Effective therapy with Bismuth-212 labeled macroaggregated albumin in orthotopic mouse breast tumor models

Kauffman, Nathan; Singh, Satyendra Kumar; Morrison, James; Zinn, Kurt R.

doi:10.3389/fchem.2023.1204872

Cited by 2 publications

(1 citation statement)

References 37 publications

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“…A TAT-based radiopharmaceutical drug has two parts: 1) a cancer targeting component such as a small molecule, peptide, or monoclonal antibody with high affinity for receptors expressed specifically on cancer cells, and 2) an α-emitting radioisotope bound to the targeting component with a chelator molecule ( Kauffman et al, 2023a ). The α-emitting radioisotopes with potential thus far include Ac-225 ( Kratochwil et al, 2016 ), At-211 ( Orozco et al, 2013 ; Green et al, 2015 ), Bi-212 ( Kauffman et al, 2023b ), Bi-213 ( Autenrieth et al, 2018 ), Pb-212 ( Meredith et al, 2014 ; Meredith et al, 2018 ), Ra-223 ( Parker et al, 2018 ), and Th-227 ( Poty et al, 2018b ; a ). The α-particles are 2+ charged helium nuclei with high kinetic energies (5–9 MeV) and short penetrating ranges in tissue (50–100 μm), resulting in high linear energy transfer (LET) in vivo .…”

Section: Introductionmentioning

confidence: 99%

Pb-214/Bi-214-TCMC-Trastuzumab inhibited growth of ovarian cancer in preclinical mouse models

Metebi,

Kauffman,

et al. 2024

Front. Chem.

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Introduction: Better treatments for ovarian cancer are needed to eliminate residual peritoneal disease after initial debulking surgery. The present study evaluated Trastuzumab to deliver Pb-214/Bi-214 for targeted alpha therapy (TAT) for HER2-positive ovarian cancer in mouse models of residual disease. This study is the first report of TAT using a novel Radon-222 generator to produce short-lived Lead-214 (Pb-214, t1/2 = 26.8 min) in equilibrium with its daughter Bismuth-214 (Bi-214, t1/2 = 19.7 min); referred to as Pb-214/Bi-214. In this study, Pb-214/Bi-214-TCMC-Trastuzumab was tested.Methods: Trastuzumab and control IgG antibody were conjugated with TCMC chelator and radiolabeled with Pb-214/Bi-214 to yield Pb-214/Bi-214-TCMC-Trastuzumab and Pb-214/Bi-214-TCMC-IgG1. The decay of Pb-214/Bi-214 yielded α-particles for TAT. SKOV3 and OVAR3 human ovarian cancer cell lines were tested for HER2 levels. The effects of Pb-214/Bi-214-TCMC-Trastuzumab and appropriate controls were compared using clonogenic assays and in mice bearing peritoneal SKOV3 or OVCAR3 tumors. Mice control groups included untreated, Pb-214/Bi-214-TCMC-IgG1, and Trastuzumab only.Results and discussion: SKOV3 cells had 590,000 ± 5,500 HER2 receptors/cell compared with OVCAR3 cells at 7,900 ± 770. In vitro clonogenic assays with SKOV3 cells showed significantly reduced colony formation after Pb-214/Bi-214-TCMC-Trastuzumab treatment compared with controls. Nude mice bearing luciferase-positive SKOV3 or OVCAR3 tumors were treated with Pb-214/Bi-214-TCMC-Trastuzumab or appropriate controls. Two 0.74 MBq doses of Pb-214/Bi-214-TCMC-Trastuzumab significantly suppressed the growth of SKOV3 tumors for 60 days, without toxicity, compared with three control groups (untreated, Pb-214/Bi-214-TCMC-IgG1, or Trastuzumab only). Mice-bearing OVCAR3 tumors had effective therapy without toxicity with two 0.74 MBq doses of Pb-214/Bi-214-TCMC-trastuzumab or Pb-214/Bi-214-TCMC-IgG1. Together, these data indicated that Pb-214/Bi-214 from a Rn-222 generator system was successfully applied for TAT. Pb-214/Bi-214-TCMC-Trastuzumab was effective to treat mouse xenograft models. Advantages of Pb-214/Bi-214 from the novel generator systems include high purity, short half-life for fractioned therapy, and hourly availability from the Rn-222 generator system. This platform technology can be applied for a variety of cancer treatment strategies.

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Section: Introductionmentioning

confidence: 99%

Pb-214/Bi-214-TCMC-Trastuzumab inhibited growth of ovarian cancer in preclinical mouse models

Metebi,

Kauffman,

et al. 2024

Front. Chem.

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The application of radionuclide therapy for breast cancer

Musket,

Davern,

Elam

et al. 2024

Front. Nucl. Med.

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Radionuclide-mediated diagnosis and therapy have emerged as effective and low-risk approaches to treating breast cancer. Compared to traditional anatomic imaging techniques, diagnostic radionuclide-based molecular imaging systems exhibit much greater sensitivity and ability to precisely illustrate the biodistribution and metabolic processes from a functional perspective in breast cancer; this transitions diagnosis from an invasive visualization to a noninvasive visualization, potentially ensuring earlier diagnosis and on-time treatment. Radionuclide therapy is a newly developed modality for the treatment of breast cancer in which radionuclides are delivered to tumors and/or tumor-associated targets either directly or using delivery vehicles. Radionuclide therapy has been proven to be eminently effective and to exhibit low toxicity in eliminating both primary tumors and metastases, and even undetected tumors. In addition, the specific interaction between the surface modules of the delivery vehicles and the targets on the surface of tumor cells enables radionuclide targeting therapy, and this represents an exceptional potential for this treatment in breast cancer. This article reviews the development of radionuclide molecular imaging techniques that are currently employed for early breast cancer diagnosis and both the progress and challenges of radionuclide therapy employed in breast cancer treatment.

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Effective therapy with Bismuth-212 labeled macroaggregated albumin in orthotopic mouse breast tumor models

Cited by 2 publications

References 37 publications

Pb-214/Bi-214-TCMC-Trastuzumab inhibited growth of ovarian cancer in preclinical mouse models

Pb-214/Bi-214-TCMC-Trastuzumab inhibited growth of ovarian cancer in preclinical mouse models

The application of radionuclide therapy for breast cancer

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