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1. Additional file 3 of Phase 1 study of intraventricular 131I-omburtamab targeting B7H3 (CD276)-expressing CNS malignancies

Author

Kramer, Kim, Pandit-Taskar, Neeta, Kushner, Brian H., Zanzonico, Pat, Humm, John L., Tomlinson, Ursula, Donzelli, Maria, Wolden, Suzanne L., Haque, Sophia, Dunkel, Ira, Souweidane, Mark M., Greenfield, Jeffrey P., Tickoo, Satish, Lewis, Jason S., Lyashchenko, Serge K., Carrasquillo, Jorge A., Chu, Bae, Horan, Christopher, Larson, Steven M., Cheung, Nai-Kong V., and Modak, Shakeel

Abstract

Additional file 3. Tables S1–S4.

Published
2022
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2. Additional file 1 of Phase 1 study of intraventricular 131I-omburtamab targeting B7H3 (CD276)-expressing CNS malignancies

Author

Kramer, Kim, Pandit-Taskar, Neeta, Kushner, Brian H., Zanzonico, Pat, Humm, John L., Tomlinson, Ursula, Donzelli, Maria, Wolden, Suzanne L., Haque, Sophia, Dunkel, Ira, Souweidane, Mark M., Greenfield, Jeffrey P., Tickoo, Satish, Lewis, Jason S., Lyashchenko, Serge K., Carrasquillo, Jorge A., Chu, Bae, Horan, Christopher, Larson, Steven M., Cheung, Nai-Kong V., and Modak, Shakeel

Abstract

Additional file 1. Figure S1. Consort diagram.

Published
2022
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4. A PET Imaging Strategy for Interrogating Target Engagement and Oncogene Status in Pancreatic Cancer

Author

Henry, Kelly E, Dacek, Megan M, Dilling, Thomas R, Caen, Jonathan D, Fox, Ian L, Evans, Michael J, and Lewis, Jason S

Subjects
Oncology and Carcinogenesis, Adenocarcinoma, Cell Line, Proto-Oncogene Proteins c-myc, Proto-Oncogene Proteins p21(ras), Mice, Pancreatic Cancer, Rare Diseases, Animals, Humans, Molecular Targeted Therapy, Oncology & Carcinogenesis, Cell Proliferation, Cancer, Radioisotopes, Neoplastic, Tumor, Mitogen-Activated Protein Kinase 3, Carcinoma, Transferrin, Gene Expression Regulation, Pancreatic Ductal, 5.1 Pharmaceuticals, Positron-Emission Tomography, Heterografts, Biomedical Imaging, Zirconium, Development of treatments and therapeutic interventions, Digestive Diseases, Signal Transduction
Abstract

PurposePancreatic ductal adenocarcinoma (PDAC) is one of the most deadly cancers, with a 5-year survival rate of less than 10%. Physicians often rely on biopsy or CT to guide treatment decisions, but these techniques fail to reliably measure the actions of therapeutic agents in PDAC. KRAS mutations are present in >90% of PDAC and are connected to many signaling pathways through its oncogenic cascade, including extracellular regulated kinase (ERK) and MYC. A key downstream event of MYC is transferrin receptor (TfR), which has been identified as a biomarker for cancer therapeutics and imaging.Experimental designIn this study, we aimed to test whether zirconium-89 transferrin ([89Zr]Zr-Tf) could measure changes in MYC depending on KRAS status of PDAC, and assess target engagement of anti-MYC and anti-ERK-targeted therapies.ResultsMice bearing iKras*p53* tumors showed significantly higher (P < 0.05) uptake of [89Zr]Zr-Tf in mice withdrawn from inducible oncogenic KRAS. A therapy study with JQ1 showed a statistically significant decrease (P < 0.05) of [89Zr]Zr-Tf uptake in drug versus vehicle-treated mice bearing Capan-2 and Suit-2 xenografts. IHC analysis of resected PDAC tumors reflects the data observed via PET imaging and radiotracer biodistribution.ConclusionsOur study demonstrates that [89Zr]Zr-Tf is a valuable tool to noninvasively assess oncogene status and target engagement of small-molecule inhibitors downstream of oncogenic KRAS, allowing a quantitative assessment of drug delivery.

