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Sökning: WFRF:(Rosik Daniel) > Kungliga Tekniska Högskolan

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1.
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2.
  • Altai, Mohamed, et al. (författare)
  • Influence of Nuclides and Chelators on Imaging Using Affibody Molecules : Comparative Evaluation of Recombinant Affibody Molecules Site-Specifically Labeled with Ga-68 and In-111 via Maleimido Derivatives of DOTA and NODAGA
  • 2013
  • Ingår i: Bioconjugate chemistry. - : American Chemical Society (ACS). - 1043-1802 .- 1520-4812. ; 24:6, s. 1102-1109
  • Tidskriftsartikel (refereegranskat)abstract
    • Accurate detection of cancer-associated molecular abnormalities in tumors could make cancer treatment more of personalized. Affibody molecules enable high contrast imaging of tumor-associated protein expression shortly after injection. The use should increase sensitivity of HER2 imaging. The chemical nature of the generator-produced positron-emitting radionuclide Ga-68 of radionuclides and chelators influences the biodistribution of Affibody molecules, providing an opportunity to further increase the imaging contrast. The aim of the study was to compare maleimido derivatives of DOTA and NODAGA for site-specific labeling of a recombinant Z(HER2:2395) HER2-binding Affibody molecule with Ga-68. DOTA and NODAGA were site-specifically conjugated to the Z(HER2:2395) Affibody molecule having a C-terminal cysteine and labeled with Ga-68 and In-111. All labeled conjugates retained specificity to HER2 in vitro. Most of the cell-associated activity was membrane-bound with a minor difference in internalization rate. All variants demonstrated specific targeting of xenografts and a high tumor uptake. The xenografts were dearly visualized using all conjugates. The influence of chelator on the biodistribution and targeting properties was much less pronounced for Ga-68 than for In-111. The tumor uptake of Ga-68-NODAGA-Z(HER2:2395) and Ga-68-NODAGA-Z(HER2:2395) and tumor-to-blood ratios at 2 h p.i. did not differ significantly. However, the tumor-to-liver ratio was significantly higher for Ga-68-NODAGA- Z(HER2:2395) (8 +/- 2 vs 5.0 +/- 0.3) offering the advantage of better liver metastases visualization. In conclusion, influence of chelators on biodistribution of Affibody molecules depends on the radionuclides and reoptimization of labeling chemistry is required when a radionuclide label is changed.
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3.
  • Heskamp, Sandra, et al. (författare)
  • Imaging of Human Epidermal Growth Factor Receptor Type 2 Expression with (18)F-Labeled Affibody Molecule Z(HER2:2395) in a Mouse Model for Ovarian Cancer
  • 2012
  • Ingår i: Journal of Nuclear Medicine. - : Society of Nuclear Medicine. - 0161-5505 .- 1535-5667 .- 2159-662X. ; 53:1, s. 146-153
  • Tidskriftsartikel (refereegranskat)abstract
    • Affibody molecules are small (7 kDa) proteins with subnanomolar targeting affinity. Previous SPECT studies in xenografts have shown that the Affibody molecule (111)In-DOTA-Z(HER2:2395) can discriminate between high and low human epidermal growth factor receptor type 2 (HER2)-expressing tumors, indicating that radiolabeled Affibody molecules have potential for patient selection for HER2-targeted therapy. Compared with SPECT, PET with positron-emitting radionuclides, such as (18)F, may improve imaging of HER2 expression because of higher sensitivity and improved quantification of PET. The aim of the present study was to determine whether the (18)F-labeled NOTA-conjugated Affibody molecule Z(HER2:2395) is a suitable agent for imaging of HER2 expression. The tumor-targeting properties of (18)F-labeled Z(HER2:2395) were compared with (111)In- and (68)Ga-labeled Z(HER2:2395) in mice with HER2-expressing SK-OV-3 xenografts. Methods: Z(HER2:2395) was conjugated with NOTA and radiolabeled with (18)F, (68)Ga, and (111)In. Radiolabeling with (18)F was based on the complexation of Al(18)F by NOTA. The 50% inhibitory concentration values for NOTA-Z(HER2:2395) labeled with (19)F, (69)Ga, and (115)In were determined in a competitive cell-binding assay using SK-OV-3 cells. Mice bearing subcutaneous SK-OV-3 xenografts were injected intravenously with radiolabeled NOTA-Z(HER2:2395). One and 4 h after injection, PET/CT or SPECT/CT images were acquired, and the biodistribution was determined by ex vivo measurement. Results: The 50% inhibitory concentration values for (19)F-, (69)Ga-, and (115)In-NOTA-Z(HER2:2395) were 5.0, 6.3, and 5.3 nM, respectively. One hour after injection, tumor uptake was 4.4 +/- 0.8 percentage injected dose per gram (% ID/g), 5.6 +/- 1.6 % ID/g, and 7.1 +/- 1.4 % ID/g for (18)F-, (68)Ga-, and (111)In-NOTA-Z(HER2:2395), respectively, and the respective tumor-to-blood ratios were 7.4 +/- 1.8, 8.0 +/- 1.3, and 4.8 +/- 1.3. Tumor uptake was specific, because uptake could be blocked efficiently by coinjection of an excess of unlabeled Z(HER2:2395). PET/CT and SPECT/CT images clearly visualized HER2-expressing SK-OV-3 xenografts. Conclusion: This study showed that (18)F-NOTA-Z(HER2:2395) is a promising new imaging agent for HER2 expression in tumors. Affibody molecules were successfully labeled with (18)F within 30 min, based on the complexation of Al(18)F by NOTA. Further research is needed to determine whether this technique can be used for patient selection for HER2-targeted therapy.
