having metastases for all 64 Cu-labeled c(RGDyK) analogs compared with bones in nontumor-bearing mice. The correlation between uptake of 64 Cu-AP-c(RGDyK) and 64 Cu-KP-c(RGDyK) in bones with metastases based on PET/CT imaging, and osteoclast number based on histomorphometry, was improved over the previously investigated 64 Cu-CB-TE2A-c(RGDyK)., Conclusion: These data suggest that the phosphonate chelator conjugates of c(RDGyK) peptides are promising PET tracers suitable for imaging tumor-associated osteoclasts in bone metastases.

Published

2018

35. Purinergic receptors P2Y12R and P2X7R: potential targets for PET imaging of microglia phenotypes in multiple sclerosis.

Author

Beaino W, Janssen B, Kooij G, van der Pol SMA, van Het Hof B, van Horssen J, Windhorst AD, and de Vries HE

Subjects

Animals, Encephalomyelitis, Autoimmune, Experimental diagnostic imaging, Encephalomyelitis, Autoimmune, Experimental metabolism, Humans, Immunohistochemistry, Male, Mice, Multiple Sclerosis diagnostic imaging, Positron-Emission Tomography, Rats, Microglia metabolism, Multiple Sclerosis metabolism, Receptors, Purinergic P2X7 metabolism, Receptors, Purinergic P2Y12 metabolism

Abstract

Background: Microglia are major players in the pathogenesis of multiple sclerosis (MS) and may play a dual role in disease progression. The activation status of microglia in vivo is highly dynamic and occurs as a continuum, with the pro-inflammatory and anti-inflammatory phenotypes on either end of this spectrum. Little is known about in vivo dynamics of microglia phenotypes in MS due to the lack of diagnostic tools. Positron emission tomography (PET) imaging is a powerful non-invasive technique that allows real-time imaging of microglia activation phenotypes in the central nervous system, depending on the availability of selective PET tracers. Our objective is to investigate and characterize the expression of the purinergic receptors P2Y12R and P2X7R as potential targets for PET tracer development and subsequent PET imaging in order to evaluate the dynamics of microglia status in vivo., Methods: We used immunohistochemical analysis to explore the expression of P2Y12R and P2X7R in experimental autoimmune encephalomyelitis (EAE) post-mortem tissues and different stages of well-characterized MS lesions. We evaluated by quantitative real-time polymerase chain reaction the expression of P2Y12R and P2X7R in human polarized microglia, and we performed autoradiography binding assay with radiolabeled P2Y12R and P2X7R antagonists using MS and rat EAE tissues., Results: Here, we demonstrate that P2X7R is associated with a pro-inflammatory phenotype of human microglia in vitro, and is highly expressed in microglia in MS lesions as well as during the peak of EAE. In contrast, P2Y12R was associated with an anti-inflammatory phenotype in human microglia in vitro and was expressed at lower levels in active inflammatory MS lesions compared to normal-appearing white matter (NAWM) and similarly in EAE, while its expression increased in the remission phase of EAE. Binding of radiolabeled tracers specific for P2Y12R and P2X7R on ex vivo tissues validated the value of these receptors as PET imaging targets for microglia phenotypes in vivo., Conclusion: Our results suggest that P2Y12R and P2X7R are excellent targets for PET imaging to discriminate distinct microglia phenotypes in MS. Ultimately, this may provide insight into the role of microglia in disease progression and monitor novel treatment strategies to alter microglia phenotype.

Published

2017

36. Positron Emission Tomography Imaging of Macaques with Tuberculosis Identifies Temporal Changes in Granuloma Glucose Metabolism and Integrin α4β1-Expressing Immune Cells.

Author

Mattila JT, Beaino W, Maiello P, Coleman MT, White AG, Scanga CA, Flynn JL, and Anderson CJ

Subjects

Animals, Cell Differentiation, Cell Movement, Granuloma diagnostic imaging, Granuloma metabolism, Granuloma physiopathology, Heterocyclic Compounds, 2-Ring chemistry, Integrin alpha4beta1 immunology, Lymph Nodes cytology, Lymph Nodes immunology, Macaca, Macrophages immunology, Neutrophils immunology, Organophosphonates chemistry, Positron Emission Tomography Computed Tomography, Radiopharmaceuticals, T-Lymphocytes immunology, Tuberculosis diagnosis, Tuberculosis microbiology, Glucose metabolism, Granuloma immunology, Integrin alpha4beta1 genetics, Tuberculosis diagnostic imaging, Tuberculosis immunology

