Your search keyword '"Murphy, Jennifer M"' showing total 11 results

1. An Organometallic Gold(III) Reagent for 18 F Labeling of Unprotected Peptides and Sugars in Aqueous Media.

Author

McDaniel JW, Stauber JM, Doud EA, Spokoyny AM, and Murphy JM

Subjects

Isotope Labeling, Peptides, Radiopharmaceuticals, Sugars, Fluorine Radioisotopes, Gold

Abstract

The 18 F labeling of unprotected peptides and sugars with a Au(III)-[ 18 F]fluoroaryl complex is reported. The chemoselective method generates 18 F-labeled S -aryl bioconjugates in an aqueous environment in 15 min with high radiochemical yields and displays excellent functional group tolerance. This approach utilizes an air and moisture stable, robust organometallic Au(III) complex and highlights the versatility of designer organometallic reagents as efficient agents for rapid radiolabeling.

Published

2022

2. One-Step Synthesis of [ 18 F]Fluoro-4-(vinylsulfonyl)benzene: A Thiol Reactive Synthon for Selective Radiofluorination of Peptides.

Author

Ma G, McDaniel JW, and Murphy JM

Subjects

Molecular Structure, Positron-Emission Tomography methods, Radiopharmaceuticals chemistry, Cysteine chemistry, Fluorine Radioisotopes chemistry, Radiopharmaceuticals chemical synthesis, Sulfhydryl Compounds chemistry

Abstract

Radiolabeled peptide-based molecular imaging probes exploit the advantages of large biologics and small molecules, providing both exquisite selectivity and favorable pharmacokinetic properties. Here, we report an operationally simple and broadly applicable approach for the 18 F-fluorination of unprotected peptides via a new radiosynthon, [ 18 F]fluoro-4-(vinylsulfonyl)benzene. This reagent demonstrates excellent chemoselectivity at the cysteine residue and rapid 18 F-labeling of a diverse scope of peptides to generate stable thioether constructs.

Published

2021

3. A Dual-Modality Linker Enables Site-Specific Conjugation of Antibody Fragments for 18 F-Immuno-PET and Fluorescence Imaging.

Author

Zettlitz KA, Waldmann CM, Tsai WK, Tavaré R, Collins J, Murphy JM, and Wu AM

Subjects

Animals, Antibodies chemistry, Antigens, Neoplasm blood, Cysteine chemistry, Fluorescence, Fluorescent Dyes, GPI-Linked Proteins blood, Humans, Immunoglobulin Fragments, Male, Mice, Neoplasm Proteins blood, Neoplasm Transplantation, Optical Imaging, Radiopharmaceuticals, Tissue Distribution, Carbocyanines chemistry, Cyclooctanes chemistry, Fluorine Radioisotopes chemistry, Microscopy, Fluorescence, Positron-Emission Tomography, Prostatic Neoplasms diagnostic imaging

Abstract

Antibody-based dual-modality (PET/fluorescence) imaging enables both presurgery antigen-specific immuno-PET for noninvasive whole-body evaluation and intraoperative fluorescence for visualization of superficial tissue layers for image-guided surgery. Methods: We developed a universal dual-modality linker (DML) that facilitates site-specific conjugation to a cysteine residue-bearing antibody fragment, introduction of a commercially available fluorescent dye (via an amine-reactive prosthetic group), and rapid and efficient radiolabeling via click chemistry with 18 F-labeled trans -cyclooctene ( 18 F-TCO). To generate a dual-modality antibody fragment-based imaging agent, the DML was labeled with the far-red dye sulfonate cyanine 5 (sCy5), site-specifically conjugated to the C-terminal cysteine of the anti-prostate stem cell antigen (PSCA) cys-diabody A2, and subsequently radiolabeled by click chemistry with 18 F-TCO. The new imaging probe was evaluated in a human PSCA-positive prostate cancer xenograft model by sequential immuno-PET and optical imaging. Uptake in target tissues was confirmed by ex vivo biodistribution. Results: We successfully synthesized a DML for conjugation of a fluorescent dye and 18 F. The anti-PSCA cys-diabody A2 was site-specifically conjugated with either DML or sCy5 and radiolabeled via click chemistry with 18 F-TCO. Immuno-PET imaging confirmed in vivo antigen-specific targeting of prostate cancer xenografts as early as 1 h after injection. Rapid renal clearance of the 50-kDa antibody fragment enables same-day imaging. Optical imaging showed antigen-specific fluorescent signal in PSCA-positive xenografts and high contrast to surrounding tissue and PSCA-negative xenografts. Conclusion: The DML enables site-specific conjugation away from the antigen-binding site of antibody fragments, with a controlled linker-to-protein ratio, and combines signaling moieties for 2 imaging systems into 1 molecule. Dual-modality imaging could provide both noninvasive whole-body imaging with organ-level biodistribution and fluorescence image-guided identification of tumor margins during surgery., (© 2019 by the Society of Nuclear Medicine and Molecular Imaging.)

