Your search keyword '"affibody molecule"' showing total 661 results

1. Optimized method for fluorine-18 radiolabeling of Affibody molecules using RESCA.

Author

Lechi, Francesco, Eriksson, Jonas, Odell, Luke R., Wegrzyniak, Olivia, Löfblom, John, Frejd, Fredrik Y., Zhang, Bo, and Eriksson, Olof

Subjects

*POSITRON emission tomography, *RADIOLABELING, *PEPTIDES, *SALINE solutions, *RADIOCHEMISTRY

Abstract

Background: In recent years, the interest in Al[18F]F as a labeling agent for Positron Emission Tomography (PET) radiotracers has risen, as it allows for fast and efficient fluorine-18 labeling by harnessing chelation chemistry. The introduction of Restrained Complexing Agent (RESCA) as a chelator has also shown that chelator-based radiolabeling reactions can be performed in mild conditions, making the radiolabeling process attractively more facile than most conventional radiofluorination methods. The aim of the study was to establish optimized conditions for Al[18F]F labeling of Affibody molecules using RESCA as a complexing agent, using Z09591 and Z0185, two Affibody proteins targeting PDGFRβ and TNFα, respectively, as model compounds. Results: The Al[18F]F labeling of RESCA-conjugated Z09591 was tested at different temperatures (rt to 60 °C) and with varying reaction times (12 to 60 min), and optimal conditions were then implemented on RESCA-Z0185. The optimized synthesis method was: 1.5–2.5 GBq of cyclotron produced fluorine-18 were trapped on a QMA cartridge and eluted with saline solution to react with 12 nmol of AlCl3 and form Al[18F]F. The respective RESCA-conjugated Affibody molecule (14 nmol) in NaOAc solution was added to the Al[18F]F solution and left to react at 60 °C for 12 min. The mixture was purified on a NAP5 size exclusion column and then analyzed by HPLC. The entire process took approximately 35 min, was highly reproducible, indicating the efficiency and reliability of the method. The labeled compounds demonstrated retained biological function for their respective targets after purification. Conclusions: We present a general and optimized method for Al[18F]F labeling of RESCA-conjugated Affibody molecules, which can be widely applied to this class of peptide-based imaging agents. Moreover, radiochemical yields were improved when the labeling was conducted at 37 °C or above. In vitro and in vivo assessment of the respective tracers was promising, showing retained binding capacity as well as moderate defluorination, which is usually regarded as a potential downside for RESCA-conjugated tracers. [ABSTRACT FROM AUTHOR]

Published

2024

2. Optimized method for fluorine-18 radiolabeling of Affibody molecules using RESCA

Author

Francesco Lechi, Jonas Eriksson, Luke R. Odell, Olivia Wegrzyniak, John Löfblom, Fredrik Y. Frejd, Bo Zhang, and Olof Eriksson

Subjects

RESCA, Radiochemistry, Aluminium fluoride, PET imaging, Affibody molecule, Peptide, Medical physics. Medical radiology. Nuclear medicine, R895-920, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Background In recent years, the interest in Al[18F]F as a labeling agent for Positron Emission Tomography (PET) radiotracers has risen, as it allows for fast and efficient fluorine-18 labeling by harnessing chelation chemistry. The introduction of Restrained Complexing Agent (RESCA) as a chelator has also shown that chelator-based radiolabeling reactions can be performed in mild conditions, making the radiolabeling process attractively more facile than most conventional radiofluorination methods. The aim of the study was to establish optimized conditions for Al[18F]F labeling of Affibody molecules using RESCA as a complexing agent, using Z09591 and Z0185, two Affibody proteins targeting PDGFRβ and TNFα, respectively, as model compounds. Results The Al[18F]F labeling of RESCA-conjugated Z09591 was tested at different temperatures (rt to 60 °C) and with varying reaction times (12 to 60 min), and optimal conditions were then implemented on RESCA-Z0185. The optimized synthesis method was: 1.5–2.5 GBq of cyclotron produced fluorine-18 were trapped on a QMA cartridge and eluted with saline solution to react with 12 nmol of AlCl3 and form Al[18F]F. The respective RESCA-conjugated Affibody molecule (14 nmol) in NaOAc solution was added to the Al[18F]F solution and left to react at 60 °C for 12 min. The mixture was purified on a NAP5 size exclusion column and then analyzed by HPLC. The entire process took approximately 35 min, was highly reproducible, indicating the efficiency and reliability of the method. The labeled compounds demonstrated retained biological function for their respective targets after purification. Conclusions We present a general and optimized method for Al[18F]F labeling of RESCA-conjugated Affibody molecules, which can be widely applied to this class of peptide-based imaging agents. Moreover, radiochemical yields were improved when the labeling was conducted at 37 °C or above. In vitro and in vivo assessment of the respective tracers was promising, showing retained binding capacity as well as moderate defluorination, which is usually regarded as a potential downside for RESCA-conjugated tracers. Graphical abstract

Published

2024

3. An anti-sortilin affibody-peptide fusion inhibits sortilin-mediated progranulin degradation.

Author

Ek, Moira, Nilvebrant, Johan, Nygren, Per-Åke, Ståhl, Stefan, Lindberg, Hanna, and Löfblom, John

Subjects

FRONTOTEMPORAL dementia, PEPTIDES, SORTILIN, PROTEIN engineering, CELL fusion

Abstract

Heterozygous loss-of-function mutations in the GRN gene are a common cause of frontotemporal dementia. Such mutations lead to decreased plasma and cerebrospinal fluid levels of progranulin (PGRN), a neurotrophic factor with lysosomal functions. Sortilin is a negative regulator of extracellular PGRN levels and has shown promise as a therapeutic target for frontotemporal dementia, enabling increased extracellular PGRN levels through inhibition of sortilinmediated PGRN degradation. Here we report the development of a highaffinity sortilin-binding affibody-peptide fusion construct capable of increasing extracellular PGRN levels in vitro. By genetic fusion of a sortilin-binding affibody generated through phage display and a peptide derived from the progranulin Cterminus, an affinity protein (A3-PGRNC15*) with 185-pM affinity for sortilin was obtained. Treating PGRN-secreting and sortilin-expressing human glioblastoma U-251 cells with the fusion protein increased extracellular PGRN levels up to 2.5-fold, with an EC50 value of 1.3 nM. Our results introduce A3-PGRNC15* as a promising new agent with therapeutic potential for the treatment of frontotemporal dementia. Furthermore, the work highlights means to increase binding affinity through synergistic contribution from two orthogonal polypeptide units. [ABSTRACT FROM AUTHOR]

Published

2024

4. Comparison of approaches for increasing affinity of affibody molecules for imaging of B7-H3: dimerization and affinity maturation

Author

Maryam Oroujeni, Matilda Carlqvist, Eva Ryer, Anna Orlova, Vladimir Tolmachev, and Fredrik Y. Frejd

Subjects

B7-H3, Affibody molecule, Dimerization, Affinity maturation, Technetium-99m (99mTc), SKOV-3 xenograft, SPECT/CT imaging, Medical physics. Medical radiology. Nuclear medicine, R895-920, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Background Radionuclide molecular imaging can be used to visualize the expression levels of molecular targets. Affibody molecules, small and high affinity non-immunoglobulin scaffold-based proteins, have demonstrated promising properties as targeting vectors for radionuclide tumour imaging of different molecular targets. B7-H3 (CD276), an immune checkpoint protein belonging to the B7 family, is overexpressed in different types of human malignancies. Visualization of overexpression of B7-H3 in malignancies enables stratification of patients for personalized therapies. Affinity maturation of anti-B7-H3 Affibody molecules as an approach to improve the binding affinity and targeting properties was recently investigated. In this study, we tested the hypothesis that a dimeric format may be an alternative option to increase the apparent affinity of Affibody molecules to B7-H3 and accordingly improve imaging contrast. Results Two dimeric variants of anti-B7-H3 Affibody molecules were produced (designated ZAC12*-ZAC12*-GGGC and ZAC12*-ZTaq_3-GGGC). Both variants were labelled with Tc-99m (99mTc) and demonstrated specific binding to B7-H3-expressing cells in vitro. [99mTc]Tc-ZAC12*-ZAC12*-GGGC showed subnanomolar affinity (KD1=0.28 ± 0.10 nM, weight = 68%), which was 7.6-fold higher than for [99mTc]Tc-ZAC12*-ZTaq_3-GGGC (KD=2.1 ± 0.9 nM). Head-to-head biodistribution of both dimeric variants of Affibody molecules compared with monomeric affinity matured SYNT-179 (all labelled with 99mTc) in mice bearing B7-H3-expressing SKOV-3 xenografts demonstrates that both dimers have lower tumour uptake and lower tumour-to-organ ratios compared to the SYNT-179 Affibody molecule. Conclusion The improved functional affinity by dimerization does not compensate the disadvantage of increased molecular size for imaging purposes.

Published

2024

5. Half-life extension via ABD-fusion leads to higher tumor uptake of an affibody-drug conjugate compared to PAS- and XTENylation.

Author

Zhang, Jie, Bodenko, Vitalina, Larkina, Maria, Bezverkhniaia, Ekaterina, Xu, Tianqi, Liao, Yunqi, Abouzayed, Ayman, Plotnikov, Evgenii, Tretyakova, Maria, Yuldasheva, Feruza, Belousov, Mikhail V., Orlova, Anna, Tolmachev, Vladimir, Gräslund, Torbjörn, and Vorobyeva, Anzhelika

Subjects

*THERAPEUTIC use of proteins

Abstract

A critical parameter during the development of protein therapeutics is to endow them with suitable pharmacokinetic and pharmacodynamic properties. Small protein drugs are quickly eliminated by kidney filtration, and in vivo half-life extension is therefore often desired. Here, different half-life extension technologies were studied where PAS polypeptides (PAS300, PAS600), XTEN polypeptides (XTEN288, XTEN576), and an albumin binding domain (ABD) were compared for half-life extension of an anti-human epidermal growth factor receptor 2 (HER2) affibody-drug conjugate. The results showed that extension with the PAS or XTEN polypeptides or the addition of the ABD lowered the affinity for HER2 to some extent but did not negatively affect the cytotoxic potential. The half-lives in mice ranged from 7.3 h for the construct including PAS300 to 11.6 h for the construct including PAS600. The highest absolute tumor uptake was found for the construct including the ABD, which was 60 to 160% higher than the PASylated or XTENylated constructs, even though it did not have the longest half-life (9.0 h). A comparison of the tumor-to-normal-organ ratios showed the best overall performance of the ABD-fused construct. In conclusion, PASylation, XTENylation, and the addition of an ABD are viable strategies for half-life extension of affibody-drug conjugates, with the best performance observed for the construct including the ABD. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

6. Comparison of approaches for increasing affinity of affibody molecules for imaging of B7-H3: dimerization and affinity maturation.

Author

Oroujeni, Maryam, Carlqvist, Matilda, Ryer, Eva, Orlova, Anna, Tolmachev, Vladimir, and Frejd, Fredrik Y.