Abstract

Positron emission tomography and computed tomography imaging (PET/CT) is an increasingly valuable tool for diagnosing tuberculosis (TB). The glucose analog [ 18 F]fluoro-2-deoxy-2-d-glucose ([ 18 F]-FDG) is commonly used in PET/CT that is retained by metabolically active inflammatory cells in granulomas, but lacks specificity for particular cell types. A PET probe that could identify recruitment and differentiation of different cell populations in granulomas would be a useful research tool and could improve TB diagnosis and treatment. We used the Mycobacterium -antigen murine inflammation model and macaques with TB to identify [ 64 Cu]-labeled CB-TE1A1P-PEG 4 -LLP2A ([ 64 Cu]-LLP2A), a high affinity peptidomimetic ligand for very late Ag-4 (VLA-4; also called integrin α4β1) binding cells in granulomas, and compared [ 64 Cu]-LLP2A with [ 18 F]-FDG over the course of infection. We found that [ 64 Cu]-LLP2A retention was driven by macrophages and T cells, with less contribution from neutrophils and B cells. In macaques, granulomas had higher [ 64 Cu]-LLP2A uptake than uninfected tissues, and immunohistochemical analysis of granulomas with known [ 64 Cu]-LLP2A uptake identified significant correlations between LLP2A signal and macrophage and T cell numbers. The same cells coexpressed integrin α4 and β1, further supporting that macrophages and T cells drive [ 64 Cu]-LLP2A avidity in granulomas. Over the course of infection, granulomas and thoracic lymph nodes experienced dynamic changes in affinity for both probes, suggesting metabolic changes and cell differentiation or recruitment occurs throughout granuloma development. These results indicate [ 64 Cu]-LLP2A is a PET probe for VLA-4, which when used in conjunction with [ 18 F]-FDG, may be a useful tool for understanding granuloma biology in TB., (Copyright © 2017 by The American Association of Immunologists, Inc.)

Published

2017

37. Ex Vivo and In Vivo Evaluation of Overexpressed VLA-4 in Multiple Myeloma Using LLP2A Imaging Agents.

Author

Soodgupta D, Zhou H, Beaino W, Lu L, Rettig M, Snee M, Skeath J, DiPersio JF, Akers WJ, Laforest R, Anderson CJ, Tomasson MH, and Shokeen M

Subjects

Animals, Biomarkers, Tumor, Cell Line, Tumor, Copper Radioisotopes, Dipeptides chemical synthesis, Humans, Mice, Inbred BALB C, Mice, Inbred C57BL, Mice, Knockout, Phenylurea Compounds chemical synthesis, Positron-Emission Tomography, Protein Conformation, Radiopharmaceuticals chemical synthesis, Tissue Distribution, Whole Body Imaging, Dipeptides pharmacokinetics, Integrin alpha4beta1 metabolism, Multiple Myeloma diagnostic imaging, Multiple Myeloma metabolism, Phenylurea Compounds pharmacokinetics, Radiopharmaceuticals pharmacokinetics

