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1. Effects of the sigma-1 receptor agonist blarcamesine in a murine model of fragile X syndrome: neurobehavioral phenotypes and receptor occupancy

Author

Samantha T. Reyes, Robert M. J. Deacon, Scarlett G. Guo, Francisco J. Altimiras, Jessa B. Castillo, Berend van der Wildt, Aimara P. Morales, Jun Hyung Park, Daniel Klamer, Jarrett Rosenberg, Lindsay M. Oberman, Nell Rebowe, Jeffrey Sprouse, Christopher U. Missling, Christopher R. McCurdy, Patricia Cogram, Walter E. Kaufmann, and Frederick T. Chin

Subjects
Medicine, Science
Abstract

Abstract Fragile X syndrome (FXS), a disorder of synaptic development and function, is the most prevalent genetic form of intellectual disability and autism spectrum disorder. FXS mouse models display clinically-relevant phenotypes, such as increased anxiety and hyperactivity. Despite their availability, so far advances in drug development have not yielded new treatments. Therefore, testing novel drugs that can ameliorate FXS’ cognitive and behavioral impairments is imperative. ANAVEX2-73 (blarcamesine) is a sigma-1 receptor (S1R) agonist with a strong safety record and preliminary efficacy evidence in patients with Alzheimer’s disease and Rett syndrome, other synaptic neurodegenerative and neurodevelopmental disorders. S1R’s role in calcium homeostasis and mitochondrial function, cellular functions related to synaptic function, makes blarcamesine a potential drug candidate for FXS. Administration of blarcamesine in 2-month-old FXS and wild type mice for 2 weeks led to normalization in two key neurobehavioral phenotypes: open field test (hyperactivity) and contextual fear conditioning (associative learning). Furthermore, there was improvement in marble-burying (anxiety, perseverative behavior). It also restored levels of BDNF, a converging point of many synaptic regulators, in the hippocampus. Positron emission tomography (PET) and ex vivo autoradiographic studies, using the highly selective S1R PET ligand [18F]FTC-146, demonstrated the drug’s dose-dependent receptor occupancy. Subsequent analyses also showed a wide but variable brain regional distribution of S1Rs, which was preserved in FXS mice. Altogether, these neurobehavioral, biochemical, and imaging data demonstrates doses that yield measurable receptor occupancy are effective for improving the synaptic and behavioral phenotype in FXS mice. The present findings support the viability of S1R as a therapeutic target in FXS, and the clinical potential of blarcamesine in FXS and other neurodevelopmental disorders.

Published
2021
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2. Sigma-1 Receptor Changes Observed in Chronic Pelvic Pain Patients: A Pilot PET/MRI Study

Author

Daehyun Yoon, Angela M. Fast, Peter Cipriano, Bin Shen, Jessa B. Castillo, Christopher R. McCurdy, Carina Mari Aparici, Deirdre Lum, and Sandip Biswal

Subjects
chronic pelvic pain, sigma-1 receptor, positron emission tomography, magnetic resonance imaging, PET/MRI, Neurology. Diseases of the nervous system, RC346-429
Abstract

Introduction: Chronic pelvic pain is a highly prevalent pain condition among women, but identifying the exact cause of pelvic pain remains a significant diagnostic challenge. In this study, we explored a new diagnostic approach with PET/MRI of the sigma-1 receptor, a chaperone protein modulating ion channels for activating nociceptive processes.Methods: Our approach is implemented by a simultaneous PET/MRI scan with a novel radioligand [18F]FTC-146, which is highly specific to the sigma-1 receptor. We recruited 5 chronic pelvic pain patients and 5 healthy volunteers and compared our PET/MRI findings between these two groups.Results: All five patients showed abnormally increased radioligand uptake on PET compared to healthy controls at various organs, including the uterus, vagina, pelvic bowel, gluteus maximus muscle, and liver. However, on MRI, only 2 patients showed abnormalities that could be potentially associated with the pain symptoms. For a subset of patients, the association of pain and the abnormally increased radioligand uptake was further validated by successful pain relief outcomes following surgery or trigger point injections to the identified abnormalities.Conclusion: In this preliminary study, sigma-1 receptor PET/MRI demonstrated potential for identifying abnormalities associated with chronic pelvic pain. Future studies will need to correlate samples with imaging findings to further validate the correlation between S1R distribution and pathologies of chronic pelvic pain.Trial Registration: The clinical trial registration date is June 2, 2018, and the registration number of the study is NCT03195270 (https://clinicaltrials.gov/ct2/show/NCT03556137).

