Literature DB >> 25972517

A Systematic Comparison of 18F-C-SNAT to Established Radiotracer Imaging Agents for the Detection of Tumor Response to Treatment.

Timothy H Witney1, Aileen Hoehne2, Robert E Reeves2, Ohad Ilovich2, Mohammad Namavari2, Bin Shen2, Frederick T Chin2, Jianghong Rao2, Sanjiv S Gambhir2.   

Abstract

PURPOSE: An early readout of tumor response to therapy through measurement of drug or radiation-induced cell death may provide important prognostic indications and improved patient management. It has been shown that the uptake of (18)F-C-SNAT can be used to detect early response to therapy in tumors by positron emission tomography (PET) via a mechanism of caspase-3-triggered nanoaggregation. EXPERIMENTAL
DESIGN: Here, we compared the preclinical utility of (18)F-C-SNAT for the detection of drug-induced cell death to clinically evaluated radiotracers, (18)F-FDG, (99m)Tc-Annexin V, and (18)F-ML-10 in tumor cells in culture, and in tumor-bearing mice in vivo.
RESULTS: In drug-treated lymphoma cells, (18)F-FDG, (99m)Tc-Annexin V, and (18)F-C-SNAT cell-associated radioactivity correlated well to levels of cell death (R(2) > 0.8; P < 0.001), with no correlation measured for (18)F-ML-10 (R(2) = 0.05; P > 0.05). A similar pattern of response was observed in two human NSCLC cell lines following carboplatin treatment. EL-4 tumor uptake of (99m)Tc-Annexin V and (18)F-C-SNAT were increased 1.4- and 2.1-fold, respectively, in drug-treated versus naïve control animals (P < 0.05), although (99m)Tc-Annexin V binding did not correlate to ex vivo TUNEL staining of tissue sections. A differential response was not observed with either (18)F-FDG or (18)F-ML-10.
CONCLUSIONS: We have demonstrated here that (18)F-C-SNAT can sensitively detect drug-induced cell death in murine lymphoma and human NSCLC. Despite favorable image contrast obtained with (18)F-C-SNAT, the development of next-generation derivatives, using the same novel and promising uptake mechanism, but displaying improved biodistribution profiles, are warranted for maximum clinical utility. ©2015 American Association for Cancer Research.

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Year:  2015        PMID: 25972517      PMCID: PMC4558304          DOI: 10.1158/1078-0432.CCR-14-3176

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   12.531


  44 in total

1.  Imaging cell death.

Authors:  André A Neves; Kevin M Brindle
Journal:  J Nucl Med       Date:  2014-01       Impact factor: 10.057

2.  Imaging of apoptosis (programmed cell death) with 99mTc annexin V.

Authors:  F G Blankenberg; P D Katsikis; J F Tait; R E Davis; L Naumovski; K Ohtsuki; S Kopiwoda; M J Abrams; H W Strauss
Journal:  J Nucl Med       Date:  1999-01       Impact factor: 10.057

Review 3.  Fluorine-18 deoxyglucose and false-positive results: a major problem in the diagnostics of oncological patients.

Authors:  L G Strauss
Journal:  Eur J Nucl Med       Date:  1996-10

4.  Positron emission tomography imaging of drug-induced tumor apoptosis with a caspase-triggered nanoaggregation probe.

Authors:  Bin Shen; Jongho Jeon; Mikael Palner; Deju Ye; Adam Shuhendler; Frederick T Chin; Jianghong Rao
Journal:  Angew Chem Int Ed Engl       Date:  2013-07-23       Impact factor: 15.336

5.  Caspase-mediated cleavage of phospholipid flippase for apoptotic phosphatidylserine exposure.

Authors:  Katsumori Segawa; Sachiko Kurata; Yuichi Yanagihashi; Thijn R Brummelkamp; Fumihiko Matsuda; Shigekazu Nagata
Journal:  Science       Date:  2014-06-06       Impact factor: 47.728

6.  Analysis of image heterogeneity using 2D Minkowski functionals detects tumor responses to treatment.

Authors:  Timothy J Larkin; Holly C Canuto; Mikko I Kettunen; Thomas C Booth; De-En Hu; Anant S Krishnan; Sarah E Bohndiek; André A Neves; Charles McLachlan; Michael P Hobson; Kevin M Brindle
Journal:  Magn Reson Med       Date:  2013-02-25       Impact factor: 4.668

7.  Preclinical assessment of carboplatin treatment efficacy in lung cancer by 18F-ICMT-11-positron emission tomography.

Authors:  Timothy H Witney; R Fortt; Robin R Fortt; Eric O Aboagye
Journal:  PLoS One       Date:  2014-03-11       Impact factor: 3.240

8.  Bioorthogonal cyclization-mediated in situ self-assembly of small-molecule probes for imaging caspase activity in vivo.