Abstract

Unlabelled: Very-late-antigen-4 (VLA-4, α4β1 integrin, CD49d/CD29) is a transmembrane adhesion receptor that plays an important role in cancer and immune responses. Enhanced VLA-4 expression has been observed in multiple myeloma (MM) cells and surrounding stroma. VLA-4 conformational activation has been associated with MM pathogenesis. VLA-4 is a promising MM imaging and therapeutic biomarker., Methods: Specificity of (64)Cu-LLP2A ((64)Cu-CB-TE1A1P-PEG4-LLP2A), a high-affinity VLA-4 peptidomimetic-based radiopharmaceutical, was evaluated in α4 knock-out mice and by competitive blocking in wild-type tumor-bearing mice. (64)Cu-LLP2A PET/CT (static and dynamic) imaging was conducted in C57BL6/KaLwRij mice bearing murine 5TGM1-GFP syngeneic tumors generated after intravenous injection via the tail. Blood samples were collected for serum protein electrophoresis. Bone marrow and splenic cells extracted from tumor-bearing and control mice (n= 3/group) were coincubated with the optical analog LLP2A-Cy5 and mouse B220, CD4, Gr1, and Mac1 antibodies and analyzed by fluorescence-activated cell sorting. Human radiation dose estimates for (64)Cu-LLP2A were extrapolated from mouse biodistribution data (6 time points, 0.78 MBq/animal, n= 4/group). Ten formalin-fixed paraffin-embedded bone marrow samples from deceased MM patients were stained with LLP2A-Cy5., Results: (64)Cu-LLP2A and LLP2A-Cy5 demonstrated high specificity for VLA-4-positive mouse 5TGM1-GFP myeloma and nonmalignant inflammatory host cells such as T cells and myeloid/monocytic cells. Ex vivo flow cytometric analysis supported a direct effect of myeloma on increased VLA-4 expression in host hematopoietic microenvironmental elements. SUVs and the number of medullar lesions detected by (64)Cu-LLP2A PET corresponded with increased monoclonal (M) protein (g/dL) in tumor-bearing mice over time (3.29 ± 0.58 at week 0 and 9.97 ± 1.52 at week 3). Dynamic PET with (64)Cu-LLP2A and (18)F-FDG demonstrated comparable SUV in the prominent lesions in the femur. Human radiation dose estimates indicated urinary bladder wall as the dose-limiting organ (0.200 mGy/MBq), whereas the dose to the red marrow was 0.006 mGy/MBq. The effective dose was estimated to be 0.017 mSv/MBq. Seven of the ten human samples displayed a high proportion of cells intensely labeled with LLP2A-Cy5 probe., Conclusion: (64)Cu-LLP2A and LLP2A-Cy5 demonstrated binding specificity for VLA-4 in an immune-competent murine MM model. (64)Cu-LLP2A displayed favorable dosimetry for human studies and is a potential imaging candidate for overexpressed VLA-4., (© 2016 by the Society of Nuclear Medicine and Molecular Imaging, Inc.)

Published

2016

38. Theranostic nanoemulsions for macrophage COX-2 inhibition in a murine inflammation model.

Author

Patel SK, Beaino W, Anderson CJ, and Janjic JM

Subjects

Animals, Antigens, CD metabolism, Antigens, Differentiation, Myelomonocytic metabolism, Cell Line, Cell Movement drug effects, Cell Movement immunology, Cyclooxygenase 2 metabolism, Disease Models, Animal, Emulsions, Female, Macrophage Activation drug effects, Macrophage Activation immunology, Mice, Neutrophils immunology, Celecoxib administration & dosage, Cyclooxygenase 2 Inhibitors administration & dosage, Drug Carriers, Inflammation drug therapy, Macrophages immunology, Nanotechnology methods

Abstract

Targeting macrophages for therapeutic and diagnostic purposes is an attractive approach applicable to multiple diseases. Here, we present a theranostic nanoemulsion platform for simultaneous delivery of an anti-inflammatory drug (celecoxib) to macrophages and monitoring of macrophage migration patterns by optical imaging, as measurement of changes in inflammation. The anti-inflammatory effect of the theranostic nanoemulsions was evaluated in a mouse inflammation model induced with complete Freund's adjuvant (CFA). Nanoemulsions showed greater accumulation in the inflamed vs. control paw, with histology confirming their specific localization in CD68 positive macrophages expressing cyclooxygenase-2 (COX-2) compared to neutrophils. With a single dose administration of the celecoxib-loaded theranostic, we observed a reduction in fluorescence in the paw with time, corresponding to a reduction in macrophage infiltration. Our data strongly suggest that delivery of select agents to infiltrating macrophages can potentially lead to new treatments of inflammatory diseases where macrophage behavior changes are monitored in vivo., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

39. Evaluation of (68)Ga- and (177)Lu-DOTA-PEG4-LLP2A for VLA-4-Targeted PET Imaging and Treatment of Metastatic Melanoma.