Published
2021
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3. Supplementary Table S3 from A Clinical PET Imaging Tracer ([18F]DASA-23) to Monitor Pyruvate Kinase M2–Induced Glycolytic Reprogramming in Glioblastoma

Author

Sanjiv Sam Gambhir, Lawrence D. Recht, Seema Nagpal, Reena Thomas, Guido Davidzon, Andrei Iagaru, Tarik F. Massoud, Mehdi Khalighi, Melanie Hayden-Gephart, Irving Weissman, Geoffrey I. Warnock, Donald E. Born, Pauline Chu, Rahul Sinha, Nobuko Uchida, Daniel Dan Liu, Eli Johnson, Monica Granucci, Joy Q. He, Harsh Gandhi, Kim Halbert, Dawn Holley, Michelle L. James, Israt S. Alam, Mary Ellen I. Koran, Jun Hyung Park, Bin Shen, Pablo Buccino, Megan Phillips, Samantha T. Reyes, Jessa B. Castillo, Lewis Naya, Surya Murty, Tom Haywood, Chirag B. Patel, and Corinne Beinat

Abstract

Clinical Characteristics of patients imaged with [18F]DASA-23

Published
2023

4. Supplementary Figure S8 from A Clinical PET Imaging Tracer ([18F]DASA-23) to Monitor Pyruvate Kinase M2–Induced Glycolytic Reprogramming in Glioblastoma

Author

Sanjiv Sam Gambhir, Lawrence D. Recht, Seema Nagpal, Reena Thomas, Guido Davidzon, Andrei Iagaru, Tarik F. Massoud, Mehdi Khalighi, Melanie Hayden-Gephart, Irving Weissman, Geoffrey I. Warnock, Donald E. Born, Pauline Chu, Rahul Sinha, Nobuko Uchida, Daniel Dan Liu, Eli Johnson, Monica Granucci, Joy Q. He, Harsh Gandhi, Kim Halbert, Dawn Holley, Michelle L. James, Israt S. Alam, Mary Ellen I. Koran, Jun Hyung Park, Bin Shen, Pablo Buccino, Megan Phillips, Samantha T. Reyes, Jessa B. Castillo, Lewis Naya, Surya Murty, Tom Haywood, Chirag B. Patel, and Corinne Beinat

Abstract

Imaging of IC-2

Published
2023

5. Data from A Clinical PET Imaging Tracer ([18F]DASA-23) to Monitor Pyruvate Kinase M2–Induced Glycolytic Reprogramming in Glioblastoma

Author

Sanjiv Sam Gambhir, Lawrence D. Recht, Seema Nagpal, Reena Thomas, Guido Davidzon, Andrei Iagaru, Tarik F. Massoud, Mehdi Khalighi, Melanie Hayden-Gephart, Irving Weissman, Geoffrey I. Warnock, Donald E. Born, Pauline Chu, Rahul Sinha, Nobuko Uchida, Daniel Dan Liu, Eli Johnson, Monica Granucci, Joy Q. He, Harsh Gandhi, Kim Halbert, Dawn Holley, Michelle L. James, Israt S. Alam, Mary Ellen I. Koran, Jun Hyung Park, Bin Shen, Pablo Buccino, Megan Phillips, Samantha T. Reyes, Jessa B. Castillo, Lewis Naya, Surya Murty, Tom Haywood, Chirag B. Patel, and Corinne Beinat

Abstract

Purpose:Pyruvate kinase M2 (PKM2) catalyzes the final step in glycolysis, a key process of cancer metabolism. PKM2 is preferentially expressed by glioblastoma (GBM) cells with minimal expression in healthy brain. We describe the development, validation, and translation of a novel PET tracer to study PKM2 in GBM. We evaluated 1-((2-fluoro-6-[18F]fluorophenyl)sulfonyl)-4-((4-methoxyphenyl)sulfonyl)piperazine ([18F]DASA-23) in cell culture, mouse models of GBM, healthy human volunteers, and patients with GBM.Experimental Design:[18F]DASA-23 was synthesized with a molar activity of 100.47 ± 29.58 GBq/μmol and radiochemical purity >95%. We performed initial testing of [18F]DASA-23 in GBM cell culture and human GBM xenografts implanted orthotopically into mice. Next, we produced [18F]DASA-23 under FDA oversight, and evaluated it in healthy volunteers and a pilot cohort of patients with glioma.Results:In mouse imaging studies, [18F]DASA-23 clearly delineated the U87 GBM from surrounding healthy brain tissue and had a tumor-to-brain ratio of 3.6 ± 0.5. In human volunteers, [18F]DASA-23 crossed the intact blood–brain barrier and was rapidly cleared. In patients with GBM, [18F]DASA-23 successfully outlined tumors visible on contrast-enhanced MRI. The uptake of [18F]DASA-23 was markedly elevated in GBMs compared with normal brain, and it identified a metabolic nonresponder within 1 week of treatment initiation.Conclusions:We developed and translated [18F]DASA-23 as a new tracer that demonstrated the visualization of aberrantly expressed PKM2 for the first time in human subjects. These results warrant further clinical evaluation of [18F]DASA-23 to assess its utility for imaging therapy–induced normalization of aberrant cancer metabolism.