Subjects

*IMMUNE checkpoint proteins, *MOLECULAR size, *DIMERIZATION, *MOLECULES, *DRUG target

Abstract

Background: Radionuclide molecular imaging can be used to visualize the expression levels of molecular targets. Affibody molecules, small and high affinity non-immunoglobulin scaffold-based proteins, have demonstrated promising properties as targeting vectors for radionuclide tumour imaging of different molecular targets. B7-H3 (CD276), an immune checkpoint protein belonging to the B7 family, is overexpressed in different types of human malignancies. Visualization of overexpression of B7-H3 in malignancies enables stratification of patients for personalized therapies. Affinity maturation of anti-B7-H3 Affibody molecules as an approach to improve the binding affinity and targeting properties was recently investigated. In this study, we tested the hypothesis that a dimeric format may be an alternative option to increase the apparent affinity of Affibody molecules to B7-H3 and accordingly improve imaging contrast. Results: Two dimeric variants of anti-B7-H3 Affibody molecules were produced (designated ZAC12*-ZAC12*-GGGC and ZAC12*-ZTaq_3-GGGC). Both variants were labelled with Tc-99m (99mTc) and demonstrated specific binding to B7-H3-expressing cells in vitro. [99mTc]Tc-ZAC12*-ZAC12*-GGGC showed subnanomolar affinity (KD1=0.28 ± 0.10 nM, weight = 68%), which was 7.6-fold higher than for [99mTc]Tc-ZAC12*-ZTaq_3-GGGC (KD=2.1 ± 0.9 nM). Head-to-head biodistribution of both dimeric variants of Affibody molecules compared with monomeric affinity matured SYNT-179 (all labelled with 99mTc) in mice bearing B7-H3-expressing SKOV-3 xenografts demonstrates that both dimers have lower tumour uptake and lower tumour-to-organ ratios compared to the SYNT-179 Affibody molecule. Conclusion: The improved functional affinity by dimerization does not compensate the disadvantage of increased molecular size for imaging purposes. [ABSTRACT FROM AUTHOR]

Published

2024

7. An anti-sortilin affibody-peptide fusion inhibits sortilin-mediated progranulin degradation

Author

Moira Ek, Johan Nilvebrant, Per-Åke Nygren, Stefan Ståhl, Hanna Lindberg, and John Löfblom

Subjects

protein engineering, affibody molecule, sortilin (SORT1), progranulin (GRN), frontotemporal dementia (FTD), latozinemab, Immunologic diseases. Allergy, RC581-607

Abstract

Heterozygous loss-of-function mutations in the GRN gene are a common cause of frontotemporal dementia. Such mutations lead to decreased plasma and cerebrospinal fluid levels of progranulin (PGRN), a neurotrophic factor with lysosomal functions. Sortilin is a negative regulator of extracellular PGRN levels and has shown promise as a therapeutic target for frontotemporal dementia, enabling increased extracellular PGRN levels through inhibition of sortilin-mediated PGRN degradation. Here we report the development of a high-affinity sortilin-binding affibody-peptide fusion construct capable of increasing extracellular PGRN levels in vitro. By genetic fusion of a sortilin-binding affibody generated through phage display and a peptide derived from the progranulin C-terminus, an affinity protein (A3-PGRNC15*) with 185-pM affinity for sortilin was obtained. Treating PGRN-secreting and sortilin-expressing human glioblastoma U-251 cells with the fusion protein increased extracellular PGRN levels up to 2.5-fold, with an EC50 value of 1.3 nM. Our results introduce A3-PGRNC15* as a promising new agent with therapeutic potential for the treatment of frontotemporal dementia. Furthermore, the work highlights means to increase binding affinity through synergistic contribution from two orthogonal polypeptide units.

Published

2024

8. Preclinical evaluation of Affibody molecule for PET imaging of human pancreatic islets derived from stem cells

Author

Pierre Cheung, Julia Thorngren, Bo Zhang, Svitlana Vasylovska, Francesco Lechi, Jonas Persson, Stefan Ståhl, John Löfblom, Olle Korsgren, Jonas Eriksson, Joey Lau, and Olof Eriksson

Subjects

Affibody molecule, Stem cells, Diabetes, DGCR2, PET, Fluorine-18 chemistry, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background Beta-cell replacement methods such as transplantation of isolated donor islets have been proposed as a curative treatment of type 1 diabetes, but widespread application is challenging due to shortages of donor tissue and the need for continuous immunosuppressive treatments. Stem-cell-derived islets have been suggested as an alternative source of beta cells, but face transplantation protocols optimization difficulties, mainly due to a lack of available methods and markers to directly monitor grafts survival, as well as their localization and function. Molecular imaging techniques and particularly positron emission tomography has been suggested as a tool for monitoring the fate of islets after clinical transplantation. The integral membrane protein DGCR2 has been demonstrated to be a potential pancreatic islet biomarker, with specific expression on insulin-positive human embryonic stem-cell-derived pancreatic progenitor cells. The candidate Affibody molecule ZDGCR2:AM106 was radiolabeled with fluorine-18 using a novel click chemistry-based approach. The resulting positron emission tomography tracer [18F]ZDGCR2:AM106 was evaluated for binding to recombinant human DGCR2 and cryosections of stem-cell-derived islets, as well as in vivo using an immune-deficient mouse model transplanted with stem-cell-derived islets. Biodistribution of the [18F]ZDGCR2:AM106 was also assessed in healthy rats and pigs. Results [18F]ZDGCR2:AM106 was successfully synthesized with high radiochemical purity and yield via a pretargeting approach. [18F]ZDGCR2:AM106 retained binding to recombinant human DCGR2 as well as to cryosectioned stem-cell-derived islets, but in vivo binding to native pancreatic tissue in both rat and pig was low. However, in vivo uptake of [18F]ZDGCR2:AM106 in stem-cell-derived islets transplanted in the immunodeficient mice was observed, albeit only within the early imaging frames after injection of the radiotracer. Conclusion Targeting of DGCR2 is a promising approach for in vivo detection of stem-cell-derived islets grafts by molecular imaging. The synthesis of [18F]ZDGCR2:AM106 was successfully performed via a pretargeting method to label a site-specific covalently bonded fluorine-18 to the Affibody molecule. However, the rapid washout of [18F]ZDGCR2:AM106 from the stem-cell-derived islets graft indicates that dissociation kinetics can be improved. Further studies using alternative binders of similar classes with improved binding potential are warranted.

Published

2023

9. Preclinical evaluation of Affibody molecule for PET imaging of human pancreatic islets derived from stem cells.

Author

Cheung, Pierre, Thorngren, Julia, Zhang, Bo, Vasylovska, Svitlana, Lechi, Francesco, Persson, Jonas, Ståhl, Stefan, Löfblom, John, Korsgren, Olle, Eriksson, Jonas, Lau, Joey, and Eriksson, Olof

Subjects

*ISLANDS of Langerhans, *POSITRON emission tomography, *STEM cells, *RADIOCHEMICAL purification, *TYPE 1 diabetes, *FACIAL transplantation

Abstract

Background: Beta-cell replacement methods such as transplantation of isolated donor islets have been proposed as a curative treatment of type 1 diabetes, but widespread application is challenging due to shortages of donor tissue and the need for continuous immunosuppressive treatments. Stem-cell-derived islets have been suggested as an alternative source of beta cells, but face transplantation protocols optimization difficulties, mainly due to a lack of available methods and markers to directly monitor grafts survival, as well as their localization and function. Molecular imaging techniques and particularly positron emission tomography has been suggested as a tool for monitoring the fate of islets after clinical transplantation. The integral membrane protein DGCR2 has been demonstrated to be a potential pancreatic islet biomarker, with specific expression on insulin-positive human embryonic stem-cell-derived pancreatic progenitor cells. The candidate Affibody molecule ZDGCR2:AM106 was radiolabeled with fluorine-18 using a novel click chemistry-based approach. The resulting positron emission tomography tracer [18F]ZDGCR2:AM106 was evaluated for binding to recombinant human DGCR2 and cryosections of stem-cell-derived islets, as well as in vivo using an immune-deficient mouse model transplanted with stem-cell-derived islets. Biodistribution of the [18F]ZDGCR2:AM106 was also assessed in healthy rats and pigs. Results: [18F]ZDGCR2:AM106 was successfully synthesized with high radiochemical purity and yield via a pretargeting approach. [18F]ZDGCR2:AM106 retained binding to recombinant human DCGR2 as well as to cryosectioned stem-cell-derived islets, but in vivo binding to native pancreatic tissue in both rat and pig was low. However, in vivo uptake of [18F]ZDGCR2:AM106 in stem-cell-derived islets transplanted in the immunodeficient mice was observed, albeit only within the early imaging frames after injection of the radiotracer. Conclusion: Targeting of DGCR2 is a promising approach for in vivo detection of stem-cell-derived islets grafts by molecular imaging. The synthesis of [18F]ZDGCR2:AM106 was successfully performed via a pretargeting method to label a site-specific covalently bonded fluorine-18 to the Affibody molecule. However, the rapid washout of [18F]ZDGCR2:AM106 from the stem-cell-derived islets graft indicates that dissociation kinetics can be improved. Further studies using alternative binders of similar classes with improved binding potential are warranted. [ABSTRACT FROM AUTHOR]

Published

2023

10. Immuno-PET Imaging of Tumour PD-L1 Expression in Glioblastoma.

Author

Sharma, Gitanjali, Braga, Marta C., Da Pieve, Chiara, Szopa, Wojciech, Starzetz, Tatjana, Plate, Karl H., Kaspera, Wojciech, and Kramer-Marek, Gabriela

Subjects

*BIOLOGICAL models, *FLOW cytometry, *PROGRAMMED death-ligand 1, *RADIOACTIVITY, *IMMUNE checkpoint inhibitors, *STAINS & staining (Microscopy), *RADIOIMMUNOIMAGING, *GLIOMAS, *GENE expression, *POSITRON emission tomography, *RESEARCH funding, *TUMORS, *RECOMBINANT proteins, *MICE

Abstract

Simple Summary: Almost all patients with glioblastoma (GBM) eventually relapse, mainly due to adaptive and acquired resistance that results from tumour heterogeneity and its relatively immune-depleted ("cold") microenvironment. High levels of programmed death ligand-1 (PD-L1) have been associated with GBM invasiveness and immuno-resistance. Presently, there is no standardised approach for the assessment of PD-L1 expression level that would help in predicting the response to immune checkpoint inhibitors. Therefore, we investigated the ability of a radiolabelled ZPD-L1 affibody molecule to measure the expression level of PD-L1 in GBM xenograft models. There is no established method to assess the PD-L1 expression in brain tumours. Therefore, we investigated the suitability of affibody molecule (ZPD-L1) radiolabelled with F-18 (Al18F) and Ga-68 to measure the expression of PD-L1 in xenograft mouse models of GBM. Mice bearing subcutaneous and orthotopic tumours were imaged 1 h post-radioconjugate administration. Ex vivo biodistribution studies and immunohistochemistry (IHC) staining were performed. Tumoural PD-L1 expression and CD4+/CD8+ tumour-infiltrating lymphocytes were evaluated in human GBM specimens. ZPD-L1 was radiolabelled with radiochemical yields of 32.2 ± 4.4% (F-18) and 73.3 ± 1.8% (Ga-68). The cell-associated radioactivity in vitro was consistent with PD-L1 expression levels assessed with flow cytometry. In vivo imaging demonstrated that 18F-AlF-NOTA-ZPD-L1 can distinguish between PD-L1 high-expressing tumours (U87-MGvIII) and PD-L1-negative ones (H292PD-L1Ko). The radioconjugate was quickly cleared from the blood and normal tissues, allowing for high-contrast images of brain tumours as early as 1 h post-injection. 68Ga-NOTA-ZPD-L1 showed heterogeneous and diffuse accumulation that corresponded to the extensively infiltrating GCGR-E55 tumours involving contiguous lobes of the brain. Lastly, 39% of analysed GBM patient samples showed PD-L1+ staining of tumour cells that was associated with elevated levels of CD4+ and CD8+ lymphocytes. Our results suggest that the investigated radioconjugates are very promising agents with the potential to facilitate the future design of treatment regimens for GBM patients. [ABSTRACT FROM AUTHOR]

Published

2023

11. Radionuclide Therapy of HER2-Expressing Xenografts Using [ 177 Lu]Lu-ABY-027 Affibody Molecule Alone and in Combination with Trastuzumab.