Published

2019

4. Production of diverse PET probes with limited resources: 24 18 F-labeled compounds prepared with a single radiosynthesizer.

Author

Collins J, Waldmann CM, Drake C, Slavik R, Ha NS, Sergeev M, Lazari M, Shen B, Chin FT, Moore M, Sadeghi S, Phelps ME, Murphy JM, and van Dam RM

Subjects

Positron-Emission Tomography methods, Radiopharmaceuticals chemistry, Fluorine Radioisotopes chemistry, Radiochemistry methods, Radiopharmaceuticals chemical synthesis

Abstract

New radiolabeled probes for positron-emission tomography (PET) are providing an ever-increasing ability to answer diverse research and clinical questions and to facilitate the discovery, development, and clinical use of drugs in patient care. Despite the high equipment and facility costs to produce PET probes, many radiopharmacies and radiochemistry laboratories use a dedicated radiosynthesizer to produce each probe, even if the equipment is idle much of the time, to avoid the challenges of reconfiguring the system fluidics to switch from one probe to another. To meet growing demand, more cost-efficient approaches are being developed, such as radiosynthesizers based on disposable "cassettes," that do not require reconfiguration to switch among probes. However, most cassette-based systems make sacrifices in synthesis complexity or tolerated reaction conditions, and some do not support custom programming, thereby limiting their generality. In contrast, the design of the ELIXYS FLEX/CHEM cassette-based synthesizer supports higher temperatures and pressures than other systems while also facilitating flexible synthesis development. In this paper, the syntheses of 24 known PET probes are adapted to this system to explore the possibility of using a single radiosynthesizer and hot cell for production of a diverse array of compounds with wide-ranging synthesis requirements, alongside synthesis development efforts. Most probes were produced with yields and synthesis times comparable to literature reports, and because hardware modification was unnecessary, it was convenient to frequently switch among probes based on demand. Although our facility supplies probes for preclinical imaging, the same workflow would be applicable in a clinical setting., Competing Interests: Conflict of interest statement: The Regents of the University of California have licensed technology to Sofie Biosciences, Inc. that was invented by J.C., C.D., M.L., M.M., and R.M.v.D. and have taken equity in Sofie Biosciences as part of the licensing transaction. Furthermore, R.M.v.D. is a founder and consultant of Sofie Biosciences, M.E.P. is a founder and board member, and C.D. and M.M. are employees and owners., (Published under the PNAS license.)

Published

2017

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

Author

Lazari M, Lyashchenko SK, Burnazi EM, Lewis JS, van Dam RM, and Murphy JM

Subjects

Dihydrotestosterone chemistry, Dihydrotestosterone isolation & purification, Drug Design, Equipment Design, Equipment Failure Analysis, Fluorine Radioisotopes isolation & purification, Radiopharmaceuticals chemical synthesis, Radiopharmaceuticals isolation & purification, Rheology instrumentation, Specimen Handling instrumentation, Dihydrotestosterone analogs & derivatives, Fluorine Radioisotopes chemistry, Isotope Labeling instrumentation, Radionuclide Generators instrumentation, Robotics instrumentation

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 by Elsevier Ltd.)

Published

2015

6. An Organometallic Gold(III) Reagent for 18F Labeling of Unprotected Peptides and Sugars in Aqueous Media

Author

McDaniel, James W, Stauber, Julia M, Doud, Evan A, Spokoyny, Alexander M, and Murphy, Jennifer M

Subjects

Inorganic Chemistry, Chemical Sciences, Fluorine Radioisotopes, Gold, Isotope Labeling, Peptides, Radiopharmaceuticals, Sugars, Organic Chemistry, Chemical sciences

Abstract

The 18F labeling of unprotected peptides and sugars with a Au(III)-[18F]fluoroaryl complex is reported. The chemoselective method generates 18F-labeled S-aryl bioconjugates in an aqueous environment in 15 min with high radiochemical yields and displays excellent functional group tolerance. This approach utilizes an air and moisture stable, robust organometallic Au(III) complex and highlights the versatility of designer organometallic reagents as efficient agents for rapid radiolabeling.