Published
2023

6. Data from In Vivo Imaging of Methionine Aminopeptidase II for Prostate Cancer Risk Stratification

Author

Jianghong Rao, Tanya Stoyanova, James D. Brooks, Christian A. Kunder, Frederick T. Chin, Bin Shen, Chiyuan A. Zhang, Jessa B. Castillo, Kaixiang Zhou, Liyang Cui, Guosheng Song, Min Chen, En-Chi Hsu, Yunfeng Cheng, Zixin Chen, Meghan A. Rice, and Jinghang Xie

Abstract

Prostate cancer is one of the most common malignancies worldwide, yet limited tools exist for prognostic risk stratification of the disease. Identification of new biomarkers representing intrinsic features of malignant transformation and development of prognostic imaging technologies are critical for improving treatment decisions and patient survival. In this study, we analyzed radical prostatectomy specimens from 422 patients with localized disease to define the expression pattern of methionine aminopeptidase II (MetAP2), a cytosolic metalloprotease that has been identified as a druggable target in cancer. MetAP2 was highly expressed in 54% of low-grade and 59% of high-grade cancers. Elevated levels of MetAP2 at diagnosis were associated with shorter time to recurrence. Controlled self-assembly of a synthetic small molecule enabled design of the first MetAP2-activated PET imaging tracer for monitoring MetAP2 activity in vivo. The nanoparticles assembled upon MetAP2 activation were imaged in single prostate cancer cells with post-click fluorescence labeling. The fluorine-18–labeled tracers successfully differentiated MetAP2 activity in both MetAP2-knockdown and inhibitor-treated human prostate cancer xenografts by micro-PET/CT scanning. This highly sensitive imaging technology may provide a new tool for noninvasive early-risk stratification of prostate cancer and monitoring the therapeutic effect of MetAP2 inhibitors as anticancer drugs.Significance:This study defines MetAP2 as an early-risk stratifier for molecular imaging of aggressive prostate cancer and describes a MetAP2-activated self-assembly small-molecule PET tracer for imaging MetAP2 activity in vivo.

Published
2023

9. A Clinical PET Imaging Tracer ([18F]DASA-23) to Monitor Pyruvate Kinase M2–Induced Glycolytic Reprogramming in Glioblastoma

Author

Israt S. Alam, Nobuko Uchida, Pauline Chu, Lewis Naya, Melanie Hayden-Gephart, Corinne Beinat, Guido Davidzon, Jessa B. Castillo, Mary Ellen I. Koran, Andrei Iagaru, Geoffrey I. Warnock, Harsh Gandhi, Donald E. Born, Samantha T. Reyes, Jun Hyung Park, Kim Halbert, Michelle L. James, Lawrence Recht, Irving L. Weissman, Dawn Holley, Pablo Buccino, Monica Granucci, Bin Shen, Eli Johnson, Rahul Sinha, Sanjiv S. Gambhir, Daniel Dan Liu, Seema Nagpal, Megan Phillips, Tom Haywood, Mehdi Khalighi, Reena Thomas, Chirag B. Patel, Surya Murty, Tarik F. Massoud, and Joy Q He

Subjects
Cancer Research, medicine.diagnostic_test, Chemistry, Magnetic resonance imaging, PKM2, medicine.disease, Oncology, Positron emission tomography, Cell culture, Glioma, medicine, Cancer research, Glycolysis, U87, Pyruvate kinase
Abstract

