Your search keyword '"Jonasson, Per"' showing total 4 results

1. Comparative Preclinical Evaluation of HER2-Targeting ABD-Fused Affibody® Molecules 177Lu-ABY-271 and 177Lu-ABY-027: Impact of DOTA Position on ABD Domain

Author

Liu, Yongsheng, Vorobyeva, Anzhelika, Xu, Tianqi, Orlova, Anna, Loftenius, Annika, Bengtsson, Theresa, Jonasson, Per, Tolmachev, Vladimir, and Frejd, Fredrik Y.

Subjects

177Lu, albumin binding domain (ABD), affibody molecule, Biochemistry and Molecular Biology, radionuclide therapy, urologic and male genital diseases, Article, body regions, RS1-441, Pharmacy and materia medica, DOTA, scaffold protein, human activities, biodistribution, SKOV-3 xenograft, Biokemi och molekylärbiologi

Abstract

Radiolabeled Affibody-based targeting agent 177Lu-ABY-027, a fusion of an anti-HER2 Affibody molecule with albumin binding domain (ABD) site-specifically labeled at the C-terminus, has demonstrated a promising biodistribution profile in mice, binding of the construct to albumin prevents glomerular filtration and significantly reduces renal uptake. In this study, we tested the hypothesis that site-specific positioning of the chelator at helix 1 of ABD, at a maximum distance from the albumin binding site, would further increase the strength of binding to albumin and decrease the renal uptake. The new construct, ABY-271 with DOTA conjugated at the back of ABD, has been labelled with 177Lu. Targeting properties of 177Lu-ABY-271 and 177Lu-ABY-027 were compared directly. 177Lu-ABY-271 specifically accumulated in SKOV-3 xenografts in mice. The tumor uptake of 177Lu-ABY-271 exceeded uptake in any other organ 24 h and later after injection. However, the renal uptake of 177Lu-ABY-271 was two-fold higher than the uptake of 177Lu-ABY-027. Thus, the placement of chelator on helix 1 of ABD does not provide desirable reduction of renal uptake. To conclude, minimal modification of the design of Affibody molecules has a strong effect on biodistribution, which cannot be predicted a priori. This necessitates extensive structure-properties relationship studies to find an optimal design of Affibody-based targeting agents for therapy.

Published

2021

2. Evaluating the Therapeutic Efficacy of Mono- and Bivalent Affibody-Based Fusion Proteins Targeting HER3 in a Pancreatic Cancer Xenograft Model

Author

Leitao, Charles Dahlsson, Rinne, Sara S., Altai, Mohamed, Vorontsova, Olga, Dunås, Finn, Jonasson, Per, Tolmachev, Vladimir, Löfblom, John, Ståhl, Stefan, and Orlova, Anna

Subjects

lcsh:Pharmacy and materia medica, Medicin och hälsovetenskap, therapy, MM-121, HER3, lcsh:RS1-441, affibody molecules, Medical and Health Sciences, Article, albumin-binding domain, seribantumab

Abstract

Human epidermal growth factor receptor 3 (HER3) has been increasingly scrutinized as a potential drug target since the elucidation of its role in mediating tumor growth and acquired therapy resistance. Affibody molecules are so-called scaffold proteins with favorable biophysical properties, such as a small size for improved tissue penetration and extravasation, thermal and chemical stability, and a high tolerance to modifications. Additionally, affibody molecules are efficiently produced in prokaryotic hosts or by chemical peptide synthesis. We have previously evaluated the biodistribution profiles of five mono- and bivalent anti-HER3 affibody molecules (designated as 3) fused to an albumin-binding domain (designated as A), 3A, 33A, 3A3, A33, and A3, that inhibit ligand-dependent phosphorylation. In the present study, we examined the therapeutic efficacy of the three most promising variants, 3A, 33A, and 3A3, in a direct comparison with the HER3-targeting monoclonal antibody seribantumab (MM-121) in a preclinical BxPC-3 pancreatic cancer model. Xenografted mice were treated with either an affibody construct or MM-121 and the tumor growth was compared to a vehicle group. Receptor occupancy was estimated by positron emission tomography/computed tomography (PET/CT) imaging using a HER3-targeting affibody imaging agent [68Ga]Ga-(HE)3-Z08698-NODAGA. The affibody molecules could inhibit ligand-dependent phosphorylation and cell proliferation in vitro and demonstrated tumor growth inhibition in vivo comparable to that of MM-121. PET/CT imaging showed full receptor occupancy for all tested drug candidates. Treatment with 3A and 3A3 affibody constructs was more efficient than with 33A and similar to the anti-HER3 antibody seribantumab, showing that the molecular design of affibody-based therapeutics targeting HER3 in terms of the relative position of functional domains and valency has an impact on therapeutic effect.

Published

2020

3. Evaluating the Therapeutic Efficacy of Mono- and Bivalent Affibody-Based Fusion Proteins Targeting HER3 in a Pancreatic Cancer Xenograft Model

Author

Dahlsson Leitao, Charles, primary, S. Rinne, Sara, additional, Altai, Mohamed, additional, Vorontsova, Olga, additional, Dunås, Finn, additional, Jonasson, Per, additional, Tolmachev, Vladimir, additional, Löfblom, John, additional, Ståhl, Stefan, additional, and Orlova, Anna, additional

Published

2020

4. Comparative Preclinical Evaluation of HER2-Targeting ABD-Fused Affibody ® Molecules 177 Lu-ABY-271 and 177 Lu-ABY-027: Impact of DOTA Position on ABD Domain.

Author

Liu, Yongsheng, Vorobyeva, Anzhelika, Xu, Tianqi, Orlova, Anna, Loftenius, Annika, Bengtsson, Theresa, Jonasson, Per, Tolmachev, Vladimir, and Frejd, Fredrik Y.

Subjects

MOLECULES, MINIMAL design, SCAFFOLD proteins, INJECTIONS, BINDING sites, ALBUMINS

Abstract

Radiolabeled Affibody-based targeting agent 177Lu-ABY-027, a fusion of an anti-HER2 Affibody molecule with albumin binding domain (ABD) site-specifically labeled at the C-terminus, has demonstrated a promising biodistribution profile in mice; binding of the construct to albumin prevents glomerular filtration and significantly reduces renal uptake. In this study, we tested the hypothesis that site-specific positioning of the chelator at helix 1 of ABD, at a maximum distance from the albumin binding site, would further increase the strength of binding to albumin and decrease the renal uptake. The new construct, ABY-271 with DOTA conjugated at the back of ABD, has been labelled with 177Lu. Targeting properties of 177Lu-ABY-271 and 177Lu-ABY-027 were compared directly. 177Lu-ABY-271 specifically accumulated in SKOV-3 xenografts in mice. The tumor uptake of 177Lu-ABY-271 exceeded uptake in any other organ 24 h and later after injection. However, the renal uptake of 177Lu-ABY-271 was two-fold higher than the uptake of 177Lu-ABY-027. Thus, the placement of chelator on helix 1 of ABD does not provide desirable reduction of renal uptake. To conclude, minimal modification of the design of Affibody molecules has a strong effect on biodistribution, which cannot be predicted a priori. This necessitates extensive structure-properties relationship studies to find an optimal design of Affibody-based targeting agents for therapy. [ABSTRACT FROM AUTHOR]

Published

2021