Published
2019

5. Noninvasive 89Zr-Transferrin PET Shows Improved Tumor Targeting Compared with 18F-FDG PET in MYC-Overexpressing Human Triple-Negative Breast Cancer

Author

Henry, Kelly E, Dilling, Thomas R, Abdel-Atti, Dalya, Edwards, Kimberly J, Evans, Michael J, and Lewis, Jason S

Subjects
positron emission tomography, bromodomain-containing protein 4, zirconium-89, Clinical Sciences, Triple Negative Breast Neoplasms, MYC, Cell Transformation, Cell Line, Proto-Oncogene Proteins c-myc, Mice, Fluorodeoxyglucose F18, Clinical Research, F-18-fluorodeoxyglucose F-18-FDG), Breast Cancer, Genetics, Animals, Humans, Cancer, Radioisotopes, Neoplastic, Tumor, Transferrin, Biological Transport, transferrin receptor, Nuclear Medicine & Medical Imaging, Gene Expression Regulation, Positron-Emission Tomography, triple-negative breast cancer, Biomedical Imaging, Female, Zirconium, 18F-fluorodeoxyglucose, Biotechnology
Abstract

The current standard for breast PET imaging is 18F-FDG. The heterogeneity of 18F-FDG uptake in breast cancer limits its utility, varying greatly among receptor status, histopathologic subtypes, and proliferation markers. 18F-FDG PET often exhibits nonspecific internalization and low specificity and sensitivity, especially with tumors smaller than 1 cm3 MYC is a protein involved in oncogenesis and is overexpressed in triple-negative breast cancer (TNBC). Increased surface expression of transferrin receptor (TfR) is a downstream event of MYC upregulation and has been validated as a clinically relevant target for molecular imaging. Transferrin labeled with 89Zr has successfully identified MYC status in many cancer subtypes preclinically and been shown to predict response and changes in oncogene status via treatment with small-molecule inhibitors that target MYC and PI3K signaling pathways. We hypothesized that 89Zr-transferrin PET will noninvasively detect MYC and TfR and improve upon the current standard of 18F-FDG PET for MYC-overexpressing TNBC. Methods: In this study, 89Zr-transferrin and 18F-FDG imaging were compared in preclinical models of TNBC. TNBC cells (MDA-MB-157, MDA-MB-231, and Hs578T) were treated with bromodomain-containing protein 4 (BRD4) inhibitors JQ1 and OTX015 (0.5-1 μM). Cell proliferation, gene expression, and protein expression were assayed to explore the effects of these inhibitors on MYC and TfR. Results: Head-to-head comparison showed that 89Zr-transferrin targets TNBC tumors significantly better (P < 0.05-0.001) than 18F-FDG through PET imaging and biodistribution studies in MDA-MB-231 and MDA-MB-157 xenografts and a patient-derived xenograft model of TNBC. c-Myc and TfR gene expression was decreased upon treatment with BRD4 inhibitors and c-MYC small interfering RNA (P < 0.01-0.001 for responding cell lines), compared with vehicle treatment. MYC and TfR protein expression, along with receptor-mediated internalization of transferrin, was also significantly decreased upon drug treatment in MDA-MB-231 and MDA-MB-157 cells (P < 0.01-0.001). Conclusion:89Zr-transferrin targets human TNBC primary tumors significantly better than 18F-FDG, as shown through PET imaging and biodistribution studies. 89Zr-transferrin is a useful tool to interrogate MYC via TfR-targeted PET imaging in TNBC.

Published
2018

6. Noninvasive Measurement of mTORC1 Signaling with 89Zr-Transferrin

Author

Truillet, Charles, Cunningham, John T, Parker, Matthew FL, Huynh, Loc T, Conn, Crystal S, Ruggero, Davide, Lewis, Jason S, and Evans, Michael J

Subjects
Tumor, TOR Serine-Threonine Kinases, Oncology and Carcinogenesis, Transferrin, Bioengineering, Mechanistic Target of Rapamycin Complex 1, Xenograft Model Antitumor Assays, Cell Line, Molecular Imaging, Mice, Positron-Emission Tomography, Animals, Humans, Biomedical Imaging, Zirconium, Oncology & Carcinogenesis, Radiopharmaceuticals, Cancer
Abstract