Purpose: Pyruvate kinase M2 (PKM2) catalyzes the final step in glycolysis, a key process of cancer metabolism. PKM2 is preferentially expressed by glioblastoma (GBM) cells with minimal expression in healthy brain. We describe the development, validation, and translation of a novel PET tracer to study PKM2 in GBM. We evaluated 1-((2-fluoro-6-[18F]fluorophenyl)sulfonyl)-4-((4-methoxyphenyl)sulfonyl)piperazine ([18F]DASA-23) in cell culture, mouse models of GBM, healthy human volunteers, and patients with GBM. Experimental Design: [18F]DASA-23 was synthesized with a molar activity of 100.47 ± 29.58 GBq/μmol and radiochemical purity >95%. We performed initial testing of [18F]DASA-23 in GBM cell culture and human GBM xenografts implanted orthotopically into mice. Next, we produced [18F]DASA-23 under FDA oversight, and evaluated it in healthy volunteers and a pilot cohort of patients with glioma. Results: In mouse imaging studies, [18F]DASA-23 clearly delineated the U87 GBM from surrounding healthy brain tissue and had a tumor-to-brain ratio of 3.6 ± 0.5. In human volunteers, [18F]DASA-23 crossed the intact blood–brain barrier and was rapidly cleared. In patients with GBM, [18F]DASA-23 successfully outlined tumors visible on contrast-enhanced MRI. The uptake of [18F]DASA-23 was markedly elevated in GBMs compared with normal brain, and it identified a metabolic nonresponder within 1 week of treatment initiation. Conclusions: We developed and translated [18F]DASA-23 as a new tracer that demonstrated the visualization of aberrantly expressed PKM2 for the first time in human subjects. These results warrant further clinical evaluation of [18F]DASA-23 to assess its utility for imaging therapy–induced normalization of aberrant cancer metabolism.

Published
2021

10. Abnormal [18F]FDG PET/MRI findings in paraspinal structures of patients with suspected cerebrospinal fluid leak

Author

Ryan Penticuff, Yingding Xu, Jessa B. Castillo, Daehyun Yoon, Sandip Biswal, Peter Cipriano, and Ian Carroll

Subjects
Adult, Male, Leak, Science, Paraspinal Muscles, Fibrin, Article, Cerebrospinal fluid, Fluorodeoxyglucose F18, Positron Emission Tomography Computed Tomography, medicine, Humans, Whole Body Imaging, Fluorodeoxyglucose, Multidisciplinary, biology, Cerebrospinal fluid leak, medicine.diagnostic_test, Cerebrospinal Fluid Leak, business.industry, Magnetic resonance imaging, Diagnostic markers, Middle Aged, medicine.disease, Magnetic Resonance Imaging, Positron emission tomography, Positron-Emission Tomography, biology.protein, Medicine, Female, business, Nuclear medicine, Tomography, X-Ray Computed, Biomedical engineering, Mri findings, medicine.drug
Abstract

A combination of magnetic resonance imaging (MRI), computed tomography (CT), and radionuclide cisternography are typically used to locate a cerebrospinal fluid (CSF) leak. However, the site of leakage cannot be determined, making treatment more difficult. Therefore, more sensitive imaging tools are needed. A whole-body [18F]fluorodeoxyglucose (FDG) positron emission tomography (PET)/MRI was conducted on six patients with suspected CSF leak and the resulting images were reviewed in comparison with those from six healthy controls. Paraspinal regions of focally increased uptake of [18F]FDG were quantified using maximum standardized uptake values (SUVmax) and compared to the SUVmax of corresponding regions in the healthy controls. All six patients with suspected CSF leak showed paraspinal regions of significantly greater [18F]FDG uptake compared to the corresponding areas in controls (P

Published
2021

11. [18F]-C-SNAT4: an improved caspase-3-sensitive nanoaggregation PET tracer for imaging of tumor responses to chemo- and immunotherapies

Author

Bin Shen, Zixin Chen, Frederick T. Chin, Liyang Cui, Kaixiang Zhou, Jessa B. Castillo, Jinghang Xie, Jianghong Rao, and Min Chen

Subjects
Cisplatin, Programmed cell death, medicine.diagnostic_test, business.industry, Colorectal cancer, medicine.medical_treatment, General Medicine, Immunotherapy, medicine.disease, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Apoptosis, Positron emission tomography, In vivo, 030220 oncology & carcinogenesis, Cancer research, Medicine, Radiology, Nuclear Medicine and imaging, business, Ex vivo, medicine.drug
Abstract

