Ylva Almqvist scite author profile

Ylva Almqvist

5Publications

72Citation Statements Received

25Citation Statements Given

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Affiliations

Uppsala University, Rigshospitalet

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Biodistribution of 211At labeled HER-2 binding affibody molecules in mice

et al. 2007

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Abstract. The size of affibody molecules makes them suitable as targeting agents for targeted radiotherapy with the ·-emitter 211 At, since their biokinetic properties match the short physical half-live of 211 At. In this study, the potential for this approach was investigated in vivo. Two different HER-2 binding affibody molecules were radiolabeled with 211 At using both the linker PAB (N-succinimidyl-para-astatobenzoate) and a decaborate-based linker, and the biodistribution in tumorbearing nude mice was investigated. The influence of L-lysine and Na-thiocyanate on the 211 At uptake in normal tissues was also studied. Based on the biokinetic information obtained, the absorbed dose was calculated for different organs. Compared with a previous biodistribution with 125 I, the 211 At biodistribution using the PAB linker showed higher uptake in lungs, stomach, thyroid and salivary glands, indicating release of free 211 At. When the decaborate-based linker was used, the uptake in those organs was decreased, but instead, high uptake in kidneys and liver was found. The uptake, when using the PAB linker, could be significantly reduced in some organs by the use of L-lysine and/or Na-thiocyanate. In conclusion, affibody molecules have suitable blood-kinetics for targeted radionuclide therapy with 211 At. However, the labeling chemistry affects the distribution in normal organs to a high degree and needs to be improved to allow clinical use.

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Combined effect of gefitinib ('Iressa', ZD1839) and targeted radiotherapy with 211 At-EGF

Sundberg

Almqvist

Orlova

et al. 2003

European Journal of Nuclear Medicine and Molecular Imaging

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The EGFR-TKI (epidermal growth factor receptor tyrosine kinase inhibitor) gefitinib ['Iressa' (trademark of the AstraZeneca group of companies), ZD1839] increases the cellular uptake of radiolabelled epidermal growth factor (EGF). We investigated gefitinib treatment combined with astatine-211 EGF targeting in vitro using two cell lines expressing high levels of EGFR: A431 (sensitive to gefitinib) and U343MGaCl2:1 (resistant to gefitinib). In both cell lines, the uptake of 211At-EGF was markedly increased by concomitant treatment with gefitinib. Survival was investigated using both a clonogenic survival assay and a cell growth assay. Combined gefitinib and 211At-EGF treatment reduced the survival of U343 cells 3.5-fold compared with 211At-EGF alone. In A431 cells, 211At-EGF treatment resulted in very low survival, but combined treatment with gefitinib increased the survival by about 20-fold. These results indicate that combined treatment with gefitinib might increase the effect of ligand-mediated radionuclide therapy in gefitinib-resistant tumours and decrease the effect of such therapy in gefitinib-sensitive tumours.

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Treatment of cultured glioma cells with the EGFR-TKI gefitinib ("Iressa", ZD1839) increases the uptake of astatinated EGF despite the absence of gefitinib-mediated growth inhibition

Sundberg

Almqvist

Tolmachev

et al. 2003

Eur J Nucl Med Mol Imaging

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The EGFR-TKI (epidermal growth factor receptor tyrosine kinase inhibitor) gefitinib ("Iressa", ZD1839), a reversible growth inhibitor of EGFR-expressing tumour cells, has been shown to enhance the antitumour effect of ionising radiation, and also to increase the uptake of radioiodinated EGF. Thus, combination of gefitinib treatment and radionuclide targeting is an interesting option for therapy of brain tumours that are difficult to treat with conventional methods. The aim of this study was to evaluate how pre-treatment with gefitinib affects binding of astatinated EGF ((211)At-EGF) to cultured glioma U343 cells, which express high levels of EGFR. The growth of U343 cells in the presence of gefitinib was investigated, and it was found that gefitinib does not significantly inhibit the growth of these cells. Nevertheless, the uptake of (211)At-EGF in U343 cells was markedly increased (up to 3.5 times) in cells pre-treated with gefitinib (1 microM). This indicates that a combination of gefitinib treatment and radionuclide targeting to EGFR might be a useful therapeutic modality, even for patients who do not respond to treatment with gefitinib alone.

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[99mTc] HYNIC-hEGF, a potential agent for imaging of EGF receptors in vivo: Preparation and pre-clinical evaluation

Babaei

Almqvist²,

Orlova³

et al. 2005

Oncol Rep

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In Vitro Characterization of ²¹¹At-Labeled Antibody A33—a Potential Therapeutic Agent Against Metastatic Colorectal Carcinoma

Almqvist

Orlova²,

Sjöström³

et al. 2005

Cancer Biotherapy and Radiopharmaceuticals

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The humanized antibody A33 binds to the A33 antigen, expressed in 95% of primary and metastatic colorectal carcinomas. The restricted pattern of expression in normal tissue makes this antigen a possible target for radioimmunotherapy of colorectal micrometastases. In this study, the A33 antibody was labeled with the therapeutic nuclide (211)At using N-succinimidyl para-(tri-methylstannyl)benzoate (SPMB). The in vitro characteristics of the (211)At-benzoate-A33 conjugate ((211)At-A33) were investigated and found to be similar to those of (125)I-benzoate-A33 ((125)I-A33) in different assays. Both conjugates bound with high affinity to SW1222 cells (K(d) = 1.7 +/- 0.2 nM, and 1.8 +/- 0.1 nM for (211)At-A33 and (125)I-A33, respectively), and both showed good intracellular retention (70% of the radioactivity was still cell associated after 20 hours). The cytotoxic effect of (211)At-A33 was also confirmed. After incubation with (211)At-A33, SW1222 cells had a survival of approximately 0.3% when exposed to some 150 decays per cell (DPC). The cytotoxic effect was found to be dose-dependent, as cells exposed to only 56 DPC had a survival of approximately 5%. The (211)At-A33 conjugate shows promise as a potential radioimmunotherapy agent for treatment of micrometastases originating from colorectal carcinoma.

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Ylva Almqvist

Biodistribution of 211At labeled HER-2 binding affibody molecules in mice

Combined effect of gefitinib ('Iressa', ZD1839) and targeted radiotherapy with 211 At-EGF

Treatment of cultured glioma cells with the EGFR-TKI gefitinib ("Iressa", ZD1839) increases the uptake of astatinated EGF despite the absence of gefitinib-mediated growth inhibition

[99mTc] HYNIC-hEGF, a potential agent for imaging of EGF receptors in vivo: Preparation and pre-clinical evaluation

In Vitro Characterization of ²¹¹At-Labeled Antibody A33—a Potential Therapeutic Agent Against Metastatic Colorectal Carcinoma

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Ylva Almqvist

Biodistribution of 211At labeled HER-2 binding affibody molecules in mice

Combined effect of gefitinib ('Iressa', ZD1839) and targeted radiotherapy with 211 At-EGF

Treatment of cultured glioma cells with the EGFR-TKI gefitinib ("Iressa", ZD1839) increases the uptake of astatinated EGF despite the absence of gefitinib-mediated growth inhibition

[99mTc] HYNIC-hEGF, a potential agent for imaging of EGF receptors in vivo: Preparation and pre-clinical evaluation

In Vitro Characterization of 211At-Labeled Antibody A33—a Potential Therapeutic Agent Against Metastatic Colorectal Carcinoma

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Product

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In Vitro Characterization of ²¹¹At-Labeled Antibody A33—a Potential Therapeutic Agent Against Metastatic Colorectal Carcinoma