Author

Liu, Yongsheng, Xu, Tianqi, Vorobyeva, Anzhelika, Loftenius, Annika, Bodenko, Vitalina, Orlova, Anna, Frejd, Fredrik Y., and Tolmachev, Vladimir

Subjects

*BREAST tumor treatment, *RADIOISOTOPE therapy, *THERAPEUTIC use of antineoplastic agents, *STOMACH tumors, *XENOGRAFTS, *IN vivo studies, *ONCOGENES, *TRASTUZUMAB, *ANIMAL experimentation, *INDIVIDUALIZED medicine, *RADIOISOTOPES, *TREATMENT effectiveness, *SURVIVAL analysis (Biometry), *RESEARCH funding, *LIGANDS (Biochemistry), *MICE

Abstract

Simple Summary: Affibody molecules are artificial proteins that can recognize cancer-related molecular abnormalities in the living body. Clinical studies demonstrated that Affibody molecules can be successfully used for radionuclide diagnostics. Targeted radionuclide therapy selectively delivers cytotoxic radionuclides to malignant tumors, thus sparing normal tissues. For radionuclide therapy, Affibody molecules were re-engineered to decrease accumulation in the kidneys. This study has demonstrated that radionuclide therapy using re-engineered Affibody molecules increases the survival of immunodeficient mice bearing human tumors. The therapy was more efficient than the treatment with a monoclonal antibody, which is currently used in clinical practice. The best results were obtained when both the antibody and radiolabeled Affibody molecules were used simultaneously. This work provides a preclinical rationale for a potentially more efficient treatment in HER2-positive cancers. ABY-027 is a scaffold-protein-based cancer-targeting agent. ABY-027 includes the second-generation Affibody molecule ZHER2:2891, which binds to human epidermal growth factor receptor type 2 (HER2). An engineered albumin-binding domain is fused to ZHER2:2891 to reduce renal uptake and increase bioavailability. The agent can be site-specifically labeled with a beta-emitting radionuclide 177Lu using a DOTA chelator. The goals of this study were to test the hypotheses that a targeted radionuclide therapy using [177Lu]Lu-ABY-027 could extend the survival of mice with HER2-expressing human xenografts and that co-treatment with [177Lu]Lu-ABY-027 and the HER2-targeting antibody trastuzumab could enhance this effect. Balb/C nu/nu mice bearing HER2-expressing SKOV-3 xenografts were used as in vivo models. A pre-injection of trastuzumab did not reduce the uptake of [177Lu]Lu-ABY-027 in tumors. Mice were treated with [177Lu]Lu-ABY-027 or trastuzumab as monotherapies and a combination of these therapies. Mice treated with vehicle or unlabeled ABY-027 were used as controls. Targeted monotherapy using [177Lu]Lu-ABY-027 improved the survival of mice and was more efficient than trastuzumab monotherapy. A combination of therapies utilizing [177Lu]Lu-ABY-027 and trastuzumab improved the treatment outcome in comparison with monotherapies using these agents. In conclusion, [177Lu]Lu-ABY-027 alone or in combination with trastuzumab could be a new potential agent for the treatment of HER2-expressing tumors. [ABSTRACT FROM AUTHOR]

Published

2023

12. Conditionally activated affibody-based prodrug targeting EGFR demonstrates improved tumour selectivity.

Author

Dahlsson Leitao, Charles, Mestre Borras, Anna, Xu, Tianqi, Oroujeni, Maryam, Liu, Yongsheng, Westerberg, Cornelia, Clinton, Jacob, Tolmachev, Vladimir, Orlova, Anna, Ståhl, Stefan, Vorobyeva, Anzhelika, and Löfblom, John

Subjects

*EPIDERMAL growth factor receptors, *TUMOR microenvironment

Abstract

Safety and efficacy of cancer-targeting treatments can be improved by conditional activation enabled by the distinct milieu of the tumour microenvironment. Proteases are intricately involved in tumourigenesis and commonly dysregulated with elevated expression and activity. Design of prodrug molecules with protease-dependent activation has the potential to increase tumour-selective targeting while decreasing exposure to healthy tissues, thus improving the safety profile for patients. Higher selectivity could also allow for administration of higher doses or use of more aggressive treatment options, leading to higher therapeutic efficacy. We have previously developed an affibody-based prodrug with conditional targeting of EGFR conferred by an anti-idiotypic affibody masking domain (Z B05). We could show that binding to endogenous EGFR on cancer cells in vitro was restored following proteolytic removal of Z B05. In this study we evaluate a novel affibody-based prodrug design, which incorporates a protease substrate sequence recognized by cancer-associated proteases and demonstrate the potential of this approach for selective tumour-targeting and shielded uptake in healthy tissues in vivo using tumour-bearing mice. This may widen the therapeutic index of cytotoxic EGFR-targeted therapeutics by decreasing side effects, improving selectivity of drug delivery, and enabling the use of more potent cytotoxic drugs. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

13. Directing ricin-based immunotoxins with targeting affibodies and KDEL signal peptide to cancer cells effectively induces apoptosis and tumor suppression

Author

Seong Guk Park, Heeyeon Kim, Heejin Jun, Sun Young Choi, Eunhee Kim, and Sebyung Kang

Subjects

Ricin, Recombinant immunotoxin, Affibody molecule, KDEL, Tumor suppression, Intracellular delivery, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract The plant toxin ricin, especially its cytotoxic A chain (RTA), can be genetically engineered with targeting ligands to develop specific anti-cancer recombinant immunotoxins (RITs). Here, we used affibody molecules targeting two cancer biomarkers, the receptors HER2 and EGFR, along with the KDEL signal peptide to construct two cancer-specific ricin-based RITs, HER2Afb-RTA-KDEL and EGFRAfb-RTA-KDEL. The affibodies successfully provided target-specificity and subsequent receptor-mediated endocytosis and the KDEL signal peptide routed the RITs through the retrograde transport pathway, effectively delivering RTA to the cytosol as well as avoiding the alternate recycling pathway that typical cancer cells frequently have. The in vivo efficacy of RITs was enhanced by introducing the albumin binding domain (AlBD) to construct AlBD/HER2Afb/RTA-KDEL. Systemic administration of AlBD-containing RITs to tumor-bearing mice significantly suppressed tumor growth without any noticeable side-effects. Collectively, combining target-selective affibody molecules, a cytotoxic RTA, and an intracellularly designating peptide, we successfully developed cancer-specific and efficacious ricin-based RITs. This approach can be applied to develop novel protein-based “magic bullets” to effectively suppress tumors that are resistant to conventional anti-cancer drugs. Graphical Abstract

Published

2022

14. Generation of an anti-idiotypic affibody-based masking domain for conditional activation of EGFR-targeting.

Author

Mestre Borras, Anna, Dahlsson Leitao, Charles, Ståhl, Stefan, and Löfblom, John

Subjects

*EPIDERMAL growth factor receptors

Abstract

Conditional activation of engineered affinity proteins by proteolytic processing is an interesting approach for a wide range of applications. We have generated an anti-idiotypic masking domain with specificity for the binding surface of an EGFR-targeting affibody molecule using an in-house developed staphylococcal display method. The masking domain could specifically abrogate EGFR-binding on cancer cells when fused to the EGFR-targeting affibody molecule via a linker comprising a protease cleavage site. EGFR-binding was restored by proteolytic cleavage of the linker region resulting in release of the masking domain. A saturation mutagenesis study provided detailed information on the interaction between the EGFR-targeting affibody molecule and the masking domain. Introducing an anti-idiotypic masking affibody domain is a viable approach for blocking EGFR-binding and allows for conditional activation by proteolytic processing. The results warrant further studies evaluating the therapeutic and diagnostic applicability both in vitro and in vivo. • Development of a specific protein-based masking domain for EGFR binding. • Engineering and evaluation of a protease activated EGFR-specific affibody molecule. • Generation of an anti-idiotypic masking domain using directed evolution by bacterial display. [ABSTRACT FROM AUTHOR]

Published

2023

15. Comparison of HER2-targeted affibody conjugates loaded with auristatin- and maytansine-derived drugs.

Author

Yin, Wen, Xu, Tianqi, Ding, Haozhong, Zhang, Jie, Bodenko, Vitalina, Tretyakova, Maria S., Belousov, Mikhail V., Liu, Yongsheng, Oroujeni, Maryam, Orlova, Anna, Tolmachev, Vladimir, Gräslund, Torbjörn, and Vorobyeva, Anzhelika

Subjects

*ALBUMINS, *DRUGS

Abstract

Treatment with antibody drug conjugates targeting receptors over-expressed on cancer cells is well established for clinical use in several types of cancer, however, resistance often occurs motivating the development of novel drugs. We have recently investigated a drug conjugate consisting of an affibody molecule targeting the human epidermal growth factor receptor 2 (HER2), fused to an albumin-binding domain (ABD) for half-life extension, loaded with the cytotoxic maytansine derivative DM1. In this study, we investigated the impact of the cytotoxic payload on binding properties, cytotoxicity and biodistribution by comparing DM1 with the auristatins MMAE and MMAF, as part of the drug conjugate. All constructs had specific and high affinity binding to HER2, human and mouse albumins with values in the low- to sub-nM range. Z HER2 -ABD-mcMMAF demonstrated the most potent cytotoxic effect on several HER2-over-expressing cell lines. In an experimental therapy study, the MMAF-based conjugate provided complete tumor regression in 50% of BALB/c nu/nu mice bearing HER2-over-expressing SKOV3 tumors at a 2.9 mg/kg dose, while the same dose of Z HER2 -ABD-mcDM1 provided only a moderate anti-tumor effect. A comparison with the non-targeting Z Taq -ABD-mcMMAF control demonstrated HER2-targeting specificity. In conclusion, a combination of potent cytotoxicity in vitro, with minimal uptake in normal organs in vivo, and efficient delivery to tumors provided a superior anti-tumor effect of Z HER2 -ABD-mcMMAF, while maintaining a favorable toxicity profile with no observed adverse effects. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

16. Evaluation of an Affibody-Based Binder for Imaging of Immune Check-Point Molecule B7-H3.

Author

Oroujeni, Maryam, Bezverkhniaia, Ekaterina A., Xu, Tianqi, Liu, Yongsheng, Plotnikov, Evgenii V., Karlberg, Ida, Ryer, Eva, Orlova, Anna, Tolmachev, Vladimir, and Frejd, Fredrik Y.

Subjects

*AMINO acid sequence, *MEMBRANE proteins, *DRUG target, *MOLECULES, *TETRACYCLINES

Abstract

Radionuclide molecular imaging could provide an accurate assessment of the expression of molecular targets in disseminated cancers enabling stratification of patients for specific therapies. B7-H3 (CD276) is a transmembrane protein belonging to the B7 superfamily. This protein is overexpressed in different types of human malignancies and such upregulation is generally associated with a poor clinical prognosis. In this study, targeting properties of an Affibody-based probe, AC12, containing a -GGGC amino acid sequence as a chelator (designated as AC12-GGGC) labelled with technetium-99m (99mTc) were evaluated for imaging of B7-H3-expressing tumours. AC12-GGGC was efficiently labelled with 99mTc. [99mTc]Tc-AC12-GGGC bound specifically to B7-H3 expressing cells in vitro with affinities in nanomolar range. In mice bearing B7-H3-expressing xenografts, [99mTc]Tc-AC12-GGGC showed tumour uptake of 2.1 ± 0.5 %ID/g at 2 h after injection. Its clearance from blood, normal organs and tissues was very rapid. This new targeting agent, [99mTc]Tc-AC12-GGGC, provided high tumour-to-blood ratio already at 2 h (8.2 ± 1.9), which increased to 11.0 ± 0.5 at 4 h after injection. Significantly (p < 0.05) higher tumour-to-liver and higher tumour-to-bone ratios at 2 h in comparison with 4 h after injection were observed. Thus, [99mTc]Tc-AC12-GGGC could be a promising candidate for further development. [ABSTRACT FROM AUTHOR]

Published

2022

17. Directing ricin-based immunotoxins with targeting affibodies and KDEL signal peptide to cancer cells effectively induces apoptosis and tumor suppression.