Purpose: mTOR regulates many normal physiological processes and when hyperactive can drive numerous cancers and human diseases. However, it is very challenging to detect and quantify mTOR signaling noninvasively in clinically relevant animal models of disease or man. We hypothesized that a nuclear imaging tool measuring intracellular mTOR activity could address this unmet need.Experimental Design: Although the biochemical activity of mTOR is not directly amenable to nuclear imaging probe development, we show that the transferrin receptor can be used to indirectly measure intracellular changes in mTOR activity.Results: After verifying that the uptake of radiolabeled transferrin (the soluble ligand of the transferrin receptor) is stimulated by active mTORC1 in vitro, we showed that 89Zr-labeled transferrin (Tf) can measure mTORC1 signaling dynamics in normal and cancerous mouse tissues with PET. Finally, we show that 89Zr-Tf can detect the upregulation of mTORC1 by tumor cells to escape the antitumor effects of a standard-of-care antiandrogen, which is to our knowledge the first example of applying PET to interrogate the biology of treatment resistant cancer.Conclusions: In summary, we have developed the first quantitative assay to provide a comprehensive measurement of mTOR signaling dynamics in vivo, in specific normal tissues, and during tumor development in genetically engineered animal models using a nuclear imaging tool that is readily translatable to man. Clin Cancer Res; 23(12); 3045-52. ©2016 AACR.

Published
2017

7. Fully-automated synthesis of 16β-(18)F-fluoro-5α-dihydrotestosterone (FDHT) on the ELIXYS radiosynthesizer

Author

Lazari, Mark, Lyashchenko, Serge K, Burnazi, Eva M, Lewis, Jason S, van Dam, R Michael, and Murphy, Jennifer M

Subjects
Urologic Diseases, Fluorine Radioisotopes, LiAlH(4) reduction, Clinical Sciences, Bioengineering, Atomic, Specimen Handling, LiAlH4 reduction, Particle and Plasma Physics, Clinical Research, Nuclear, Cancer, FDHT, screening and diagnosis, Prostate cancer, Radionuclide Generators, Molecular, Dihydrotestosterone, Equipment Design, Robotics, Fully-automated, Fluorine-18, 4.1 Discovery and preclinical testing of markers and technologies, Equipment Failure Analysis, Other Physical Sciences, Detection, Nuclear Medicine & Medical Imaging, PET, Isotope Labeling, Drug Design, Biomedical Imaging, Radiopharmaceuticals, Rheology, 4.2 Evaluation of markers and technologies
Abstract

Noninvasive in vivo imaging of androgen receptor (AR) levels with positron emission tomography (PET) is becoming the primary tool in prostate cancer detection and staging. Of the potential (18)F-labeled PET tracers, (18)F-FDHT has clinically shown to be of highest diagnostic value. We demonstrate the first automated synthesis of (18)F-FDHT by adapting the conventional manual synthesis onto the fully-automated ELIXYS radiosynthesizer. Clinically-relevant amounts of (18)F-FDHT were synthesized on ELIXYS in 90 min with decay-corrected radiochemical yield of 29±5% (n=7). The specific activity was 4.6 Ci/µmol (170 GBq/µmol) at end of formulation with a starting activity of 1.0 Ci (37 GBq). The formulated (18)F-FDHT yielded sufficient activity for multiple patient doses and passed all quality control tests required for routine clinical use.

Published
2015

8. CDK9-mediated transcription elongation is required for MYC addiction in hepatocellular carcinoma

Author

Huang, Chun-Hao, Lujambio, Amaia, Zuber, Johannes, Tschaharganeh, Darjus F, Doran, Michael G, Evans, Michael J, Kitzing, Thomas, Zhu, Nan, de Stanchina, Elisa, Sawyers, Charles L, Armstrong, Scott A, Lewis, Jason S, Sherr, Charles J, and Lowe, Scott W

Subjects
Liver Cancer, oncogene addiction, Gene Expression, CDK9, MYC, Small Interfering, Medical and Health Sciences, Cell Line, Proto-Oncogene Proteins c-myc, Mice, Rare Diseases, Genetic, Genetics, Animals, Humans, Positive Transcriptional Elongation Factor B, transcription elongation, Cell Proliferation, Gene Library, RNAi screen, Cancer, Tumor, Liver Disease, Carcinoma, Liver Neoplasms, Psychology and Cognitive Sciences, Hepatocellular, Hep G2 Cells, Biological Sciences, Cyclin-Dependent Kinase 9, Orphan Drug, Good Health and Well Being, RNA, RNA Interference, Female, Digestive Diseases, Developmental Biology
Abstract

One-year survival rates for newly diagnosed hepatocellular carcinoma (HCC) are

Published
2014

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