Published

2022

7. A Dual-Modality Linker Enables Site-Specific Conjugation of Antibody Fragments for 18F-Immuno-PET and Fluorescence Imaging

Author

Zettlitz, Kirstin A, Waldmann, Christopher M, Tsai, Wen-Ting K, Tavaré, Richard, Collins, Jeffrey, Murphy, Jennifer M, and Wu, Anna M

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Bioengineering, Biomedical Imaging, Cancer, Prostate Cancer, Biotechnology, Urologic Diseases, Animals, Antibodies, Antigens, Neoplasm, Carbocyanines, Cyclooctanes, Cysteine, Fluorescence, Fluorescent Dyes, Fluorine Radioisotopes, GPI-Linked Proteins, Humans, Immunoglobulin Fragments, Male, Mice, Microscopy, Fluorescence, Neoplasm Proteins, Neoplasm Transplantation, Optical Imaging, Positron-Emission Tomography, Prostatic Neoplasms, Radiopharmaceuticals, Tissue Distribution, immuno-PET, fluorescence image, guided surgery, cys-diabody, F-18, click chemistry, 18F, fluorescence image-guided surgery, Nuclear Medicine & Medical Imaging, Clinical sciences

Abstract

Antibody-based dual-modality (PET/fluorescence) imaging enables both presurgery antigen-specific immuno-PET for noninvasive whole-body evaluation and intraoperative fluorescence for visualization of superficial tissue layers for image-guided surgery. Methods: We developed a universal dual-modality linker (DML) that facilitates site-specific conjugation to a cysteine residue-bearing antibody fragment, introduction of a commercially available fluorescent dye (via an amine-reactive prosthetic group), and rapid and efficient radiolabeling via click chemistry with 18F-labeled trans-cyclooctene (18F-TCO). To generate a dual-modality antibody fragment-based imaging agent, the DML was labeled with the far-red dye sulfonate cyanine 5 (sCy5), site-specifically conjugated to the C-terminal cysteine of the anti-prostate stem cell antigen (PSCA) cys-diabody A2, and subsequently radiolabeled by click chemistry with 18F-TCO. The new imaging probe was evaluated in a human PSCA-positive prostate cancer xenograft model by sequential immuno-PET and optical imaging. Uptake in target tissues was confirmed by ex vivo biodistribution. Results: We successfully synthesized a DML for conjugation of a fluorescent dye and 18F. The anti-PSCA cys-diabody A2 was site-specifically conjugated with either DML or sCy5 and radiolabeled via click chemistry with 18F-TCO. Immuno-PET imaging confirmed in vivo antigen-specific targeting of prostate cancer xenografts as early as 1 h after injection. Rapid renal clearance of the 50-kDa antibody fragment enables same-day imaging. Optical imaging showed antigen-specific fluorescent signal in PSCA-positive xenografts and high contrast to surrounding tissue and PSCA-negative xenografts. Conclusion: The DML enables site-specific conjugation away from the antigen-binding site of antibody fragments, with a controlled linker-to-protein ratio, and combines signaling moieties for 2 imaging systems into 1 molecule. Dual-modality imaging could provide both noninvasive whole-body imaging with organ-level biodistribution and fluorescence image-guided identification of tumor margins during surgery.

Published

2019

8. Production of diverse PET probes with limited resources: 24 18F-labeled compounds prepared with a single radiosynthesizer

Author

Collins, Jeffrey, Waldmann, Christopher M, Drake, Christopher, Slavik, Roger, Ha, Noel S, Sergeev, Maxim, Lazari, Mark, Shen, Bin, Chin, Frederick T, Moore, Melissa, Sadeghi, Saman, Phelps, Michael E, Murphy, Jennifer M, and van Dam, R Michael

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Chemical Sciences, Biomedical Imaging, Generic health relevance, Fluorine Radioisotopes, Positron-Emission Tomography, Radiochemistry, Radiopharmaceuticals, PET tracer, positron-emission tomography, radiochemistry, radiosynthesis module, resource efficiency