Positron emission tomography (PET) imaging of apoptosis can noninvasively detect cell death in vivo and assist in monitoring tumor response to treatment in patients. While extensive efforts have been devoted to addressing this important need, no apoptosis PET imaging agents have yet been approved for clinical use. This study reports an improved 18F-labeled caspase-sensitive nanoaggregation tracer ([18F]-C-SNAT4) for PET imaging of tumor response to chemo- and immunotherapies in preclinical mouse models. We rationally designed and synthesized a new PET tracer [18F]-C-SNAT4 to detect cell death both in vitro and in vivo. In vitro radiotracer uptake studies were performed on drug-sensitive and -resistant NSCLC cell lines (NCI-H460 and NCI-H1299, respectively) treated with cisplatin at different doses. In vivo therapy response monitoring by [18F]-C-SNAT4 PET imaging was evaluated with two treatment modalities—chemotherapy and immunotherapy in two tumor xenografts in mice. Radiotracer uptake in the tumors was validated ex vivo using γ-counting and cleaved caspase-3 immunofluorescence. This [18F]-C-SNAT4 PET tracer was facilely synthesized and displayed improved serum stability profiles. [18F]-C-SNAT4 cellular update was elevated in NCI-H460 cells in a time- and dose-dependent manner, which correlated well with cell death. A significant increase in [18F]-C-SNAT4 uptake was measured in NCI-H460 tumor xenografts in mice. In contrast, a rapid clearance of [18F]-C-SNAT4 was observed in drug-resistant NCI-H1299 in vitro and in tumor xenografts. Moreover, in BALB/C mice bearing murine colon cancer CT26 tumor xenografts receiving checkpoint inhibitors, [18F]-C-SNAT4 showed its ability for monitoring immunotherapy-induced apoptosis and reporting treatment-responding mice from non-responding. The uptake of [18F]-C-SNAT4 in tumors received chemotherapy and immunotherapy is positively correlated with the tumor apoptotic level and the treatment efficacy. [18F]-C-SNAT4 PET imaging can monitor tumor response to two different treatment modalities and predict the therapeutic efficacy in preclinical mouse models.

Published
2021

12. In Vivo Imaging of Methionine Aminopeptidase II for Prostate Cancer Risk Stratification

Author

Jessa B. Castillo, Guosheng Song, Jinghang Xie, Chiyuan Amy Zhang, Christian A. Kunder, James D. Brooks, Kaixiang Zhou, Tanya Stoyanova, Meghan A. Rice, En-Chi Hsu, Yunfeng Cheng, Min Chen, Frederick T. Chin, Jianghong Rao, Liyang Cui, Zixin Chen, and Bin Shen

Subjects
0301 basic medicine, Cancer Research, medicine.diagnostic_test, Prostatectomy, business.industry, medicine.medical_treatment, Cancer, medicine.disease, Article, Malignant transformation, 03 medical and health sciences, Prostate cancer, 030104 developmental biology, 0302 clinical medicine, Oncology, In vivo, Positron emission tomography, 030220 oncology & carcinogenesis, Localized disease, medicine, Cancer research, business, Preclinical imaging
Abstract

Prostate cancer is one of the most common malignancies worldwide, yet limited tools exist for prognostic risk stratification of the disease. Identification of new biomarkers representing intrinsic features of malignant transformation and development of prognostic imaging technologies are critical for improving treatment decisions and patient survival. In this study, we analyzed radical prostatectomy specimens from 422 patients with localized disease to define the expression pattern of methionine aminopeptidase II (MetAP2), a cytosolic metalloprotease that has been identified as a druggable target in cancer. MetAP2 was highly expressed in 54% of low-grade and 59% of high-grade cancers. Elevated levels of MetAP2 at diagnosis were associated with shorter time to recurrence. Controlled self-assembly of a synthetic small molecule enabled design of the first MetAP2-activated PET imaging tracer for monitoring MetAP2 activity in vivo. The nanoparticles assembled upon MetAP2 activation were imaged in single prostate cancer cells with post-click fluorescence labeling. The fluorine-18–labeled tracers successfully differentiated MetAP2 activity in both MetAP2-knockdown and inhibitor-treated human prostate cancer xenografts by micro-PET/CT scanning. This highly sensitive imaging technology may provide a new tool for noninvasive early-risk stratification of prostate cancer and monitoring the therapeutic effect of MetAP2 inhibitors as anticancer drugs. Significance: This study defines MetAP2 as an early-risk stratifier for molecular imaging of aggressive prostate cancer and describes a MetAP2-activated self-assembly small-molecule PET tracer for imaging MetAP2 activity in vivo.

Published
2021

13. Effects of the sigma-1 receptor agonist blarcamesine in a murine model of fragile X syndrome: neurobehavioral phenotypes and receptor occupancy

Author

Berend van der Wildt, Daniel Klamer, Samantha T. Reyes, Jeffrey Sprouse, Robert M. J. Deacon, Nell Rebowe, Walter E. Kaufmann, Aimara P. Morales, Lindsay M. Oberman, Jarrett Rosenberg, Frederick T. Chin, Jun Hyung Park, Scarlett G. Guo, Francisco Altimiras, Christopher U. Missling, Jessa B. Castillo, Patricia Cogram, and Christopher R. McCurdy