Author

Beaino W, Nedrow JR, and Anderson CJ

Subjects

Animals, Cell Line, Tumor, Humans, Integrin alpha4beta1 metabolism, Male, Melanoma, Experimental, Mice, Mice, Inbred C57BL, Neoplasm Metastasis, Skin Neoplasms, Melanoma, Cutaneous Malignant, Gallium Radioisotopes, Lutetium, Melanoma diagnosis, Positron-Emission Tomography methods, Radioisotopes

Abstract

Malignant melanoma is a highly aggressive cancer, and the incidence of this disease is increasing worldwide at an alarming rate. Despite advances in the treatment of melanoma, patients with metastatic disease still have a poor prognosis and low survival rate. New strategies, including targeted radiotherapy, would provide options for patients who become resistant to therapies such as BRAF inhibitors. Very late antigen-4 (VLA-4) is expressed on melanoma tumor cells in higher levels in more aggressive and metastatic disease and may provide an ideal target for drug delivery and targeted radiotherapy. In this study, we evaluated (177)Lu- and (68)Ga-labeled DOTA-PEG4-LLP2A as a VLA-4-targeted radiotherapeutic with a companion PET agent for diagnosis and monitoring metastatic melanoma treatment. DOTA-PEG4-LLP2A was synthesized by solid-phase synthesis. The affinity of (177)Lu- and (68)Ga-labeled DOTA-PEG4-LLP2A to VLA-4 was determined in B16F10 melanoma cells by saturation binding and competitive binding assays, respectively. Biodistribution of the LLP2A conjugates was determined in C57BL/6 mice bearing B16F10 subcutaneous tumors, while PET/CT imaging was performed in subcutaneous and metastatic models. (177)Lu-DOTA-PEG4-LLP2A showed high affinity to VLA-4 with a Kd of 4.1 ± 1.5 nM and demonstrated significant accumulation in the B16F10 melanoma tumor after 4 h (31.5 ± 7.8%ID/g). The tumor/blood ratio of (177)Lu-DOTA-PEG4-LLP2A was highest at 24 h (185 ± 26). PET imaging of metastatic melanoma with (68)Ga-DOTA-PEG4-LLP2A showed high uptake in sites of metastases and correlated with bioluminescence imaging of the tumors. These data demonstrate that (177)Lu-DOTA-PEG4-LLP2A has potential as a targeted therapeutic for treating melanoma as well as other VLA-4-expressing tumors. In addition, (68)Ga-DOTA-PEG4-LLP2A is a readily translatable companion PET tracer for imaging of metastatic melanoma.

Published

2015

40. In vivo inflammation imaging using a CB2R-targeted near infrared fluorescent probe.

Author

Zhang S, Shao P, Ling X, Yang L, Hou W, Thorne SH, Beaino W, Anderson CJ, Ding Y, and Bai M

Abstract

Chronic inflammation is considered as a critical cause of a host of disorders, such as cancer, rheumatoid arthritis, atherosclerosis, and neurodegenerative diseases, although the exact mechanism is yet to be explored. Imaging tools that can specifically target inflammation are therefore important to help reveal the role of inflammation in disease progression, and allows for developing new therapeutic strategies to ultimately improve patient care. The purpose of this study was to develop a new in vivo inflammation imaging approach by targeting the cannabinoid receptor type 2 (CB2R), an emerging inflammation biomarker, using a unique near infrared (NIR) fluorescent probe. Herein, we report the first in vivo CB2R-targeted NIR inflammation imaging study using a synthetic fluorescent probe developed in our laboratory, NIR760-mbc94. In vitro binding assay and fluorescence microscopy study indicate NIR760-mbc94 specifically binds towards CB2R in mouse RAW264.7 macrophage cells. Furthermore, in vivo imaging was performed using a Complete Freund's Adjuvant (CFA)-induced inflammation mouse model. NIR760-mbc94 successfully identified inflamed tissues and the probe uptake was blocked by a CB2R ligand, SR144528. Additionally, immunofluorescence staining in cryosectioned tissues validated the NIR760-mbc94 uptake in inflamed tissues. In conclusion, this study reports the first in vivo CB2R-targeted inflammation imaging using an NIR fluorescent probe. Specific targeting of NIR760-mbc94 has been demonstrated in macrophage cells, as well as a CFA-induced inflammation mouse model. The combined evidence indicates that NIR760-mbc94 is a promising inflammation imaging probe. Moreover, in vivo CB2R-targeted fluorescence imaging may have potential in the study of inflammation-related diseases.