Author

Park, Seong Guk, Kim, Heeyeon, Jun, Heejin, Choi, Sun Young, Kim, Eunhee, and Kang, Sebyung

Subjects

*RICIN, *PEPTIDES, *ANTIBODY-toxin conjugates, *PLANT toxins, *TUMOR markers, *TUMOR growth, *CANCER cells

Abstract

The plant toxin ricin, especially its cytotoxic A chain (RTA), can be genetically engineered with targeting ligands to develop specific anti-cancer recombinant immunotoxins (RITs). Here, we used affibody molecules targeting two cancer biomarkers, the receptors HER2 and EGFR, along with the KDEL signal peptide to construct two cancer-specific ricin-based RITs, HER2Afb-RTA-KDEL and EGFRAfb-RTA-KDEL. The affibodies successfully provided target-specificity and subsequent receptor-mediated endocytosis and the KDEL signal peptide routed the RITs through the retrograde transport pathway, effectively delivering RTA to the cytosol as well as avoiding the alternate recycling pathway that typical cancer cells frequently have. The in vivo efficacy of RITs was enhanced by introducing the albumin binding domain (AlBD) to construct AlBD/HER2Afb/RTA-KDEL. Systemic administration of AlBD-containing RITs to tumor-bearing mice significantly suppressed tumor growth without any noticeable side-effects. Collectively, combining target-selective affibody molecules, a cytotoxic RTA, and an intracellularly designating peptide, we successfully developed cancer-specific and efficacious ricin-based RITs. This approach can be applied to develop novel protein-based "magic bullets" to effectively suppress tumors that are resistant to conventional anti-cancer drugs. [ABSTRACT FROM AUTHOR]

Published

2022

18. Targeting Tumor Cells Overexpressing the Human Epidermal Growth Factor Receptor 3 with Potent Drug Conjugates Based on Affibody Molecules.

Author

Rinne, Sara S., Yin, Wen, Borras, Anna Mestre, Abouzayed, Ayman, Leitao, Charles Dahlsson, Vorobyeva, Anzhelika, Löfblom, John, Ståhl, Stefan, Orlova, Anna, and Gräslund, Torbjörn

Subjects

EPIDERMAL growth factor receptors, GROWTH factors, TUBULINS, GENETIC overexpression

Abstract

Increasing evidence suggests that therapy targeting the human epidermal growth factor receptor 3 (HER3) could be a viable route for targeted cancer therapy. Here, we studied a novel drug conjugate, ZHER3-ABD-mcDM1, consisting of a HER3-targeting affibody molecule, coupled to the cytotoxic tubulin polymerization inhibitor DM1, and an albumin-binding domain for in vivo half-life extension. ZHER3-ABD-mcDM1 showed a strong affinity to the extracellular domain of HER3 (KD 6 nM), and an even stronger affinity (KD 0.2 nM) to the HER3-overexpressing pancreatic carcinoma cell line, BxPC-3. The drug conjugate showed a potent cytotoxic effect on BxPC-3 cells with an IC50 value of 7 nM. Evaluation of a radiolabeled version, [99mTc]Tc-ZHER3-ABD-mcDM1, showed a relatively high rate of internalization, with a 27% internalized fraction after 8 h. Further in vivo evaluation showed that it could target BxPC-3 (pancreatic carcinoma) and DU145 (prostate carcinoma) xenografts in mice, with an uptake peaking at 6.3 ± 0.4% IA/g at 6 h post-injection for the BxPC-3 xenografts. The general biodistribution showed uptake in the liver, lung, salivary gland, stomach, and small intestine, organs known to express murine ErbB3 naturally. The results from the study show that ZHER3-ABD-mcDM1 is a highly potent and selective drug conjugate with the ability to specifically target HER3 overexpressing cells. Further pre-clinical and clinical development is discussed. [ABSTRACT FROM AUTHOR]

Published

2022

19. Experimental Therapy of HER2-Expressing Xenografts Using the Second-Generation HER2-Targeting Affibody Molecule 188 Re-ZHER2:41071.

Author

Liu, Yongsheng, Vorobyeva, Anzhelika, Orlova, Anna, Konijnenberg, Mark W., Xu, Tianqi, Bragina, Olga, Loftenius, Annika, Rosander, Erica, Frejd, Fredrik Y., and Tolmachev, Vladimir

Subjects

*SMALL molecules, *XENOGRAFTS, *BREAST, *RADIOLABELING, *MOLECULES, *NEPHROTOXICOLOGY

Abstract

HER2-targeted radionuclide therapy might be helpful for the treatment of breast, gastric, and ovarian cancers which have developed resistance to antibody and antibody-drug conjugate-based therapies despite preserved high HER2-expression. Affibody molecules are small targeting proteins based on a non-immunoglobulin scaffold. The goal of this study was to test in an animal model a hypothesis that the second-generation HER2-targeting Affibody molecule 188Re-ZHER2:41071 might be useful for treatment of HER2-expressing malignant tumors. ZHER2:41071 was efficiently labeled with a beta-emitting radionuclide rhenium-188 (188Re). 188Re-ZHER2:41071 demonstrated preserved specificity and high affinity (KD = 5 ± 3 pM) of binding to HER2-expressing cells. In vivo studies demonstrated rapid washout of 188Re from kidneys. The uptake in HER2-expressing SKOV-3 xenografts was HER2-specific and significantly exceeded the renal uptake 4 h after injection and later. The median survival of mice, which were treated by three injections of 16 MBq 188Re-ZHER2:41071 was 68 days, which was significantly longer (<0.0001 in the log-rank Mantel-Cox test) than survival of mice in the control groups treated with vehicle (29 days) or unlabeled ZHER2:41071 (27.5 days). In conclusion, the experimental radionuclide therapy using 188Re-ZHER2:41071 enabled enhancement of survival of mice with human tumors without toxicity to the kidneys, which is the critical organ. [ABSTRACT FROM AUTHOR]

Published

2022

20. Effect of Inter-Domain Linker Composition on Biodistribution of ABD-Fused Affibody-Drug Conjugates Targeting HER2.

Author

Xu, Tianqi, Zhang, Jie, Oroujeni, Maryam, Tretyakova, Maria S., Bodenko, Vitalina, Belousov, Mikhail V., Orlova, Anna, Tolmachev, Vladimir, Vorobyeva, Anzhelika, and Gräslund, Torbjörn

Subjects

*BLOOD proteins, *EPIDERMAL growth factor receptors, *SERUM albumin, *ANTINEOPLASTIC agents

Abstract

Targeted drug conjugates based on Affibody molecules fused to an albumin-binding domain (ABD) for half-life extension have demonstrated potent anti-tumor activity in preclinical therapeutic studies. Furthermore, optimization of their molecular design might increase the cytotoxic effect on tumors and minimize systemic toxicity. This study aimed to investigate the influence of length and composition of a linker between the human epidermal growth factor receptor 2 (HER2)-targeted affibody molecule (ZHER2:2891) and the ABD domain on functionality and biodistribution of affibody-drug conjugates containing a microtubulin inhibitor mertansin (mcDM1) (AffiDCs). Two conjugates, having a trimeric (S3G)3 linker or a trimeric (G3S)3 linker were produced, radiolabeled with 99mTc(CO)3, and compared side-by-side in vitro and in vivo with the original ZHER2:2891-G4S-ABD-mcDM1 conjugate having a monomeric G4S linker. Both conjugates with longer linkers had a decreased affinity to HER2 and mouse and human serum albumin in vitro, however, no differences in blood retention were observed in NMRI mice up to 24 h post injection. The use of both (S3G)3 and (G3S)3 linkers reduced liver uptake of AffiDCs by approximately 1.2-fold compared with the use of a G4S linker. This finding provides important insights into the molecular design for the development of targeted drug conjugates with reduced hepatic uptake. [ABSTRACT FROM AUTHOR]

Published

2022

21. Inhibition of IL17A Using an Affibody Molecule Attenuates Inflammation in ApoE-Deficient Mice

Author

Ashok Kumar Kumawat, Mulugeta M. Zegeye, Geena Varghese Paramel, Roland Baumgartner, Anton Gisterå, Obed Amegavie, Sanna Hellberg, Hong Jin, April S. Caravaca, Leif Å. Söderström, Lindvi Gudmundsdotter, Fredrik Y. Frejd, Liza U. Ljungberg, Peder S. Olofsson, Daniel F. J. Ketelhuth, and Allan Sirsjö

Subjects

CXCL1, Affibody molecule, atherosclerosis, apolipoprotein E-deficient (ApoE−/−) mice, human aortic smooth muscle cells, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

The balance between pro- and anti-inflammatory cytokines released by immune and non-immune cells plays a decisive role in the progression of atherosclerosis. Interleukin (IL)-17A has been shown to accelerate atherosclerosis. In this study, we investigated the effect on pro-inflammatory mediators and atherosclerosis development of an Affibody molecule that targets IL17A. Affibody molecule neutralizing IL17A, or sham were administered in vitro to human aortic smooth muscle cells (HAoSMCs) and murine NIH/3T3 fibroblasts and in vivo to atherosclerosis-prone, hyperlipidaemic ApoE−/− mice. Levels of mediators of inflammation and development of atherosclerosis were compared between treatments. Exposure of human smooth muscle cells and murine NIH/3T3 fibroblasts in vitro to αIL-17A Affibody molecule markedly reduced IL6 and CXCL1 release in supernatants compared with sham exposure. Treatment of ApoE−/− mice with αIL-17A Affibody molecule significantly reduced plasma protein levels of CXCL1, CCL2, CCL3, HGF, PDGFB, MAP2K6, QDPR, and splenocyte mRNA levels of Ccxl1, Il6, and Ccl20 compared with sham exposure. There was no significant difference in atherosclerosis burden between the groups. In conclusion, administration of αIL17A Affibody molecule reduced levels of pro-inflammatory mediators and attenuated inflammation in ApoE−/− mice.

Published

2022

22. Biologic Evaluation of a Heterodimeric HER2-Albumin Targeted Affibody Molecule Produced by Chemo-Enzymatic Peptide Synthesis

Author

Yongsheng Liu, Rezan Güler, Yunqi Liao, Anzhelika Vorobyeva, Olof Widmark, Theodorus J. Meuleman, Anna Koijen, Leendert J. van den Bos, Robert Naasz, Vitalina Bodenko, Anna Orlova, Caroline Ekblad, Vladimir Tolmachev, and Fredrik Y. Frejd

Subjects

Affibody molecule, albumin binding domain (ABD), peptide synthesis, enzymatic ligation, scaffold protein, radionuclide therapy, Pharmacy and materia medica, RS1-441

Abstract

Targeted molecular radiation therapy is a promising emerging treatment modality in oncology, and peptide synthesis may shorten the time to reach the clinical stage. In this study, we have explored Chemo-Enzymatic Peptide Synthesis, or CEPS, as a new means of producing a therapeutic HER2 targeted Affibody® molecule, comprising a C-terminal albumin binding domain (ABD) for half-life extension and a total length of 108 amino acids. In addition, a DOTA moiety could be incorporated at N-terminus directly during the synthesis step and subsequently utilized for site-specific radiolabeling with the therapeutic radionuclide 177Lu. Retained thermodynamic stability as well as retained binding to both HER2 and albumin was verified. Furthermore, HER2 binding specificity of the radiolabeled Affibody molecule was confirmed by an in vitro saturation assay showing a significantly higher cell-bound activity of SKOV-3 (high HER2 expression) compared with BxPC3 (low HER2 expression), both in the presence and absence of HSA. In vivo evaluation in mice bearing HER2 expressing xenografts also showed specific tumor targeting as well as extended time in circulation and reduced kidney uptake compared with a HER2 targeted Affibody molecule without the ABD moiety. To conclude, we have demonstrated that CEPS can be used for production of Affibody-fusion molecules with retained in vitro and in vivo functionality.