Subjects
Male, Agonist, congenital, hereditary, and neonatal diseases and abnormalities, medicine.drug_class, Science, Hippocampus, Rett syndrome, Molecular neuroscience, Article, Target validation, Fragile X Mental Retardation Protein, Mice, Intellectual disability, medicine, Animals, Receptors, sigma, Furans, Maze Learning, Pharmacology, Multidisciplinary, Sigma-1 receptor, Molecular medicine, business.industry, Brain-Derived Neurotrophic Factor, Small molecules, Cognitive neuroscience, Translational research, medicine.disease, Associative learning, Mice, Inbred C57BL, Fragile X syndrome, Neuroprotective Agents, Phenotype, Preclinical research, Autism spectrum disorder, Fragile X Syndrome, Medicine, Positron-emission tomography, business, Neuroscience, Protein Binding
Abstract

Fragile X syndrome (FXS), a disorder of synaptic development and function, is the most prevalent genetic form of intellectual disability and autism spectrum disorder. FXS mouse models display clinically-relevant phenotypes, such as increased anxiety and hyperactivity. Despite their availability, so far advances in drug development have not yielded new treatments. Therefore, testing novel drugs that can ameliorate FXS’ cognitive and behavioral impairments is imperative. ANAVEX2-73 (blarcamesine) is a sigma-1 receptor (S1R) agonist with a strong safety record and preliminary efficacy evidence in patients with Alzheimer’s disease and Rett syndrome, other synaptic neurodegenerative and neurodevelopmental disorders. S1R’s role in calcium homeostasis and mitochondrial function, cellular functions related to synaptic function, makes blarcamesine a potential drug candidate for FXS. Administration of blarcamesine in 2-month-old FXS and wild type mice for 2 weeks led to normalization in two key neurobehavioral phenotypes: open field test (hyperactivity) and contextual fear conditioning (associative learning). Furthermore, there was improvement in marble-burying (anxiety, perseverative behavior). It also restored levels of BDNF, a converging point of many synaptic regulators, in the hippocampus. Positron emission tomography (PET) and ex vivo autoradiographic studies, using the highly selective S1R PET ligand [18F]FTC-146, demonstrated the drug’s dose-dependent receptor occupancy. Subsequent analyses also showed a wide but variable brain regional distribution of S1Rs, which was preserved in FXS mice. Altogether, these neurobehavioral, biochemical, and imaging data demonstrates doses that yield measurable receptor occupancy are effective for improving the synaptic and behavioral phenotype in FXS mice. The present findings support the viability of S1R as a therapeutic target in FXS, and the clinical potential of blarcamesine in FXS and other neurodevelopmental disorders.

Published
2021

14. The Characterization of 18F-hGTS13 for Molecular Imaging of xC− Transporter Activity with PET

Author

Chirag B. Patel, Ohad Ilovich, Jessa B. Castillo, Tom Haywood, Ananth Srinivasan, Elise Robinson, Israt S. Alam, Marion Zerna, Bin Shen, Sanjiv S. Gambhir, Heribert Schmitt-Willich, Andre Mueller, Emily Carmen Azevedo, Norman Koglin, Gayatri Gowrishankar, Mathias Berndt, and Corinne Beinat

Subjects
0301 basic medicine, Biodistribution, Chemistry, Cell, Glutamate receptor, Transporter, medicine.disease_cause, medicine.disease, Molecular biology, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Immune system, medicine.anatomical_structure, Hepatocellular carcinoma, medicine, Radiology, Nuclear Medicine and imaging, Oxidative stress, Ex vivo
Abstract

The aim of this study was development of an improved PET radiotracer for measuring xC− activity with increased tumor uptake and reduced uptake in inflammatory cells compared with (S)-4-(3-18F-fluoropropyl)-l-glutamate (18F-FSPG). Methods: A racemic glutamate derivative, 18F-hGTS13, was evaluated in cell culture and animal tumor models. 18F-hGTS13 was separated into C5 epimers, and the corresponding 18F-hGTS13-isomer1 and 18F-hGTS13-isomer2 were evaluated in H460 tumor–bearing rats. Preliminary studies investigated the cellular uptake of 18F-hGTS13-isomer2 in multiple immune cell populations and states. Results:18F-hGTS13 demonstrated excellent H460 tumor visualization with high tumor-to-background ratios, confirmed by ex vivo biodistribution studies. Tumor-associated radioactivity was significantly higher for 18F-hGTS13 (7.5 ± 0.9 percentage injected dose [%ID]/g, n = 3) than for 18F-FSPG (4.6 ± 0.7 %ID/g, n = 3, P = 0.01). 18F-hGTS13-isomer2 exhibited excellent H460 tumor visualization (6.3 ± 1.1 %ID/g, n = 3) and significantly reduced uptake in multiple immune cell populations relative to 18F-FSPG. 18F-hGTS13-isomer2 exhibited increased liver uptake relative to 18F-FSPG (4.6 ± 0.8 vs. 0.7 ± 0.01 %ID/g), limiting its application in hepatocellular carcinoma. Conclusion:18F-hGTS13-isomer2 is a new PET radiotracer for molecular imaging of xC− activity that may provide information on tumor oxidation states. 18F-hGTS13-isomer2 has potential for clinical translation for imaging cancers of the thorax because of the low background signal in healthy tissue.