Published

2015

41. Characterization of a new rat model for chronic inflammatory demyelinating polyneuropathies.

Author

Brun S, Beaino W, Kremer L, Taleb O, Mensah-Nyagan AG, Lam CD, Greer JM, de Seze J, and Trifilieff E

Subjects

Animals, Cell Proliferation drug effects, Cell Proliferation physiology, Electrophysiology, Evoked Potentials physiology, Interleukin-17 blood, Lymphocytes metabolism, Lymphocytes pathology, Macrophages pathology, Male, Peptides toxicity, Polyradiculoneuropathy, Chronic Inflammatory Demyelinating blood, Polyradiculoneuropathy, Chronic Inflammatory Demyelinating chemically induced, Rats, Rats, Inbred Lew, Sciatic Nerve pathology, Sciatic Nerve physiopathology, T-Lymphocytes pathology, Disease Models, Animal, Myelin P0 Protein chemistry, Myelin P0 Protein toxicity, Polyradiculoneuropathy, Chronic Inflammatory Demyelinating pathology, Polyradiculoneuropathy, Chronic Inflammatory Demyelinating physiopathology

Abstract

Our objective was to develop a chronic model of EAN which could be used as a tool to test treatment strategies for CIDP. Lewis rats injected with S-palmitoylated P0(180-199) peptide developed a chronic, sometimes relapsing-remitting type of disease. Our model fulfills electrophysiological criteria of demyelination with axonal degeneration, confirmed by immunohistopathology. The late phase of the chronic disease was characterized by accumulation of IL-17(+) cells and macrophages in sciatic nerves and by high serum IL-17 levels. In conclusion, we have developed a reliable and reproducible animal model resembling CIDP that can now be used for translational drug studies., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

42. PET imaging of very late antigen-4 in melanoma: comparison of 68Ga- and 64Cu-labeled NODAGA and CB-TE1A1P-LLP2A conjugates.

Author

Beaino W and Anderson CJ

Subjects

Acetates chemistry, Animals, Binding, Competitive, Carboxylic Acids chemistry, Chelating Agents chemistry, Chromatography, High Pressure Liquid, Chromatography, Liquid, Dipeptides chemistry, Heterocyclic Compounds, 1-Ring chemistry, Heterocyclic Compounds, 2-Ring chemistry, Mass Spectrometry, Melanoma, Experimental, Mice, Mice, Inbred C57BL, Neoplasm Transplantation, Organophosphonates chemistry, Peptides chemistry, Phenylurea Compounds chemistry, Protein Binding, Copper Radioisotopes chemistry, Gallium Radioisotopes chemistry, Integrin alpha4beta1 metabolism, Melanoma diagnostic imaging, Melanoma metabolism, Positron-Emission Tomography

Abstract

Unlabelled: Melanoma is a malignant tumor derived from epidermal melanocytes, and it is known for its aggressiveness, therapeutic resistance, and predisposition for late metastasis. Very late antigen-4 (VLA-4; also called integrin α4β1) is a transmembrane noncovalent heterodimer overexpressed in melanoma tumors that plays an important role in tumor growth, angiogenesis, and metastasis by promoting adhesion and migration of cancer cells. In this study, we evaluated 2 conjugates of a high-affinity VLA-4 peptidomimetic ligand, LLP2A, for PET/CT imaging in a subcutaneous and metastatic melanoma tumor., Methods: LLP2A was conjugated to 1,4,8,11-tetraazacyclotetradecane-1-(methane phosphonic acid)-8-(methane carboxylic acid) (CB-TE1A1P) and 2-(4,7-bis(carboxymethyl)-1,4,7-triazonan-1-yl)pentanedioic acid (NODAGA) chelators for (68)Ga and (64)Cu labeling. The conjugates were synthesized by solid-phase peptide synthesis, purified by reversed-phase high-performance liquid chromatography, and verified by liquid chromatography mass spectrometry. Saturation and competitive binding assays with B16F10 melanoma cells determined the affinity of the compounds for VLA-4. The biodistributions of the LLP2A conjugates were evaluated in murine B16F10 subcutaneous tumor-bearing C57BL/6 mice. Melanoma metastasis was induced by intracardiac injection of B16F10 cells. PET/CT imaging was performed at 2, 4, and 24 h after injection for the (64)Cu tracers and 1 h after injection for the (68)Ga tracer., Results: (64)Cu-labeled CB-TE1A1P-PEG4-LLP2A and NODAGA-PEG4-LLP2A showed high affinity to VLA-4, with a comparable dissociation constant (0.28 vs. 0.23 nM) and receptor concentration (296 vs. 243 fmol/mg). The tumor uptake at 2 h after injection was comparable for the 2 probes, but (64)Cu-CB-TE1A1P-PEG4-LLP2A trended toward higher uptake than (64)Cu-NODAGA-PEG4-LLP2A (16.9 ± 2.2 vs. 13.4 ± 1.7 percentage injected dose per gram, P = 0.07). Tumor-to-muscle and tumor-to-blood ratios from biodistribution and PET/CT images were significantly higher for (64)Cu-CB-TE1A1P-PEG4-LLP2A than (64)Cu-NODAGA-PEG4-LLP2A (all P values < 0.05). PET/CT imaging of metastatic melanoma with (68)Ga-NODAGA-PEG4-LLP2A and (64)Cu-NODAGA-PEG4-LLP2A showed high uptake of the probes at the site of metastasis, correlating with the bioluminescence imaging of the tumor., Conclusion: These data demonstrate that (64)Cu-labeled CB-TE1A1P/NODAGA LLP2A conjugates and (68)Ga-labeled NODAGA-LLP2A are excellent imaging agents for melanoma and potentially other VLA-4-positive tumors. (64)Cu-CB-TE1A1P-PEG4-LLP2A had the most optimal tumor-to-nontarget tissue ratios for translation into humans as a PET imaging agent for melanoma., (© 2014 by the Society of Nuclear Medicine and Molecular Imaging, Inc.)