Published

2022

23. Evaluation of an Affibody-Based Binder for Imaging of Immune Check-Point Molecule B7-H3

Author

Maryam Oroujeni, Ekaterina A. Bezverkhniaia, Tianqi Xu, Yongsheng Liu, Evgenii V. Plotnikov, Ida Karlberg, Eva Ryer, Anna Orlova, Vladimir Tolmachev, and Fredrik Y. Frejd

Subjects

B7-H3, affibody molecule, technetium-99m (99mTc), AC12-GGGC, SKOV-3 xenograft, SPECT/CT imaging, Pharmacy and materia medica, RS1-441

Abstract

Radionuclide molecular imaging could provide an accurate assessment of the expression of molecular targets in disseminated cancers enabling stratification of patients for specific therapies. B7-H3 (CD276) is a transmembrane protein belonging to the B7 superfamily. This protein is overexpressed in different types of human malignancies and such upregulation is generally associated with a poor clinical prognosis. In this study, targeting properties of an Affibody-based probe, AC12, containing a -GGGC amino acid sequence as a chelator (designated as AC12-GGGC) labelled with technetium-99m (99mTc) were evaluated for imaging of B7-H3-expressing tumours. AC12-GGGC was efficiently labelled with 99mTc. [99mTc]Tc-AC12-GGGC bound specifically to B7-H3 expressing cells in vitro with affinities in nanomolar range. In mice bearing B7-H3-expressing xenografts, [99mTc]Tc-AC12-GGGC showed tumour uptake of 2.1 ± 0.5 %ID/g at 2 h after injection. Its clearance from blood, normal organs and tissues was very rapid. This new targeting agent, [99mTc]Tc-AC12-GGGC, provided high tumour-to-blood ratio already at 2 h (8.2 ± 1.9), which increased to 11.0 ± 0.5 at 4 h after injection. Significantly (p < 0.05) higher tumour-to-liver and higher tumour-to-bone ratios at 2 h in comparison with 4 h after injection were observed. Thus, [99mTc]Tc-AC12-GGGC could be a promising candidate for further development.

Published

2022

24. Targeting Tumor Cells Overexpressing the Human Epidermal Growth Factor Receptor 3 with Potent Drug Conjugates Based on Affibody Molecules

Author

Sara S. Rinne, Wen Yin, Anna Mestre Borras, Ayman Abouzayed, Charles Dahlsson Leitao, Anzhelika Vorobyeva, John Löfblom, Stefan Ståhl, Anna Orlova, and Torbjörn Gräslund

Subjects

affibody molecule, human epidermal growth factor receptor 3 (HER3), BxPC-3, emtansine, DM1, albumin binding domain, Biology (General), QH301-705.5

Abstract

Increasing evidence suggests that therapy targeting the human epidermal growth factor receptor 3 (HER3) could be a viable route for targeted cancer therapy. Here, we studied a novel drug conjugate, ZHER3-ABD-mcDM1, consisting of a HER3-targeting affibody molecule, coupled to the cytotoxic tubulin polymerization inhibitor DM1, and an albumin-binding domain for in vivo half-life extension. ZHER3-ABD-mcDM1 showed a strong affinity to the extracellular domain of HER3 (KD 6 nM), and an even stronger affinity (KD 0.2 nM) to the HER3-overexpressing pancreatic carcinoma cell line, BxPC-3. The drug conjugate showed a potent cytotoxic effect on BxPC-3 cells with an IC50 value of 7 nM. Evaluation of a radiolabeled version, [99mTc]Tc-ZHER3-ABD-mcDM1, showed a relatively high rate of internalization, with a 27% internalized fraction after 8 h. Further in vivo evaluation showed that it could target BxPC-3 (pancreatic carcinoma) and DU145 (prostate carcinoma) xenografts in mice, with an uptake peaking at 6.3 ± 0.4% IA/g at 6 h post-injection for the BxPC-3 xenografts. The general biodistribution showed uptake in the liver, lung, salivary gland, stomach, and small intestine, organs known to express murine ErbB3 naturally. The results from the study show that ZHER3-ABD-mcDM1 is a highly potent and selective drug conjugate with the ability to specifically target HER3 overexpressing cells. Further pre-clinical and clinical development is discussed.

Published

2022

25. Experimental Therapy of HER2-Expressing Xenografts Using the Second-Generation HER2-Targeting Affibody Molecule 188Re-ZHER2:41071

Author

Yongsheng Liu, Anzhelika Vorobyeva, Anna Orlova, Mark W. Konijnenberg, Tianqi Xu, Olga Bragina, Annika Loftenius, Erica Rosander, Fredrik Y. Frejd, and Vladimir Tolmachev

Subjects

HER2, radionuclide therapy, affibody molecule, rhenium-188, second-generation scaffold, Pharmacy and materia medica, RS1-441

Abstract

HER2-targeted radionuclide therapy might be helpful for the treatment of breast, gastric, and ovarian cancers which have developed resistance to antibody and antibody-drug conjugate-based therapies despite preserved high HER2-expression. Affibody molecules are small targeting proteins based on a non-immunoglobulin scaffold. The goal of this study was to test in an animal model a hypothesis that the second-generation HER2-targeting Affibody molecule 188Re-ZHER2:41071 might be useful for treatment of HER2-expressing malignant tumors. ZHER2:41071 was efficiently labeled with a beta-emitting radionuclide rhenium-188 (188Re). 188Re-ZHER2:41071 demonstrated preserved specificity and high affinity (KD = 5 ± 3 pM) of binding to HER2-expressing cells. In vivo studies demonstrated rapid washout of 188Re from kidneys. The uptake in HER2-expressing SKOV-3 xenografts was HER2-specific and significantly exceeded the renal uptake 4 h after injection and later. The median survival of mice, which were treated by three injections of 16 MBq 188Re-ZHER2:41071 was 68 days, which was significantly longer (188Re-ZHER2:41071 enabled enhancement of survival of mice with human tumors without toxicity to the kidneys, which is the critical organ.

Published

2022

26. Effect of Inter-Domain Linker Composition on Biodistribution of ABD-Fused Affibody-Drug Conjugates Targeting HER2

Author

Tianqi Xu, Jie Zhang, Maryam Oroujeni, Maria S. Tretyakova, Vitalina Bodenko, Mikhail V. Belousov, Anna Orlova, Vladimir Tolmachev, Anzhelika Vorobyeva, and Torbjörn Gräslund

Subjects

affibody molecule, human epidermal growth factor receptor 2, HER2, SKOV3, emtansine, DM1, Pharmacy and materia medica, RS1-441

Abstract

Targeted drug conjugates based on Affibody molecules fused to an albumin-binding domain (ABD) for half-life extension have demonstrated potent anti-tumor activity in preclinical therapeutic studies. Furthermore, optimization of their molecular design might increase the cytotoxic effect on tumors and minimize systemic toxicity. This study aimed to investigate the influence of length and composition of a linker between the human epidermal growth factor receptor 2 (HER2)-targeted affibody molecule (ZHER2:2891) and the ABD domain on functionality and biodistribution of affibody-drug conjugates containing a microtubulin inhibitor mertansin (mcDM1) (AffiDCs). Two conjugates, having a trimeric (S3G)3 linker or a trimeric (G3S)3 linker were produced, radiolabeled with 99mTc(CO)3, and compared side-by-side in vitro and in vivo with the original ZHER2:2891-G4S-ABD-mcDM1 conjugate having a monomeric G4S linker. Both conjugates with longer linkers had a decreased affinity to HER2 and mouse and human serum albumin in vitro, however, no differences in blood retention were observed in NMRI mice up to 24 h post injection. The use of both (S3G)3 and (G3S)3 linkers reduced liver uptake of AffiDCs by approximately 1.2-fold compared with the use of a G4S linker. This finding provides important insights into the molecular design for the development of targeted drug conjugates with reduced hepatic uptake.

Published

2022

27. Evaluation of affinity matured Affibody molecules for imaging of the immune checkpoint protein B7-H3

Author

Oroujeni, Maryam, Bezverkhniaia, Ekaterina A., Xu, Tianqi, Liu, Yongsheng, V. Plotnikov, Evgenii, Klint, Susanne, Ryer, Eva, Karlberg, Ida, Orlova, Anna, Frejd, Fredrik Y., Tolmachev, Vladimir, Oroujeni, Maryam, Bezverkhniaia, Ekaterina A., Xu, Tianqi, Liu, Yongsheng, V. Plotnikov, Evgenii, Klint, Susanne, Ryer, Eva, Karlberg, Ida, Orlova, Anna, Frejd, Fredrik Y., and Tolmachev, Vladimir

Abstract

B7-H3 (CD276), an immune checkpoint protein, is a promising molecular target for immune therapy of malignant tumours. Sufficient B7-H3 expression level is a precondition for successful therapy. Radionuclide molecular imaging is a powerful technique for visualization of expression levels of molecular targets in vivo. Use of small radiolabelled targeting proteins would enable high-contrast radionuclide imaging of molecular targets if adequate binding affinity and specificity of an imaging probe could be provided. Affibody molecules, small engineered affinity proteins based on a non-immunoglobulin scaffold, have demonstrated an appreciable potential in radionuclide imaging. Proof-of principle of radionuclide visualization of expression levels of B7-H3 in vivo was demonstrated using the [99mTc]Tc-AC12-GGGC Affibody molecule. We performed an affinity maturation of AC12, enabling selection of clones with higher affinity. Three most promising clones were expressed with a -GGGC (triglycine-cysteine) chelating sequence at the C-terminus and labelled with technetium-99m (99mTc). 99mTc-labelled conjugates bound to B7-H3-expressing cells specifically in vitro and in vivo. Biodistribution in mice bearing B7-H3-expressing SKOV-3 xenografts demonstrated improved imaging properties of the new conjugates compared with the parental variant [99mTc]Tc-AC12-GGGC. [99mTc]Tc-SYNT-179 provided the strongest improvement of tumour-to-organ ratios. Thus, affinity maturation of B7-H3 Affibody molecules could improve biodistribution and targeting properties for imaging of B7-H3-expressing tumours.

Published

2023

28. Radionuclide Therapy of HER2-Expressing Xenografts Using [Lu-177]Lu-ABY-027 Affibody Molecule Alone and in Combination with Trastuzumab

Author

Liu, Yongsheng, Xu, Tianqi, Vorobyeva, Anzhelika, Loftenius, Annika, Bodenko, Vitalina, Orlova, Anna, Frejd, Fredrik Y., Tolmachev, Vladimir, Liu, Yongsheng, Xu, Tianqi, Vorobyeva, Anzhelika, Loftenius, Annika, Bodenko, Vitalina, Orlova, Anna, Frejd, Fredrik Y., and Tolmachev, Vladimir

Abstract

Affibody molecules are artificial proteins that can recognize cancer-related molecular abnormalities in the living body. Clinical studies demonstrated that Affibody molecules can be successfully used for radionuclide diagnostics. Targeted radionuclide therapy selectively delivers cytotoxic radionuclides to malignant tumors, thus sparing normal tissues. For radionuclide therapy, Affibody molecules were re-engineered to decrease accumulation in the kidneys. This study has demonstrated that radionuclide therapy using re-engineered Affibody molecules increases the survival of immunodeficient mice bearing human tumors. The therapy was more efficient than the treatment with a monoclonal antibody, which is currently used in clinical practice. The best results were obtained when both the antibody and radiolabeled Affibody molecules were used simultaneously. This work provides a preclinical rationale for a potentially more efficient treatment in HER2-positive cancers.ABY-027 is a scaffold-protein-based cancer-targeting agent. ABY-027 includes the second-generation Affibody molecule Z(HER2:2891), which binds to human epidermal growth factor receptor type 2 (HER2). An engineered albumin-binding domain is fused to Z(HER2:2891) to reduce renal uptake and increase bioavailability. The agent can be site-specifically labeled with a beta-emitting radionuclide Lu-177 using a DOTA chelator. The goals of this study were to test the hypotheses that a targeted radionuclide therapy using [Lu-177]Lu-ABY-027 could extend the survival of mice with HER2-expressing human xenografts and that co-treatment with [Lu-177]Lu-ABY-027 and the HER2-targeting antibody trastuzumab could enhance this effect. Balb/C nu/nu mice bearing HER2-expressing SKOV-3 xenografts were used as in vivo models. A pre-injection of trastuzumab did not reduce the uptake of [Lu-177]Lu-ABY-027 in tumors. Mice were treated with [Lu-177]Lu-ABY-027 or trastuzumab as monotherapies and a combination of these therapies. Mice treate