Published
2019

15. A Clinical PET Imaging Tracer ([

Author

Corinne, Beinat, Chirag B, Patel, Tom, Haywood, Surya, Murty, Lewis, Naya, Jessa B, Castillo, Samantha T, Reyes, Megan, Phillips, Pablo, Buccino, Bin, Shen, Jun Hyung, Park, Mary Ellen I, Koran, Israt S, Alam, Michelle L, James, Dawn, Holley, Kim, Halbert, Harsh, Gandhi, Joy Q, He, Monica, Granucci, Eli, Johnson, Daniel Dan, Liu, Nobuko, Uchida, Rahul, Sinha, Pauline, Chu, Donald E, Born, Geoffrey I, Warnock, Irving, Weissman, Melanie, Hayden-Gephart, Mehdi, Khalighi, Tarik F, Massoud, Andrei, Iagaru, Guido, Davidzon, Reena, Thomas, Seema, Nagpal, Lawrence D, Recht, and Sanjiv Sam, Gambhir

Subjects
Mice, Brain Neoplasms, Positron-Emission Tomography, Pyruvate Kinase, Sulfanilic Acids, Animals, Humans, Diazonium Compounds, Glioblastoma, Glycolysis, Article
Abstract

PURPOSE: Pyruvate kinase M2 (PKM2) catalyzes the final step in glycolysis, a key process of cancer metabolism. PKM2 is preferentially expressed by glioblastoma (GBM) cells with minimal expression in healthy brain. We describe the development, validation, and translation of a novel positron emission tomography (PET) tracer to study PKM2 in GBM. We evaluated 1-((2-fluoro-6-[(18)F]fluorophenyl)sulfonyl)-4-((4-methoxyphenyl)sulfonyl)piperazine ([(18)F]DASA-23) in cell culture, mouse models of GBM, healthy human volunteers, and GBM patients. EXPERIMENTAL DESIGN: [(18)F]DASA-23 was synthesized with a molar activity of 100.47 ± 29.58 GBq/μmol and radiochemical purity >95%. We performed initial testing of [(18)F]DASA-23 in GBM cell culture and human GBM xenografts implanted orthotopically into mice. Next we produced [(18)F]DASA-23 under FDA oversight, and evaluated it in healthy volunteers, and a pilot cohort of glioma patients. RESULTS: In mouse imaging studies, [(18)F]DASA-23 clearly delineated the U87 GBM from surrounding healthy brain tissue and had a tumor-to-brain ratio (TBR) of 3.6 ± 0.5. In human volunteers, [(18)F]DASA-23 crossed the intact blood-brain barrier and was rapidly cleared. In GBM patients, [(18)F]DASA-23 successfully outlined tumors visible on contrast-enhanced magnetic resonance imaging (MRI). The uptake of [(18)F]DASA-23 was markedly elevated in GBMs compared to normal brain, and it identified a metabolic non-responder within 1-week of treatment initiation. CONCLUSION: We developed and translated [(18)F]DASA-23 as a new tracer that demonstrated the visualization of aberrantly expressed PKM2 for the first time in human subjects. These results warrant further clinical evaluation of [(18)F]DASA-23 to assess its utility for imaging therapy-induced normalization of aberrant cancer metabolism.

Published
2021

16. Hippocampal subfield imaging and fractional anisotropy show parallel changes in Alzheimer's disease tau progression using simultaneous tau‐PET/MRI at 3T

Author

Michael Zeineh, Jessa B. Castillo, Bin Shen, Gustavo Chau, Emily Carmen Azevedo, Tyler N. Toueg, Phillip DiGiacomo, Mackenzie L. Carlson, Michelle L. James, Nicole Mouchawar, Elizabeth C. Mormino, Mohammad Mehdi Khalighi, and Greg Zaharchuk

Subjects
hippocampus, Amyloid beta, Hippocampus, Neuroimaging, Hippocampal formation, White matter, mental disorders, Fractional anisotropy, medicine, magnetic resonance imaging, RC346-429, 18F‐PI‐2620, biology, Chemistry, Dentate gyrus, diffusion, RC952-954.6, Subiculum, Alzheimer's disease, Psychiatry and Mental health, medicine.anatomical_structure, nervous system, Geriatrics, biology.protein, Neurology. Diseases of the nervous system, Neurology (clinical), Neuroscience, Research Article, Diffusion MRI
Abstract

