Tara Mastren scite author profile

This work describes the production of high-specific activity 55Co and the evaluation of the stability of 55Co-metal-chelate-peptide complexes in vivo. 55Co was produced via the 58Ni(p,α)55Co reaction and purified using anion exchange chromatography with an average recovery of 92% and an average specific activity of 1.96GBq/µmol. 55Co-DO3A and 55Co-NO2A peptide complexes were radiolabelled at 3.7MBq/µg and injected into HCT-116 tumor xenografted mice. PET imaging and biodistribution studies were performed at 24 and 48 hours post injection and compared with that of 55CoCl2. Both 55Co-metal-chelate complexes demonstrated good in vivo stability by reducing the radiotracers’ uptake in the liver by 6-fold at 24 with ~1% ID/g and at 48 hours with ~0.5% ID/g, and reducing uptake in the heart by 4-fold at 24 hours with ~0.7% ID/g and 7-fold at 48 hours with ~0.35% ID/g. These results support the use of 55Co as a promising new radiotracer for Positron Emission Tomography (PET) imaging of cancer and other diseases.

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Design of a Small-Molecule Drug Conjugate for Prostate Cancer Targeted Theranostics

Kumar¹,

Mastren²,

Wang

et al. 2016

Bioconjugate Chem.

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Targeted therapy has become an effective strategy of precision medicine for cancer treatment. Based on the success of antibody-drug conjugates (ADCs), here we report a theranostic design of small-molecule drug conjugates (T-SMDCs) for targeted imaging and chemotherapy of prostate cancer. The structure of T-SMDCs built upon a polyethylene glycol (PEG) scaffold consists of (i) a chelating moiety for positron emission tomography (PET) imaging when labeled with (68)Ga, a positron-emitting radioisotope; (ii) a prostate specific membrane antigen (PSMA) specific ligand for prostate cancer targeting; and (iii) a cytotoxic drug (DM1) for chemotherapy. For proof-of-concept, such a T-SMDC, NO3A-DM1-Lys-Urea-Glu, was synthesized and evaluated. The chemical modification of Lys-Urea-Glu for the construction of the conjugate did not compromise its specific binding affinity to PSMA. The PSMA-mediated internalization of (68)Ga-labeled NO3A-DM1-Lys-Urea-Glu displayed a time-dependent manner, allowing the desired drug delivery and release within tumor cells. The antiproliferative activity of the T-SMDC showed a positive correlation with the PSMA expression level. Small animal PET imaging with (68)Ga-labeled NO3A-DM1-Lys-Urea-Glu exhibited significantly higher uptake (p < 0.01) in the PSMA positive PC3-PIP tumors (4.30 ± 0.20%ID/g) at 1 h postinjection than in the PSMA negative PC3-Flu tumors (1.12 ± 0.42%ID/g). Taken together, we have successfully designed and synthesized a T-SMDC system for prostate cancer targeted imaging and therapy.

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Copper-67 radioimmunotheranostics for simultaneous immunotherapy and immuno-SPECT

Hao

Mastren

Silvers

et al. 2021

Sci Rep

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Copper-67 (t1/2 = 2.58 days) decays by β− ($$\text{E}_{{\upbeta^{-}\text{max}}}$$ E β - max : 562 keV) and γ-rays (93 keV and 185 keV) rendering it with potential for both radionuclide therapy and single-photon emission computed tomography (SPECT) imaging. Prompted by the recent breakthrough of 67Cu production with high specific activity, high radionuclidic purity, and sufficient quantities, the interest in the theranostic potential of 67Cu has been rekindled. This work addresses the practicability of developing 67Cu-labeled antibodies with substantially improved quality for cancer radioimmunotheranostics. Proof of concept is demonstrated with pertuzumab, a US-FDA-approved monoclonal antibody for combination therapies of HER2-positive breast cancer. With an average number of 1.9 chelators coupled to each antibody, we achieved a two-order of magnitude increase in radiolabeling efficiency compared to literature reports. In a preclinical therapeutic study, mice (n = 4–7/group) bearing HER2+ xenografts exhibited a 67Cu-dose dependent tumor-growth inhibition from 67Cu-labeled-Pertuzumab co-administered with trastuzumab. Furthermore, greater tumor size reduction was observed with 67Cu-labeled-pertuzumab formulations of higher specific activity. The potential of SPECT imaging with 67Cu radiopharmaceuticals was tested after 67Cu-labeled-Pertuzumab administration. Impressively, all tumors were clearly visualized by SPECT imaging with 67Cu-labeled-Pertuzumab even at day 5 post injection. This work demonstrates it is practical to use 67Cu radioimmunoconjugates for cancer radioimmunotheranostics.

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Separation of 44Ti from proton irradiated scandium by using solid-phase extraction chromatography and design of 44Ti/44Sc generator system

Radchenko

Meyer

Engle

et al. 2016

Journal of Chromatography A

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Scandium-44g (half-life 3.97h [1]) shows promise for positron emission tomography (PET) imaging of longer biological processes than that of the current gold standard, F, due to its favorable decay parameters. One source ofSc is the long-lived parent nuclide Ti (half-life 60.0 a). ATi/Sc generator would have the ability to provide radionuclidically pure Sc on a daily basis. The production ofTi via the Sc(p,2n) reaction requires high proton beam currents and long irradiation times. Recovery and purification of no-carrier added (nca)Ti from scandium metal targets involves complex separation chemistry. In this study, separation systems based on solid phase extraction chromatography were investigated, including branched diglycolamide (BDGA) resin and hydroxamate based ZR resin. Results indicate that ZR resin in HCl media represents an effective Ti/Sc separation system.

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The use of 111Ag as a tool for studying biological distribution of silver-based antimicrobials

et al. 2013

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Tara Mastren

Cyclotron Production of High–Specific Activity ⁵⁵Co and In Vivo Evaluation of the Stability of ⁵⁵Co Metal-Chelate-Peptide Complexes

Design of a Small-Molecule Drug Conjugate for Prostate Cancer Targeted Theranostics

Copper-67 radioimmunotheranostics for simultaneous immunotherapy and immuno-SPECT

Separation of 44Ti from proton irradiated scandium by using solid-phase extraction chromatography and design of 44Ti/44Sc generator system

The use of 111Ag as a tool for studying biological distribution of silver-based antimicrobials

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Tara Mastren

Cyclotron Production of High–Specific Activity 55Co and In Vivo Evaluation of the Stability of 55Co Metal-Chelate-Peptide Complexes

Design of a Small-Molecule Drug Conjugate for Prostate Cancer Targeted Theranostics

Copper-67 radioimmunotheranostics for simultaneous immunotherapy and immuno-SPECT

Separation of 44Ti from proton irradiated scandium by using solid-phase extraction chromatography and design of 44Ti/44Sc generator system

The use of 111Ag as a tool for studying biological distribution of silver-based antimicrobials

Contact Info

Product

Resources

About

Cyclotron Production of High–Specific Activity ⁵⁵Co and In Vivo Evaluation of the Stability of ⁵⁵Co Metal-Chelate-Peptide Complexes