Abstract

New radiolabeled probes for positron-emission tomography (PET) are providing an ever-increasing ability to answer diverse research and clinical questions and to facilitate the discovery, development, and clinical use of drugs in patient care. Despite the high equipment and facility costs to produce PET probes, many radiopharmacies and radiochemistry laboratories use a dedicated radiosynthesizer to produce each probe, even if the equipment is idle much of the time, to avoid the challenges of reconfiguring the system fluidics to switch from one probe to another. To meet growing demand, more cost-efficient approaches are being developed, such as radiosynthesizers based on disposable "cassettes," that do not require reconfiguration to switch among probes. However, most cassette-based systems make sacrifices in synthesis complexity or tolerated reaction conditions, and some do not support custom programming, thereby limiting their generality. In contrast, the design of the ELIXYS FLEX/CHEM cassette-based synthesizer supports higher temperatures and pressures than other systems while also facilitating flexible synthesis development. In this paper, the syntheses of 24 known PET probes are adapted to this system to explore the possibility of using a single radiosynthesizer and hot cell for production of a diverse array of compounds with wide-ranging synthesis requirements, alongside synthesis development efforts. Most probes were produced with yields and synthesis times comparable to literature reports, and because hardware modification was unnecessary, it was convenient to frequently switch among probes based on demand. Although our facility supplies probes for preclinical imaging, the same workflow would be applicable in a clinical setting.

Published

2017

9. Synthesis of [18 F]Fluoroarenes by Nucleophilic Radiofluorination of N-Arylsydnones.

Author

Narayanam, Maruthi Kumar, Ma, Gaoyuan, Champagne, Pier Alexandre, Houk, Kendall N, and Murphy, Jennifer M

Subjects

Fluorine Radioisotopes, Sydnones, Neuropeptides, Radiopharmaceuticals, Positron-Emission Tomography, Isotope Labeling, Fluoridation, Molecular Conformation, Thermodynamics, click chemistry, fluorine-18, fluoroarene, peptide radiolabeling, sydnone, Chemical Sciences, Organic Chemistry

Abstract

A practical method for radiofluorination of anilines with [18 F]fluoride via N-arylsydnone intermediates is described. These precursors are stable, easy to handle and facilitate direct and regioselective 18 F-labeling to prepare [18 F]fluoroarenes. The value of this methodology is further highlighted by successful application to prepare an 18 F-labeled neuropeptide.

Published

2017

10. 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

Fluorine Radioisotopes, Dihydrotestosterone, Radiopharmaceuticals, Specimen Handling, Equipment Design, Equipment Failure Analysis, Isotope Labeling, Rheology, Drug Design, Robotics, Radionuclide Generators, FDHT, Fluorine-18, Fully-automated, LiAlH(4) reduction, PET, Prostate cancer, LiAlH4 reduction, Nuclear Medicine & Medical Imaging, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Other Physical Sciences, Clinical Sciences

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

11. Production of diverse PET probes with limited resources: 24 F-18-labeled compounds prepared with a single radiosynthesizer

Author

Collins, Jeffrey, Waldmann, Christopher M, Drake, Christopher, Slavik, Roger, Ha, Noel S, Sergeev, Maxim, Lazari, Mark, Shen, Bin, Chin, Frederick T, Moore, Melissa, Sadeghi, Saman, Phelps, Michael E, Murphy, Jennifer M, and van Dam, R Michael

Subjects

Fluorine Radioisotopes, Radiochemistry, Positron-Emission Tomography, PET tracer, MD Multidisciplinary, resource efficiency, Radiopharmaceuticals, radiosynthesis module

Abstract

New radiolabeled probes for positron-emission tomography (PET) are providing an ever-increasing ability to answer diverse research and clinical questions and to facilitate the discovery, development, and clinical use of drugs in patient care. Despite the high equipment and facility costs to produce PET probes, many radiopharmacies and radiochemistry laboratories use a dedicated radiosynthesizer to produce each probe, even if the equipment is idle much of the time, to avoid the challenges of reconfiguring the system fluidics to switch from one probe to another. To meet growing demand, more cost-efficient approaches are being developed, such as radiosynthesizers based on disposable "cassettes," that do not require reconfiguration to switch among probes. However, most cassette-based systems make sacrifices in synthesis complexity or tolerated reaction conditions, and some do not support custom programming, thereby limiting their generality. In contrast, the design of the ELIXYS FLEX/CHEM cassette-based synthesizer supports higher temperatures and pressures than other systems while also facilitating flexible synthesis development. In this paper, the syntheses of 24 known PET probes are adapted to this system to explore the possibility of using a single radiosynthesizer and hot cell for production of a diverse array of compounds with wide-ranging synthesis requirements, alongside synthesis development efforts. Most probes were produced with yields and synthesis times comparable to literature reports, and because hardware modification was unnecessary, it was convenient to frequently switch among probes based on demand. Although our facility supplies probes for preclinical imaging, the same workflow would be applicable in a clinical setting.

Published

2017