Introduction Alzheimer's disease (AD) is the most common form of dementia, characterized primarily by abnormal aggregation of two proteins, tau and amyloid beta. We assessed tau pathology and white matter connectivity changes in subfields of the hippocampus simultaneously in vivo in AD. Methods Twenty‐four subjects were scanned using simultaneous time‐of‐flight 18F‐PI‐2620 tau positron emission tomography/3‐Tesla magnetic resonance imaging and automated segmentation. Results We observed extensive tau elevation in the entorhinal/perirhinal regions, intermediate tau elevation in cornu ammonis 1/subiculum, and an absence of tau elevation in the dentate gyrus, relative to controls. Diffusion tensor imaging showed parahippocampal gyral fractional anisotropy was lower in AD and mild cognitive impairment compared to controls and strongly correlated with early tau accumulation in the entorhinal and perirhinal cortices. Discussion This study demonstrates the potential for quantifiable patterns of 18F‐PI2620 binding in hippocampus subfields, accompanied by diffusion and volume metrics, to be valuable markers of AD.

Published
2021

17. The Characterization of

Author

Corinne, Beinat, Gayatri, Gowrishankar, Bin, Shen, Israt S, Alam, Elise, Robinson, Tom, Haywood, Chirag B, Patel, Emily Carmen, Azevedo, Jessa B, Castillo, Ohad, Ilovich, Norman, Koglin, Heribert, Schmitt-Willich, Mathias, Berndt, Andre, Mueller, Marion, Zerna, Ananth, Srinivasan, and Sanjiv Sam, Gambhir

Subjects
Amino Acid Transport Systems, A549 Cells, Positron-Emission Tomography, Glutamic Acid, Humans, Biological Transport
Abstract

The aim of this study was development of an improved PET radiotracer for measuring x

Published
2019

18. P4‐262: SIGMA‐1 RECEPTOR TARGET OCCUPANCY STUDY WITH DYNAMIC PET SCAN ANALYSIS OF ANAVEX ® 2‐73: A CLINICAL CANDIDATE FOR NEURODEGENERATIVE AND NEURODEVELOPMENTAL DISEASES

Author

Jessa B. Castillo, Berend van de Wildt, Nell Robowe, Scarlett G. Guo, Samantha T. Reyes, Jeffrey Sprouse, Jun Hyung Park, Christopher U. Missling, Aimara P. Morales, and Frederick T. Chin

Subjects
0301 basic medicine, Sigma-1 receptor, Occupancy, Epidemiology, business.industry, Health Policy, 03 medical and health sciences, Psychiatry and Mental health, Cellular and Molecular Neuroscience, 030104 developmental biology, 0302 clinical medicine, Developmental Neuroscience, Medicine, Neurology (clinical), Geriatrics and Gerontology, business, Neuroscience, 030217 neurology & neurosurgery
Published
2018

19. P4‐315: TAU PET IMAGING WITH 18 F‐PI2620 IN AGING AND ALZHEIMER'S DISEASE

Author

Jacob N. Hall, Wanjia Guo, Sharon J. Sha, Michelle L. James, Frederick T. Chin, Manasi Jayakumar, Natalie J Tanner, S. Srinivas, Marc B. Harrison, Elizabeth C. Mormino, Greg Zaharchuk, Ayesha Nadiadwala, Carolyn A. Fredericks, Alexandra N. Trelle, Carmen Azevedo, Michael D. Greicius, Jessa B. Castillo, Gayle K. Deutsch, and Anthony D. Wagner

Subjects
Pathology, medicine.medical_specialty, Epidemiology, business.industry, Health Policy, Disease, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Psychiatry and Mental health, Cellular and Molecular Neuroscience, 0302 clinical medicine, Developmental Neuroscience, 030220 oncology & carcinogenesis, Medicine, Neurology (clinical), Geriatrics and Gerontology, business
Published
2018

20. P4-576: CONCORDANCE BETWEEN 18F-PI-2620 TAU PET/MRI IMAGING AND CLINICAL OUTCOMES IN ALZHEIMER DISEASE AND OTHER TAUOPATHIES

Author

Guido Davidzon, Carmen Azevedo, Sharon J. Sha, Michael D. Greicius, Jacob N. Hall, Greg Zaharchuk, Carolyn A. Fredericks, Tyler N. Toueg, Frederick T. Chin, Ayesha Nadiadwala, Jessa B. Castillo, Anthony D. Wagner, Elizabeth C. Mormino, and Mary Ellen I. Koran

Subjects
Pathology, medicine.medical_specialty, Mri imaging, Epidemiology, business.industry, Health Policy, Concordance, medicine.disease, Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, medicine, Neurology (clinical), Geriatrics and Gerontology, Alzheimer's disease, business
Published
2019

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