Your search keyword '"Meyer, Catherine A. L."' showing total 5 results

1. Mechanisms of Resistance to Prostate-Specific Membrane Antigen-Targeted Radioligand Therapy in a Mouse Model of Prostate Cancer.

Author

Stuparu, Andreea D., Capri, Joseph R., Meyer, Catherine A. L., Le, Thuc M., Evans-Axelsson, Susan L., Current, Kyle, Lennox, Mark, Mona, Christine E., Fendler, Wolfgang P., Calais, Jeremie, Eiber, Matthias, Dahlbom, Magnus, Czernin, Johannes, Radu, Caius G., Lückerath, Katharina, and Slavik, Roger

Published

2020

2. Mechanisms of Resistance to Prostate-Specific Membrane Antigen-Targeted Radioligand Therapy in a Mouse Model of Prostate Cancer.

Author

Stuparu AD, Capri JR, Meyer CAL, Le TM, Evans-Axelsson SL, Current K, Lennox M, Mona CE, Fendler WP, Calais J, Eiber M, Dahlbom M, Czernin J, Radu CG, Lückerath K, and Slavik R

Subjects

Animals, Male, Mice, Cell Line, Tumor, Glutamate Carboxypeptidase II metabolism, Ligands, Humans, Antigens, Surface metabolism, Phosphoproteins metabolism, Proteome metabolism, Prostatic Neoplasms radiotherapy, Prostatic Neoplasms metabolism, Prostatic Neoplasms pathology, Disease Models, Animal

Abstract

Prostate-specific membrane antigen (PSMA)-targeted radioligand therapy (RLT) is effective against prostate cancer (PCa), but all patients relapse eventually. Poor understanding of the underlying resistance mechanisms represents a key barrier to development of more effective RLT. We investigate the proteome and phosphoproteome in a mouse model of PCa to identify signaling adaptations triggered by PSMA RLT. Methods: Therapeutic efficacy of PSMA RLT was assessed by tumor volume measurements, time to progression, and survival in C4-2 or C4-2 TP53 -/- tumor-bearing nonobese diabetic scid PSMA RLT significantly improved disease control in a dose-dependent manner. Proteome and phosphoproteome datasets revealed activation of genotoxic stress response pathways, including deregulation of DNA damage/replication stress response, TP53, androgen receptor, phosphatidylinositol-3-kinase/AKT, and MYC signaling. C4-2 Results: tumors were less sensitive to PSMA RLT than were parental counterparts, supporting a role for TP53 in mediating RLT responsiveness. TP53 We identified signaling alterations that may mediate resistance to PSMA RLT in a PCa mouse model. Our data enable the development of rational synergistic RLT-combination therapies to improve outcomes for PCa patients. -/- tumors were less sensitive to PSMA RLT than were parental counterparts, supporting a role for TP53 in mediating RLT responsiveness. Conclusion: We identified signaling alterations that may mediate resistance to PSMA RLT in a PCa mouse model. Our data enable the development of rational synergistic RLT-combination therapies to improve outcomes for PCa patients., (© 2021 by the Society of Nuclear Medicine and Molecular Imaging.)

Published

2021

3. Targeted alpha therapy in a systemic mouse model of prostate cancer - a feasibility study.

Author

Stuparu AD, Meyer CAL, Evans-Axelsson SL, Lückerath K, Wei LH, Kim W, Poddar S, Mona CE, Dahlbom M, Girgis MD, Radu CG, Czernin J, and Slavik R

Subjects

Alpha Particles therapeutic use, Animals, Cell Line, Tumor, Disease Models, Animal, Feasibility Studies, Humans, Male, Mice, Prostate-Specific Antigen, Actinium therapeutic use, Dipeptides therapeutic use, Heterocyclic Compounds, 1-Ring therapeutic use, Prostatic Neoplasms, Castration-Resistant drug therapy, Radiopharmaceuticals therapeutic use