Published

2014

43. Thiopalmitoylation of altered peptide ligands enhances their protective effects in an animal model of multiple sclerosis.

Author

Cloake NC, Beaino W, Trifilieff E, and Greer JM

Subjects

Animals, Encephalomyelitis, Autoimmune, Experimental immunology, Encephalomyelitis, Autoimmune, Experimental pathology, Ligands, Mice, Multiple Sclerosis immunology, Multiple Sclerosis pathology, Peptides immunology, Encephalomyelitis, Autoimmune, Experimental prevention & control, Histocompatibility Antigens Class II immunology, Interleukin-10 immunology, Lipoylation, Multiple Sclerosis prevention & control, Peptides pharmacology

Abstract

Previously, we have shown that conjugation of a palmitic chain via a thioester bond to a cysteine residue in weakly or nonencephalitogenic or neuritogenic peptides markedly enhances their ability to induce autoimmune disease in an MHC class II-restricted manner. From those studies, however, it was not clear whether thiopalmitoylation of the peptides was merely enhancing their disease-inducing potential or whether the lipid was itself playing a pathogenic role. To investigate this further, we have now tested the effects of thiopalmitoylation on MHC class II-restricted altered peptide ligands (APLs), which are normally protective in experimental autoimmune encephalomyelitis, the animal model of multiple sclerosis. We hypothesized that if thiopalmitoylation of a peptide merely enhances its innate potential, then thiopalmitoylated APLs (S-palmAPLs) should show enhanced protective effects. Alternatively, if thiopalmitoylation itself can make a peptide pathogenic, then S-palmAPLs should have decreased therapeutic potential. We synthesized APLs and corresponding S-palmAPLs and showed that the S-palmAPLs were much more effective than the nonconjugated APL at inhibiting the development of experimental autoimmune encephalomyelitis. This was due to several features of the S-palmAPL:S-palmAPL-primed cells show an enhanced ability to proliferate and produce the anti-inflammatory cytokine, IL-10, in vitro. Furthermore, the bioavailability of S-palmAPL was greatly enhanced, compared with the nonpalmitoylated APL, and S-palm APL was taken up more rapidly into dendritic cells and channeled into the MHC class II processing pathway. These results show that thiopalmitoylation of MHC class II-restricted peptides is a simple way to enhance their effects in vivo and could have wide therapeutic application.