Published

2023

29. Conditionally activated affibody-based prodrug targeting EGFR demonstrates improved tumour selectivity

Author

Leitao, Charles Dahlsson, Borras, Anna Mestre, Xu, Tianqi, Oroujeni, Maryam, Liu, Yongsheng, Westerberg, Cornelia, Clinton, Jacob, Tolmachev, Vladimir, Orlova, Anna, Stahl, Stefan, Vorobyeva, Anzhelika, Lofblom, John, Leitao, Charles Dahlsson, Borras, Anna Mestre, Xu, Tianqi, Oroujeni, Maryam, Liu, Yongsheng, Westerberg, Cornelia, Clinton, Jacob, Tolmachev, Vladimir, Orlova, Anna, Stahl, Stefan, Vorobyeva, Anzhelika, and Lofblom, John

Abstract

Safety and efficacy of cancer-targeting treatments can be improved by conditional activation enabled by the distinct milieu of the tumour microenvironment. Proteases are intricately involved in tumourigenesis and commonly dysregulated with elevated expression and activity. Design of prodrug molecules with protease -dependent activation has the potential to increase tumour-selective targeting while decreasing exposure to healthy tissues, thus improving the safety profile for patients. Higher selectivity could also allow for adminis-tration of higher doses or use of more aggressive treatment options, leading to higher therapeutic efficacy. We have previously developed an affibody-based prodrug with conditional targeting of EGFR conferred by an anti-idiotypic affibody masking domain (ZB05). We could show that binding to endogenous EGFR on cancer cells in vitro was restored following proteolytic removal of ZB05. In this study we evaluate a novel affibody-based pro -drug design, which incorporates a protease substrate sequence recognized by cancer-associated proteases and demonstrate the potential of this approach for selective tumour-targeting and shielded uptake in healthy tissues in vivo using tumour-bearing mice. This may widen the therapeutic index of cytotoxic EGFR-targeted thera-peutics by decreasing side effects, improving selectivity of drug delivery, and enabling the use of more potent cytotoxic drugs.

Published

2023

30. Targeting Human Epidermal Growth Factor Receptors with Drug Conjugates Based on Affibody Molecules

Author

Zhang, Jie and Zhang, Jie

Abstract

Cancer is a major public health challenge and the second leading cause of death in the world, with millions of new cases being diagnosed each year. Traditional cancer treatments such as surgery, radiation therapy, and chemotherapy are many times effective, but may also cause damage to healthy cells, leading to side effects. Targeted therapy is a more precise and focused approach to cancer treatment, where the aim is to target the cancer cells while leaving the normal cells unaffected. It is particularly effective in cancers where specific molecular targets are known, such as the subset of breast cancer patients with HER2 over-expression or in the subset of patients with pancreatic cancer with HER3 over-expression. Antibody-drug conjugates (ADCs) are an important addition to tumor-targeted therapy, with twelve drugs approved for clinical use by the FDA. They utilize the high specificity of monoclonal antibodies conjugated with highly cytotoxic small molecules to enhance the accumulation of the drugs in the tumor, for highly specific and efficient killing. However, traditional ADCs may not be the optimal delivery format for the directed delivery of cytotoxic drugs. They are limited by their relatively large molecular weights, resulting in relatively low penetration of solid tumors. Recently, a novel type of drug conjugates, affibody-drug conjugates, has been described. These combined an engineered scaffold affinity protein, an affibody molecule, with an albumin binding domain (ABD) for half-life extension, to which a cytotoxic payload has been conjugated. Previous studies show that these novel drug conjugates have a potent and tumor-cell-specific cytotoxic effect. In the future, they may therefore become complementary or alternatives to current targeted cancer therapies. This thesis focuses on the optimization of affibody-drug conjugates targeting HER2 and HER3, members of the human epidermal growth factor receptor family. The thesis presents in vitro and in vivo p, Cancer är en stor folkhälsoutmaning och den näst vanligaste dödsorsaken i världen, med miljontals nya fall som diagnostiseras varje år. Traditionella cancerbehandlingar som kirurgi, strålbehandling och kemoterapi är många gånger effektiva, men kan också orsaka skador på friska celler, vilket leder till biverkningar. Riktad terapi är ett mer exakt och fokuserat tillvägagångssätt för cancerbehandling, där syftet är att rikta in sig på cancercellerna samtidigt som de normala cellerna lämnas opåverkade. Det är särskilt effektivt vid cancer där specifika molekylära mål är kända, såsom undergruppen av bröstcancerpatienter med HER2-överuttryck eller i undergruppen patienter med pankreascancer med HER3-överuttryck. Antikroppsläkemedelskonjugat (ADC) är en viktig typ av tumörriktad terapi, med tolv läkemedel godkända för klinisk användning av FDA. De utnyttjar den höga specificiteten hos monoklonala antikroppar och är konjugerade med mycket cytotoxiska läkemedel för att öka ackumuleringen av läkemedlen i tumören, för mycket specifikt och effektivt dödande. Traditionella ADC:er är dock kanske inte det optimala formatet för riktad leverans av cellgifter. De begränsas av sina relativt höga molekylvikter, vilket resulterar i relativt låg penetration av solida tumörer. Nyligen har en ny typ av läkemedelskonjugat, affibody-läkemedelskonjugat, beskrivits. Dessa kombinerade ett designat bindarprotein, en affibodymolekyl, med en albuminbindande domän (ABD) för förlängning av halveringstiden, till vilken ett cytotoxiskt läkemedel har konjugerats. Tidigare studier visar att dessa nya läkemedelskonjugat har en potent och tumörcellspecifik cytotoxisk effekt. I framtiden kan de därför bli komplementära eller alternativ till nuvarande riktade cancerterapier. Denna avhandling fokuserar på optimering av affibody-läkemedelskonjugat riktade mot HER2 och HER3, medlemmar av ”human epidermal growth factor receptor” familjen”., QC 2023-08-28

Published

2023

31. The Influence of Domain Permutations of an Albumin-Binding Domain-Fused HER2-Targeting Affibody-Based Drug Conjugate on Tumor Cell Proliferation and Therapy Efficacy

Author

Wen Yin, Tianqi Xu, Mohamed Altai, Maryam Oroujeni, Jie Zhang, Anzhelika Vorobyeva, Olga Vorontsova, Sergey V. Vtorushin, Vladimir Tolmachev, Torbjörn Gräslund, and Anna Orlova

Subjects

HER2, affibody molecule, albumin-binding domain, drug conjugate, targeted therapy, mertansine, Pharmacy and materia medica, RS1-441

Abstract

Human epidermal growth factor receptor 2 (HER2) is a clinically validated target for breast cancer therapy. Previously, a drug-fused HER2-targeting affinity protein construct successfully extended the survival of mice bearing HER2-expressing xenografts. The aim of this study was to evaluate the influence of the number and positioning of the protein domains in the drug conjugate. Seven HER2-targeting affibody-based constructs, including one or two affibody molecules (Z) with or without an albumin-binding domain (ABD), namely Z, Z-ABD, ABD-Z, Z-Z, Z-Z-ABD, Z-ABD-Z, and ABD-Z-Z, were evaluated on their effects on cell growth, in vivo targeting, and biodistribution. The biodistribution study demonstrated that the monomeric constructs had longer blood retention and lower hepatic uptake than the dimeric ones. A dimeric construct, specifically ABD-Z-Z, could stimulate the proliferation of HER2 expressing SKOV-3 cells in vitro and the growth of tumors in vivo, whereas the monomeric construct Z-ABD could not. These two constructs demonstrated a therapeutic effect when coupled to mcDM1; however, the effect was more pronounced for the non-stimulating Z-ABD. The median survival of the mice treated with Z-ABD-mcDM1 was 63 days compared to the 37 days for those treated with ABD-Z-Z-mcDM1 or for the control animals. Domain permutation of an ABD-fused HER2-targeting affibody-based drug conjugate significantly influences tumor cell proliferation and therapy efficacy. The monomeric conjugate Z-ABD is the most promising format for targeted delivery of the cytotoxic drug DM1.

Published

2021

32. Affibody-Mediated Sequestration of Amyloid β Demonstrates Preventive Efficacy in a Transgenic Alzheimer’s Disease Mouse Model

Author

Allal Boutajangout, Hanna Lindberg, Abdulaziz Awwad, Arun Paul, Rabaa Baitalmal, Ismail Almokyad, Ingmarie Höidén-Guthenberg, Elin Gunneriusson, Fredrik Y. Frejd, Torleif Härd, John Löfblom, Stefan Ståhl, and Thomas Wisniewski

Subjects

Alzheimer’s disease, affibody molecule, amyloid beta (Aβ), behavior, histology, immunotherapy, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Different strategies for treatment and prevention of Alzheimer’s disease (AD) are currently under investigation, including passive immunization with anti-amyloid β (anti-Aβ) monoclonal antibodies (mAbs). Here, we investigate the therapeutic potential of a novel type of Aβ-targeting agent based on an affibody molecule with fundamentally different properties to mAbs. We generated a therapeutic candidate, denoted ZSYM73-albumin-binding domain (ABD; 16.8 kDa), by genetic linkage of the dimeric ZSYM73 affibody for sequestering of monomeric Aβ-peptides and an ABD for extension of its in vivo half-life. Amyloid precursor protein (APP)/PS1 transgenic AD mice were administered with ZSYM73-ABD, followed by behavioral examination and immunohistochemistry. Results demonstrated rescued cognitive functions and significantly lower amyloid burden in the treated animals compared to controls. No toxicological symptoms or immunology-related side-effects were observed. To our knowledge, this is the first reported in vivo investigation of a systemically delivered scaffold protein against monomeric Aβ, demonstrating a therapeutic potential for prevention of AD.

Published

2019

33. Immuno-PET Imaging of Tumour PD-L1 Expression in Glioblastoma

Author

Kramer-Marek, Gitanjali Sharma, Marta C. Braga, Chiara Da Pieve, Wojciech Szopa, Tatjana Starzetz, Karl H. Plate, Wojciech Kaspera, and Gabriela

Subjects

immuno-PET, PD-L1, glioblastoma, affibody molecule

Abstract

There is no established method to assess the PD-L1 expression in brain tumours. Therefore, we investigated the suitability of affibody molecule (ZPD-L1) radiolabelled with F-18 (Al18F) and Ga-68 to measure the expression of PD-L1 in xenograft mouse models of GBM. Mice bearing subcutaneous and orthotopic tumours were imaged 1 h post-radioconjugate administration. Ex vivo biodistribution studies and immunohistochemistry (IHC) staining were performed. Tumoural PD-L1 expression and CD4+/CD8+ tumour-infiltrating lymphocytes were evaluated in human GBM specimens. ZPD-L1 was radiolabelled with radiochemical yields of 32.2 ± 4.4% (F-18) and 73.3 ± 1.8% (Ga-68). The cell-associated radioactivity in vitro was consistent with PD-L1 expression levels assessed with flow cytometry. In vivo imaging demonstrated that 18F-AlF-NOTA-ZPD-L1 can distinguish between PD-L1 high-expressing tumours (U87-MGvIII) and PD-L1-negative ones (H292PD-L1Ko). The radioconjugate was quickly cleared from the blood and normal tissues, allowing for high-contrast images of brain tumours as early as 1 h post-injection. 68Ga-NOTA-ZPD-L1 showed heterogeneous and diffuse accumulation that corresponded to the extensively infiltrating GCGR-E55 tumours involving contiguous lobes of the brain. Lastly, 39% of analysed GBM patient samples showed PD-L1+ staining of tumour cells that was associated with elevated levels of CD4+ and CD8+ lymphocytes. Our results suggest that the investigated radioconjugates are very promising agents with the potential to facilitate the future design of treatment regimens for GBM patients.