Abstract

225 Ac-PSMA-617 targeted-therapy has demonstrated efficacy in 75-85% of patients; however, responses are not durable. We aimed to establish translatable mouse models of disseminated prostate cancer (PCa) to evaluate effectiveness of 225 Ac-PSMA-617 at various disease stages. Methods : C4-2, C4-2B, or 22Rv1 cells were injected into the left ventricle of male NSG mice. Disease progression was monitored using bioluminescence imaging (BLI). For treatment, mice were injected with 40 kBq 225 Ac-PSMA-617 at one (early treatment cohort) or three weeks (late treatment cohort) post-inoculation. Treatment efficacy was monitored by BLI of whole-body tumor burden. Mice were sacrificed based on body conditioning score. Results : C4-2 cells yielded metastases in liver, lungs, spleen, stomach, bones, and brain - achieving a clinically relevant model of widespread metastatic disease. The disease burden in the early treatment cohort was stable over 27 weeks in 5/9 mice and progressive in 4/9 mice. These mice were sacrificed due to brain metastases. Median survival of the late treatment cohort was superior to controls (13 vs. 7 weeks; p<0.0001) but inferior to that in the early treatment cohort (13 vs. 27 weeks; p<0.001). Late cohort mice succumbed to extensive liver involvement. The 22Rv1 and C4-2B systemic models were not used for treatment due to high kidney metastatic burden or low take rate, respectively. Conclusion : C4-2 cells reproduced metastatic cancer spread most relevantly. Early treatment with 225 Ac-PSMA-617 prevented liver metastases and led to significant survival benefit. Late treatment improved survival without reducing tumor burden in the liver, the main site of metastasis. The current findings suggest that early 225 Ac-PSMA-617 intervention is more efficacious in the setting of widespread metastatic PCa., Competing Interests: Competing Interests: JC and CR are co-founders and hold equity in Sofie Biosciences and Trethera Therapeutics. Intellectual property has been patented by the University of California and has been licensed to Sofie Biosciences and Trethera Therapeutics. This intellectual property was not used in the current study. No other potential conflict of interest relevant to this article was reported., (© The author(s).)

Published

2020

4. Radiometric evaluation of diglycolamide resins for the chromatographic separation of actinium from fission product lanthanides.

Author

Radchenko V, Mastren T, Meyer CAL, Ivanov AS, Bryantsev VS, Copping R, Denton D, Engle JW, Griswold JR, Murphy K, Wilson JJ, Owens A, Wyant L, Birnbaum ER, Fitzsimmons J, Medvedev D, Cutler CS, Mausner LF, Nortier MF, John KD, Mirzadeh S, and Fassbender ME

Abstract

Actinium-225 is a potential Targeted Alpha Therapy (TAT) isotope. It can be generated with high energy (≥ 100MeV) proton irradiation of thorium targets. The main challenge in the chemical recovery of 225 Ac lies in the separation from thorium and many fission by-products most importantly radiolanthanides. We recently developed a separation strategy based on a combination of cation exchange and extraction chromatography to isolate and purify 225 Ac. In this study, actinium and lanthanide equilibrium distribution coefficients and column elution behavior for both TODGA (N,N,N',N'-tetra-n-octyldiglycolamide) and TEHDGA (N,N,N',N'-tetrakis-2-ethylhexyldiglycolamide) were determined. Density functional theory (DFT) calculations were performed and were in agreement with experimental observations providing the foundation for understanding of the selectivity for Ac and lanthanides on different DGA (diglycolamide) based resins. The results of Gibbs energy (ΔG aq ) calculations confirm significantly higher selectivity of DGA based resins for Ln III over Ac III in the presence of nitrate. DFT calculations and experimental results reveal that Ac chemistry cannot be predicted from lanthanide behavior under comparable circumstances., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

5. Proton-induced production and radiochemical isolation of 44 Ti from scandium metal targets for 44 Ti/ 44 Sc generator development.

Author

Radchenko V, Engle JW, Medvedev DG, Maassen JM, Naranjo CM, Unc GA, Meyer CAL, Mastren T, Brugh M, Mausner L, Cutler CS, Birnbaum ER, John KD, Nortier FM, and Fassbender ME

Subjects

Gamma Rays, Radiochemistry instrumentation, Protons, Radiochemistry methods, Radioisotopes chemistry, Radioisotopes isolation & purification, Scandium chemistry, Titanium chemistry, Titanium isolation & purification

Abstract

Scandium-44g (half-life 3.97h) shows promise for application in positron emission tomography (PET), due to favorable decay parameters. One of the sources of 44g Sc is the 44 Ti/ 44g Sc generator, which can conveniently provide this radioisotope on a daily basis at a diagnostic facility. Titanium-44 (half-life 60.0 a), in turn, can be obtained via proton irradiation of scandium metal targets. A substantial 44 Ti product batch, however, requires high beam currents, long irradiation times and an elaborate chemical procedure for 44 Ti isolation and purification. This study describes the production of a combined 175MBq (4.7mCi) batch yield of 44 Ti in week long proton irradiations at the Los Alamos Isotope Production Facility (LANL-IPF) and the Brookhaven Linac Isotope Producer (BNL-BLIP). A two-step ion exchange chromatography based chemical separation method is introduced: first, a coarse separation of 44 Ti via anion exchange sorption in concentrated HCl results in a 44 Tc/Sc separation factor of 10 2 -10 3 . A second, cation exchange based step in HCl media is then applied for 44 Ti fine purification from residual Sc mass. In summary, this method yields a 90-97% 44 Ti recovery with an overall Ti/Sc separation factor of ≥10 6 ., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017