Published

2014

44. Roles of Atox1 and p53 in the trafficking of copper-64 to tumor cell nuclei: implications for cancer therapy.

Author

Beaino W, Guo Y, Chang AJ, and Anderson CJ

Subjects

Animals, Copper Transport Proteins, Fibroblasts metabolism, HCT116 Cells, Humans, Mice, Molecular Chaperones, Protein Transport physiology, Cell Nucleus metabolism, Copper Radioisotopes metabolism, Genes, p53 physiology, Metallochaperones physiology

Abstract

Owing to its cytotoxicity, free copper is chelated by protein side chains and does not exist in vivo. Several chaperones transport copper to various cell compartments, but none have been identified that traffic copper to the nucleus. Copper-64 decays by β (+) and β (-) emission, allowing positron emission tomography and targeted radionuclide therapy for cancer. Because the delivery of (64)Cu to the cell nucleus may enhance the therapeutic effect of copper radiopharmaceuticals, elucidation of the pathway(s) involved in transporting copper to the tumor cell nucleus is important for optimizing treatment. We identified Atox1 as one of the proteins that binds copper in the nucleus. Mouse embryonic fibroblast cells, positive and negative for Atox1, were used to determine the role of Atox1 in (64)Cu transport to the nucleus. Mouse embryonic fibroblast Atox1(+/+) cells accumulated more (64)Cu in the nucleus than did Atox1(-/-) cells. HCT 116 colorectal cancer cells expressing p53 (+/+) and not expressing p53 (-/-) were used to evaluate the role of this tumor suppressor protein in (64)Cu transport. In cells treated with cisplatin, the uptake of (64)Cu in the nucleus of HCT 116 p53(+/+) cells was greater than that in HCT 116 p53(-/-) cells. Atox1 expression increased in HCT 116 p53(+/+) and p53(-/-) cells treated with cisplatin; however, Atox1 localized to the nuclei of p53(+/+) cells more than in the p53(-/-) cells. The data presented here indicate that Atox1 is involved in copper transport to the nucleus, and cisplatin affects nuclear transport of (64)Cu in HCT 116 cells by upregulating the expression and the nuclear localization of Atox1.

Published

2014

45. Thiopalmitoylated peptides from the peripheral nervous system myelin p0 protein: synthesis, characterization, and neuritogenic properties.

Author

Beaino W and Trifilieff E

Subjects

Animals, Circular Dichroism, Male, Myelin P0 Protein genetics, Myelin P0 Protein immunology, Neurons chemistry, Neurons immunology, Peptides blood, Peptides chemistry, Rats, Rats, Inbred Lew, Cysteine chemistry, Myelin P0 Protein chemistry, Palmitic Acid chemistry, Peptides chemical synthesis, Peripheral Nervous System chemistry, Sulfhydryl Compounds chemistry

Abstract

Thiopalmitoylation (i.e., the covalent attachment of palmitic acid via a thioester linkage to cysteine residues in the polypeptide backbone) is a common post-translational modification of proteins. Several proteins that have been identified as putative autoantigens in a variety of T-cell mediated autoimmune diseases are thiopalmitoylated, and thus, we have hypothesized that endogenous thiopalmitoylated peptides released during tissue breakdown may play a role in the development and chronicity of autoimmune diseases. To investigate this, we have studied the effect of thiopalmitoylation on the immunogenic and neuritogenic properties of P0, the major peripheral nervous system (PNS) myelin protein, which is thiopalmitoylated at cysteine 153, and described as a candidate autoantigen in Guillain-Barre syndrome (GBS), a human inflammatory demyelinating disease of the PNS. This paper describes the synthesis of palmitoylated peptide P0(180-199) and P0(152-171) by on-resin acylation using specific cysteine side-chain protecting groups: Mmt (labile in diluted acid) and StBu (labile in the presence of tributylphosphine). Our results show that the thiol protecting group had to be adjusted to the peptide sequence: Mmt was efficiently used for P0(180-199) thioacylation, but it was not suitable for thiopalmitoylation of P0(152-171) because of a premature deprotection of the Boc protecting group on the epsilon-NH(2) Lys in the presence of 2% TFA, leading to dipalmitoylation. Palmitoylated P0(152-171) was successfully obtained by using StBu as the thiol protecting group. We could show by circular dichroism that palmitoylation has no influence on the structuration of the peptide in solution but palmitoylation increased the stability of the peptide in the presence of serum. Using EAN (experimental autoimmune neuritis), the rat model of GBS, we have compared the immunological properties of palm and non-palm P0 peptides and showed that thiopalmitoylation has indeed a great influence on their neuritogenic and immunogenic properties. This study provides further support for our hypothesis concerning the role of thiopalmitoylation in the development and chronicity of inflammatory demyelinating diseases and confirms that thiopalmitoylation of peptides may provide a simple means to increase MHC class II restricted responses.

Published

2010