Published

2023

34. 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

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

Subjects

affibody molecule, albumin binding domain (ABD), 177Lu, scaffold protein, radionuclide therapy, SKOV-3 xenograft, Pharmacy and materia medica, RS1-441

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

35. Dynamics of Regional Lung Inflammation: New Questions and Answers Using PET

Author

Batista Borges, J., Hedenstierna, G., Suarez-Sipmann, F., and Vincent, Jean-Louis, editor

Published

2014

36. Engineering in Translational Medicine: An Introduction

Author

Cai, Weibo and Cai, Weibo, editor

Published

2014

37. Affibody-Mediated Sequestration of Amyloid β Demonstrates Preventive Efficacy in a Transgenic Alzheimer's Disease Mouse Model.

Author

Boutajangout, Allal, Lindberg, Hanna, Awwad, Abdulaziz, Paul, Arun, Baitalmal, Rabaa, Almokyad, Ismail, Höidén-Guthenberg, Ingmarie, Gunneriusson, Elin, Frejd, Fredrik Y., Härd, Torleif, Löfblom, John, Ståhl, Stefan, and Wisniewski, Thomas

Subjects

SEQUESTRATION (Chemistry), DRUG efficacy, ALBUMINS, SCAFFOLD proteins, IMMUNOTHERAPY

Abstract

Different strategies for treatment and prevention of Alzheimer's disease (AD) are currently under investigation, including passive immunization with anti-amyloid β (anti-Aβ) monoclonal antibodies (mAbs). Here, we investigate the therapeutic potential of a novel type of Aβ-targeting agent based on an affibody molecule with fundamentally different properties to mAbs. We generated a therapeutic candidate, denoted ZSYM73-albumin-binding domain (ABD; 16.8 kDa), by genetic linkage of the dimeric ZSYM73 affibody for sequestering of monomeric Aβ-peptides and an ABD for extension of its in vivo half-life. Amyloid precursor protein (APP)/PS1 transgenic AD mice were administered with ZSYM73-ABD, followed by behavioral examination and immunohistochemistry. Results demonstrated rescued cognitive functions and significantly lower amyloid burden in the treated animals compared to controls. No toxicological symptoms or immunology-related side-effects were observed. To our knowledge, this is the first reported in vivo investigation of a systemically delivered scaffold protein against monomeric Aβ, demonstrating a therapeutic potential for prevention of AD. [ABSTRACT FROM AUTHOR]

Published

2019

38. Affibody-Derived Drug Conjugates Targeting HER2: Effect of Drug Load on Cytotoxicity and Biodistribution

Author

Haozhong Ding, Tianqi Xu, Jie Zhang, Vladimir Tolmachev, Maryam Oroujeni, Anna Orlova, Torbjörn Gräslund, and Anzhelika Vorobyeva

Subjects

affibody molecule, human epidermal growth factor receptor 2, HER2, emtansine, DM1, albumin binding domain, Pharmacy and materia medica, RS1-441

Abstract

Affibody molecules hold great promise as carriers of cytotoxic drugs for cancer therapy due to their typically high affinity, easy production, and inherent control of the drug molecules’ loading and spatial arrangement. Here, the impact of increasing the drug load from one to three on the properties of an affibody drug conjugate targeting the human epidermal growth factor receptor 2 (HER2) was investigated. The affibody carrier was recombinantly expressed as a fusion to an albumin-binding domain (ABD) for plasma half-life extension. One or three cysteine amino acids were placed at the C-terminus to which cytotoxic mcDM1 molecules were conjugated. The resulting drug conjugates, ZHER2–ABD–mcDM1 and ZHER2–ABD–mcDM13, were characterized in vitro, and their biodistribution in mice carrying HER2-overexpressing SKOV3 xenografts was determined. Increasing the drug load from one to three led to a decrease in affinity for HER2, but a significantly more potent cytotoxic effect on SKOV3 cells with high HER2 expression. The difference in cytotoxic effect on other cell lines with high HER2 expression was not significant. In vivo, an increase in drug load led to a 1.45-fold higher amount of cytotoxic mcDM1 delivered to the tumors. The increase in drug load also led to more rapid hepatic clearance, warranting further optimization of the molecular design.

Published

2021

39. The Use of a Non-Conventional Long-Lived Gallium Radioisotope 66Ga Improves Imaging Contrast of EGFR Expression in Malignant Tumours Using DFO-ZEGFR:2377 Affibody Molecule

Author

Maryam Oroujeni, Tianqi Xu, Katherine Gagnon, Sara S. Rinne, Jan Weis, Javad Garousi, Ken G. Andersson, John Löfblom, Anna Orlova, and Vladimir Tolmachev

Subjects

epidermal growth factor receptor, affibody molecule, PET imaging, gallium-66, ZEGFR:2377, A431 xenograft, Pharmacy and materia medica, RS1-441

Abstract

Epidermal growth factor receptor (EGFR) is overexpressed in many malignancies. EGFR-targeted therapy extends survival of patients with disseminated cancers. Radionuclide molecular imaging of EGFR expression would make EGFR-directed treatment more personalized and therefore more efficient. A previous study demonstrated that affibody molecule [68Ga]Ga-DFO-ZEGFR:2377 permits specific positron-emission tomography (PET) imaging of EGFR expression in xenografts at 3 h after injection. We anticipated that imaging at 24 h after injection would provide higher contrast, but this is prevented by the short half-life of 68Ga (67.6 min). Here, we therefore tested the hypothesis that the use of the non-conventional long-lived positron emitter 66Ga (T1/2 = 9.49 h, β+ = 56.5%) would permit imaging with higher contrast. 66Ga was produced by the 66Zn(p,n)66Ga nuclear reaction and DFO-ZEGFR:2377 was efficiently labelled with 66Ga with preserved binding specificity in vitro and in vivo. At 24 h after injection, [66Ga]Ga-DFO-ZEGFR:2377 provided 3.9-fold higher tumor-to-blood ratio and 2.3-fold higher tumor-to-liver ratio than [68Ga]Ga-DFO-ZEGFR:2377 at 3 h after injection. At the same time point, [66Ga]Ga-DFO-ZEGFR:2377 provided 1.8-fold higher tumor-to-blood ratio, 3-fold higher tumor-to-liver ratio, 1.9-fold higher tumor-to-muscle ratio and 2.3-fold higher tumor-to-bone ratio than [89Zr]Zr-DFO-ZEGFR:2377. Biodistribution data were confirmed by whole body PET combined with magnetic resonance imaging (PET/MRI). The use of the positron emitter 66Ga for labelling of DFO-ZEGFR:2377 permits PET imaging of EGFR expression at 24 h after injection and improves imaging contrast.

Published

2021

40. Radionuclide Therapy of HER2-Expressing Xenografts Using [Lu-177]Lu-ABY-027 Affibody Molecule Alone and in Combination with Trastuzumab

Author

Yongsheng Liu, Tianqi Xu, Anzhelika Vorobyeva, Annika Loftenius, Vitalina Bodenko, Anna Orlova, Fredrik Y. Frejd, and Vladimir Tolmachev

Subjects

Cancer Research, Cancer och onkologi, Oncology, HER2, Cancer and Oncology, lutetium-177, Biochemistry and Molecular Biology, radionuclide therapy, Affibody molecule, Radiologi och bildbehandling, Biokemi och molekylärbiologi, Radiology, Nuclear Medicine and Medical Imaging

Abstract

Affibody molecules are artificial proteins that can recognize cancer-related molecular abnormalities in the living body. Clinical studies demonstrated that Affibody molecules can be successfully used for radionuclide diagnostics. Targeted radionuclide therapy selectively delivers cytotoxic radionuclides to malignant tumors, thus sparing normal tissues. For radionuclide therapy, Affibody molecules were re-engineered to decrease accumulation in the kidneys. This study has demonstrated that radionuclide therapy using re-engineered Affibody molecules increases the survival of immunodeficient mice bearing human tumors. The therapy was more efficient than the treatment with a monoclonal antibody, which is currently used in clinical practice. The best results were obtained when both the antibody and radiolabeled Affibody molecules were used simultaneously. This work provides a preclinical rationale for a potentially more efficient treatment in HER2-positive cancers.ABY-027 is a scaffold-protein-based cancer-targeting agent. ABY-027 includes the second-generation Affibody molecule Z(HER2:2891), which binds to human epidermal growth factor receptor type 2 (HER2). An engineered albumin-binding domain is fused to Z(HER2:2891) to reduce renal uptake and increase bioavailability. The agent can be site-specifically labeled with a beta-emitting radionuclide Lu-177 using a DOTA chelator. The goals of this study were to test the hypotheses that a targeted radionuclide therapy using [Lu-177]Lu-ABY-027 could extend the survival of mice with HER2-expressing human xenografts and that co-treatment with [Lu-177]Lu-ABY-027 and the HER2-targeting antibody trastuzumab could enhance this effect. Balb/C nu/nu mice bearing HER2-expressing SKOV-3 xenografts were used as in vivo models. A pre-injection of trastuzumab did not reduce the uptake of [Lu-177]Lu-ABY-027 in tumors. Mice were treated with [Lu-177]Lu-ABY-027 or trastuzumab as monotherapies and a combination of these therapies. Mice treated with vehicle or unlabeled ABY-027 were used as controls. Targeted monotherapy using [Lu-177]Lu-ABY-027 improved the survival of mice and was more efficient than trastuzumab monotherapy. A combination of therapies utilizing [Lu-177]Lu-ABY-027 and trastuzumab improved the treatment outcome in comparison with monotherapies using these agents. In conclusion, [Lu-177]Lu-ABY-027 alone or in combination with trastuzumab could be a new potential agent for the treatment of HER2-expressing tumors.

Published

2023

41. HER2-Specific Pseudomonas Exotoxin A PE25 Based Fusions: Influence of Targeting Domain on Target Binding, Toxicity, and In Vivo Biodistribution

Author

Haozhong Ding, Mohamed Altai, Wen Yin, Sarah Lindbo, Hao Liu, Javad Garousi, Tianqi Xu, Anna Orlova, Vladimir Tolmachev, Sophia Hober, and Torbjörn Gräslund

Subjects

pseudomonas exotoxin A, affibody molecule, half-life extension, cancer, HER2, Pharmacy and materia medica, RS1-441

Abstract

The human epidermal growth factor receptor 2 (HER2) is a clinically validated target for cancer therapy, and targeted therapies are often used in regimens for patients with a high HER2 expression level. Despite the success of current drugs, a number of patients succumb to their disease, which motivates development of novel drugs with other modes of action. We have previously shown that an albumin binding domain-derived affinity protein with specific affinity for HER2, ADAPT6, can be used to deliver the highly cytotoxic protein domain PE25, a derivative of Pseudomonas exotoxin A, to HER2 overexpressing malignant cells, leading to potent and specific cell killing. In this study we expanded the investigation for an optimal targeting domain and constructed two fusion toxins where a HER2-binding affibody molecule, ZHER2:2891, or the dual-HER2-binding hybrid ZHER2:2891-ADAPT6 were used for cancer cell targeting. We found that both targeting domains conferred strong binding to HER2; both to the purified extracellular domain and to the HER2 overexpressing cell line SKOV3. This resulted in fusion toxins with high cytotoxic potency toward cell lines with high expression levels of HER2, with EC50 values between 10 and 100 pM. For extension of the plasma half-life, an albumin binding domain was also included. Intravenous injection of the fusion toxins into mice showed a profound influence of the targeting domain on biodistribution. Compared to previous results, with ADAPT6 as targeting domain, ZHER2:2891 gave rise to further extension of the plasma half-life and also shifted the clearance route of the fusion toxin from the liver to the kidneys. Collectively, the results show that the targeting domain has a major impact on uptake of PE25-based fusion toxins in different organs. The results also show that PE25-based fusion toxins with high affinity to HER2 do not necessarily increase the cytotoxicity beyond a certain point in affinity. In conclusion, ZHER2:2891 has the most favorable characteristics as targeting domain for PE25.