Authors:  Deju Ye; Adam J Shuhendler; Lina Cui; Ling Tong; Sui Seng Tee; Grigory Tikhomirov; Dean W Felsher; Jianghong Rao
Journal:  Nat Chem       Date:  2014-04-28       Impact factor: 24.427

9.  18F-ICMT-11, a caspase-3-specific PET tracer for apoptosis: biodistribution and radiation dosimetry.

Authors:  Amarnath Challapalli; Laura M Kenny; William A Hallett; Kasia Kozlowski; Giampaolo Tomasi; Mihir Gudi; Adil Al-Nahhas; R Charles Coombes; Eric O Aboagye
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10.  Temporal and spatial evolution of therapy-induced tumor apoptosis detected by caspase-3-selective molecular imaging.

Authors:  Quang-Dé Nguyen; Ioannis Lavdas; James Gubbins; Graham Smith; Robin Fortt; Laurence S Carroll; Martin A Graham; Eric O Aboagye
Journal:  Clin Cancer Res       Date:  2013-05-31       Impact factor: 12.531
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  23 in total

Review 1.  Applying nanomedicine in maladaptive inflammation and angiogenesis.

Authors:  Amr Alaarg; Carlos Pérez-Medina; Josbert M Metselaar; Matthias Nahrendorf; Zahi A Fayad; Gert Storm; Willem J M Mulder
Journal:  Adv Drug Deliv Rev       Date:  2017-05-12       Impact factor: 15.470

2.  [18F]-C-SNAT4: an improved caspase-3-sensitive nanoaggregation PET tracer for imaging of tumor responses to chemo- and immunotherapies.

Authors:  Min Chen; Zixin Chen; Jessa B Castillo; Liyang Cui; Kaixiang Zhou; Bin Shen; Jinghang Xie; Frederick T Chin; Jianghong Rao
Journal:  Eur J Nucl Med Mol Imaging       Date:  2021-03-13       Impact factor: 9.236

Review 3.  Nanotechnology Strategies To Advance Outcomes in Clinical Cancer Care.

Authors:  Christopher M Hartshorn; Michelle S Bradbury; Gregory M Lanza; Andre E Nel; Jianghong Rao; Andrew Z Wang; Ulrich B Wiesner; Lily Yang; Piotr Grodzinski
Journal:  ACS Nano       Date:  2017-12-22       Impact factor: 15.881

Review 4.  National Cancer Institute Alliance for nanotechnology in cancer-Catalyzing research and translation toward novel cancer diagnostics and therapeutics.

Authors:  Christopher M Hartshorn; Luisa M Russell; Piotr Grodzinski
Journal:  Wiley Interdiscip Rev Nanomed Nanobiotechnol       Date:  2019-07-01

5.  SPECT Imaging of Treatment-Related Tumor Necrosis Using Technetium-99m-Labeled Rhein.

Authors:  Jiajia Liang; Qi Luo; Dongjian Zhang; Qiaomei Jin; Lichao Liu; Wei Liu; Meng Gao; Jian Zhang; Zhiqi Yin
Journal:  Mol Imaging Biol       Date:  2019-08       Impact factor: 3.488

6.  Exploring the Condensation Reaction between Aromatic Nitriles and Amino Thiols To Optimize In Situ Nanoparticle Formation for the Imaging of Proteases and Glycosidases in Cells.

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7.  Measurement of Tumor Antioxidant Capacity and Prediction of Chemotherapy Resistance in Preclinical Models of Ovarian Cancer by Positron Emission Tomography.

Authors:  Hannah E Greenwood; Patrick N McCormick; Thibault Gendron; Matthias Glaser; Raul Pereira; Oliver D K Maddocks; Kerstin Sander; Tong Zhang; Norman Koglin; Mark F Lythgoe; Erik Årstad; Daniel Hochhauser; Timothy H Witney
Journal:  Clin Cancer Res       Date:  2019-01-16       Impact factor: 12.531

8.  Reduction Triggered In Situ Polymerization in Living Mice.

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Journal:  J Am Chem Soc       Date:  2020-08-31       Impact factor: 15.419

9.  Evaluation of a procaspase-3 activator with hydroxyurea or temozolomide against high-grade meningioma in cell culture and canine cancer patients.

Authors:  Emily J Tonogai; Shan Huang; Rachel C Botham; Matthew R Berry; Stephen K Joslyn; Gregory B Daniel; Zixin Chen; Jianghong Rao; Xiang Zhang; Falguni Basuli; John H Rossmeisl; Gregory J Riggins; Amy K LeBlanc; Timothy M Fan; Paul J Hergenrother
Journal:  Neuro Oncol       Date:  2021-10-01       Impact factor: 13.029

Review 10.  Bioengineering tools for probing intracellular events in T lymphocytes.

Authors:  Xinyuan Zhang; Chelsea F Mariano; Yuta Ando; Keyue Shen
Journal:  WIREs Mech Dis       Date:  2020-10-19
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