Published

2020

42. The Potential Affibodies in New Cancer Marker Immunosensors

Author

Ilkhani, Hoda, Mascini, Marco, Marrazza, Giovanna, D’Amico, Arnaldo, editor, Di Natale, Corrado, editor, Mosiello, Lucia, editor, and Zappa, Giovanna, editor

Published

2012

43. Conventional Nuclear Medicine and Hybrid Imaging in Monitoring the Treatment of Skeletal Malignancy

Author

Lu, Suat-Jin, Gnanasegaran, Gopinath, Fogelman, Ignac, Cook, Gary J. R., Fogelman, Ignac, editor, Gnanasegaran, Gopinath, editor, and van der Wall, Hans, editor

Published

2012

44. Identification of a Suitable Untargeted Agent for the Clinical Translation of ABY-029 Paired-Agent Imaging in Fluorescence-Guided Surgery

Author

P. Jack Hoopes, Eunice Y. Chen, Kenneth M. Tichauer, Xiaochun Xu, Cheng Wang, Kimberley S. Samkoe, and Sassan Hodge

Subjects

Cancer Research, medicine.medical_specialty, business.industry, medicine.disease, Head and neck squamous-cell carcinoma, Article, In vitro, Imaging agent, Surgery, Oncology, Pharmacokinetics, In vivo, medicine, Radiology, Nuclear Medicine and imaging, Affibody molecule, Molecular imaging, business, Whole blood

Abstract

PURPOSE: Non-specific uptake and retention of molecular targeted agents and heterogeneous tissue optical properties diminish the ability to differentiate between tumor and normal tissues using molecular targeted fluorescent agents. Paired-agent imaging (PAI) can increase the diagnostic ability to detect tumor tissue by mitigating these non-specific effects and providing true molecular contrast by co-administration of an untargeted control imaging agent with a targeted agent. This study evaluates the suitability of available clinically translatable untargeted agents for the translation of PAI in fluorescence-guided surgery using an affibody-based targeted imaging agent (ABY-029). EXPERIMENTAL: DESIGN: Three untargeted agents that fluoresce near 700 nm and exhibit good clinical safety profiles (methylene blue, IRDye 700DX, and IRDye 680LT) were tested in combination with the clinically tested IRDye 800CW–labeled anti-epidermal growth factor receptor (EGFR) affibody molecule, ABY-029 (eIND 122,681). Properties of the untargeted agent important for human use and integrity of PAI were tested: (1) plasma protein binding; (2) fluorescence signal linearity in in vitro whole blood dilution; (3) in vivo pharmacokinetic matching to targeted agent in negative control tissue; and (4) in vivo diagnostic accuracy of PAI vs single agent imaging (SAI) of ABY-029 alone in orthotopic oral head and neck squamous cell carcinomas. RESULTS: IRDye 680LT outperformed IRDye 700DX and methylene blue with the highest signal linearity (R(2) = 0.9998 ± 0.0002, 0.9995 ± 0.0004, 0.91 ± 0.02, respectively), the highest fluorescence yield in whole blood at 1 μM (10(4.42 ± 0.05), 10(3.68 ± 0.09), 10(1.9 ± 0.2), respectively), and the most closely matched ABY-029 pharmacokinetics in EGFR-negative tissues (binding potential error percentage = 0.31% ± 0.37%, 10.25% ± 1.30%, and 8.10% ± 5.37%, respectively). The diagnostic ability of PAI with ABY-029 and IRDye 680LT outperformed conventional SAI with an area-under-the-receiver-operating-characteristic curve (AUC) value of 0.964 vs. 0.854, and 0.978 vs. 0.925 in the Odyssey scanning system and Pearl wide field imaging system, respectively. CONCLUSION: PAI is a highly promising methodology for increasing detection of tumors in fluorescence-guided surgery. Although not yet clinically approved, IRDye 680LT demonstrates promise as an untargeted agent when paired with ABY-029. The clinical translation of PAI to maximize tumor excision, while minimizing normal tissue removal, could improve both patient survival and life quality.

Published

2021

45. Alternative Scaffolds as Bispecific Antibody Mimetics

Author

Löfblom, John, Frejd, Fredrik Y., and Kontermann, Roland E., editor

Published

2011

46. Affibody-derived drug conjugates: Potent cytotoxic molecules for treatment of HER2 over-expressing tumors.

Author

Altai, Mohamed, Liu, Hao, Ding, Haozhong, Mitran, Bogdan, Edqvist, Per-Henrik, Tolmachev, Vladimir, Orlova, Anna, and Gräslund, Torbjörn

Subjects

*ANTIBODY-drug conjugates, *TUMOR treatment, *ANTINEOPLASTIC agents, *HER2 protein, *MONOMERS

Abstract

Abstract Patients with HER2-positive tumors often suffer resistance to therapy, warranting development of novel treatment modalities. Affibody molecules are small affinity proteins which can be engineered to bind to desired targets. They have in recent years been found to allow precise targeting of cancer specific molecular signatures such as the HER2 receptor. In this study, we have investigated the potential of an affibody molecule targeting HER2, Z HER2:2891 , conjugated with the cytotoxic maytansine derivate MC-DM1, for targeted cancer therapy. Z HER2:2891 was expressed as a monomer (Z HER2:2891), dimer ((Z HER2:2891) 2) and dimer with an albumin binding domain (ABD) for half-life extension ((Z HER2:2891) 2 -ABD). All proteins had a unique C-terminal cysteine that could be used for efficient and site-specific conjugation with MC-DM1. The resulting affibody drug conjugates were potent cytotoxic molecules for human cells over-expressing HER2, with sub-nanomolar IC 50 -values similar to trastuzumab emtansine, and did not affect cells with low HER2 expression. A biodistribution study of a radiolabeled version of (Z HER2:2891) 2 -ABD-MC-DM1, showed that it was taken up by the tumor. The major site of off-target uptake was the kidneys and to some extent the liver. (Z HER2:2891) 2 -ABD-MC-DM1 was found to have a half-life in circulation of 14 h. The compound was tolerated well by mice at 8.5 mg/kg and was shown to extend survival of mice bearing HER2 over-expressing tumors. The findings in this study show that affibody molecules are a promising class of engineered affinity proteins to specifically deliver small molecular drugs to cancer cells and that such conjugates are potential candidates for clinical evaluation on HER2-overexpressing cancers. Graphical abstract Unlabelled Image [ABSTRACT FROM AUTHOR]

Published

2018

47. Preclinical evaluation of 99mTc direct labeling ZHER2:V2 for HER2 positive tumors imaging.

Author

Yang, Yang, Zhao, Xinming, Xing, Yu, Yu, Tianying, Zhang, Jingmian, and Wang, Jianfang

Subjects

*HER2 protein, *TUMOR diagnosis, *RF values (Chromatography), *COMPUTED tomography, *XENOGRAFTS

Abstract

The present study aimed to label ZHER2:V2 with technetium‑99m (99mTc) using a simple method and to evaluate its clinical potential as a diagnostic probe for human epidermal growth factor receptor type 2 (HER2)‑positive tumors. The ZHER2:V2 (Affibody molecule of ZHER2:2395‑C, which is based on the ZHER2:342 binding sequence with C‑terminal engineered cysteine) with C‑terminal chelating sequence GGGC was designed and labeled with 99mTc. The 99mTc‑ZHER2:V2 labeling efficiency was analyzed. The cellular uptake, retention and binding affinity, and the stability of the probe were examined in vitro. 99mTc‑ZHER2:V2 biodistribution analysis and imaging were performed in BALB/c nude mice bearing SKOV3 (HER2‑overexpression) xenografts. Furthermore, imaging of the probe was performed in MCF‑7 (HER2 low‑expression) xenografts. The 99mTc‑ZHER2:V2 labeling efficiency was identified as 98.99±0.99% (n=6), and was stable in physiological saline and fresh human serum at 37˚C in vitro. The cellular uptake peak of SKOV3 cells at 24 h was 6.15±0.18%, the cellular retention ratio of the probe was 48.58±4.52% at 6 h following interrupted incubation, and ~70% of 99mTc‑ZHER2:V2was membrane bound following 24 h. 99mTc‑ZHER2:V2 was blocked by excess amounts of unlabeled ZHER2:V2 in SKOV3 cells. 99mTc‑ZHER2:V2 exhibited high distribution (10.07% ID/g) in SKOV3 xenografts at 6 h following injection. The single photon emission computed tomography (SPECT) imaging revealed clear localization of 99mTc‑ZHER2:V2 in the SKOV3 xenografts at 4 h. However, there was low uptake in MCF‑7 tumors on the SPECT images. The SKOV3 xenograft imaging could be blocked by excess amounts unlabelled ZHER2:V2. 99mTcZHER2:V2 is an easy and quick labeling method, with high labeling yields, and radiochemical purity. 99mTc‑ZHER2:V2 is a promising probe for the diagnosis of HER2‑overexpression tumors and the monitoring of therapy response. [ABSTRACT FROM AUTHOR]

Published

2018

48. Bispecific affibody molecule targeting HPV16 and HPV18E7 oncoproteins for enhanced molecular imaging of cervical cancer.

Author

Zhu, Shanli, Zhu, Jinshun, Song, Yiling, Chen, Jun, Wang, Lude, Zhou, Meng, Jiang, Pengfei, Li, Wenshu, Xue, Xiangyang, Zhao, Kong-Nan, and Zhang, Lifang

Subjects

*MYC proteins, *PAPILLOMAVIRUSES, *CERVICAL cancer, *CANCER in women, *PEPTIDES, *CANCER treatment

Abstract

High-risk human papillomavirus (HPV16 and HPV18) are now widely recognized as responsible for cervical cancer, which remains to be the most common gynecologic malignancy in women worldwide. It is well known that viral oncoproteins E6/E7 play key roles in HPV-associated cervical carcinogenesis. Thus, in vivo detection of the two oncoproteins may provide important diagnostic information influencing patient management. More recently, affibody molecules have been demonstrated to be a promising candidate for development as molecular imaging probes. Based on the two monomeric affibody molecules (ZHPV16E7 and ZHPV18E7) generated in our laboratory, here, we used a peptide linker (Gly4Ser)3 to link ZHPV16E7 and ZHPV18E7 to develop a novel heterodimeric affibody ZHPV16E7-(Gly4Ser)3-ZHPV18E7. Both biosensor and immunofluorescence assays have proved that the heterodimeric affibody molecule targeted simultaneously HPV16 and HPV18E7 proteins by binding to the viral oncoproteins. In vivo tumor-imaging experiments using the Dylight755-labeled heterodimeric affibody revealed that strongly high-contrast tumor retention of the heterodimers occurred in both HPV16- and HPV18-derived tumors of nude mice 0.5 h post-injection. The accumulation of Dylight755-labeled heterodimers in tumors was achieved over 48 h. Therefore, we believe that this novel heterodimeric affibody molecule has great potential utility in molecular imaging in vivo and diagnosis of HPV-associated cervical cancers. [ABSTRACT FROM AUTHOR]

Published

2018

49. Choice of Radionuclides and Radiolabelling Techniques

Author

Tolmachev, Vladimir, Stigbrand, Torgny, editor, Carlsson, Jörgen, editor, and Adams, Gregory P., editor

Published

2008

50. Novel Alternative Scaffolds and Their Potential Use for Tumor Targeted Radionuclide Therapy

Author

Frejd, Fredrik Y., Stigbrand, Torgny, editor, Carlsson, Jörgen, editor, and Adams, Gregory P., editor

Published

2008