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4.
  • Honarvar, Hadis, et al. (författare)
  • Evaluation of backbone-cyclized HER2-binding 2-helix Affibody molecule for In Vivo molecular imaging
  • 2013
  • Ingår i: Nuclear Medicine and Biology. - : Elsevier BV. - 0969-8051 .- 1872-9614. ; 40:3, s. 378-386
  • Tidskriftsartikel (refereegranskat)abstract
    • Introduction: Affibody molecules, small scaffold proteins, have demonstrated an appreciable potential as imaging probes. Affibody molecules are composed of three alpha-helices. Helices 1 and 2 are involved in molecular recognition, while helix 3 provides stability. The size of Affibody molecules can be reduced by omitting the third alpha-helix and cross-linking the two remaining, providing a smaller molecule with better extravasation and quicker clearance of unbound tracer. The goal of this study was to develop a novel 2-helix Affibody molecule based on backbone cyclization by native chemical ligation (NCL). Methods: The HER2-targeting NCL-cyclized Affibody molecule Z(HER2:342min) has been designed, synthesized and site-specifically conjugated with a DOTA chelator. DOTA-Z(HER2:342min) was labeled with In-111 and (68) Ga. The binding affinity of DOTA-Z(HER2:342min) was evaluated in vitro. The targeting properties of In-111- and (68) Ga-DOTA-Z(HER2:342min) were evaluated in mice bearing SKOV-3 xenografts and compared with the properties of In-111- and (68) Ga-labeled PEP09239, a DOTA-conjugated 2-helix Affibody analogue cyclized by a homocysteine disulfide bridge. Results: The dissociation constant (K-D) for DOTA-Z(HER2:342min) binding to HER2 was 18 nM according to SPR measurements. DOTA-Z(HER2:342min) was labeled with In-111 and (68) Ga. Both conjugates demonstrated bi-phasic binding kinetics to HER2-expressing cells, with K-D1 in low nanbmolar range. Both variants demonstrated specific uptake in HER2-expressing xenografts. Tumor-to-blood ratios at 2 h p.i. were 6.1 +/- 1.3 for In-111-DOTA-Z(HER2:342min) and 4.6 +/- 0.7 for (68) Ga-DOTA-Z(HER2:342min). However, the uptake of DOTA-Z(HER2:342min) in lung, liver and spleen was appreciably higher than the uptake of PEP09239-based counterparts. Conclusions: Native chemical ligation enables production of a backbone-cyclized HER2-binding 2-helix Affibody molecule (Z(HER2:342min)) with low nanomolar target affinity and specific tumor uptake.
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5.
  • Myrhammar, Anders, et al. (författare)
  • Photocontrolled Reversible Binding between the Protein A-Derived Z Domain and Immunoglobulin G
  • 2020
  • Ingår i: Bioconjugate chemistry. - : American Chemical Society (ACS). - 1043-1802 .- 1520-4812. ; 31:3, s. 622-630
  • Tidskriftsartikel (refereegranskat)abstract
    • Photoisomerization of the trans and cis isomers of azobenzene derivatives has been used to control the function of biomolecules in a reversible and nondestructive manner. In this study, affibody molecules, representing a class of small, helical proteins that can be engineered for binding to a wide range of target proteins, have been investigated by the incorporation of a photoswitchable azobenzene derivative in the molecule. Three different Z domain variants were produced by solid phase peptide synthesis and conjugated by thiol-directed chemistry to an azobenzene-based photoswitch. The proteins were screened for binding to and light elution from an IgG-sepharose affinity column. One of the tested Z variants, Z(C3), showed efficient binding to the column and could be eluted by irradiation with light at 400 nm. In a reverse affinity chromatography assay, where the Z(C3) variant was coupled to sepharose, human IgG1 could be captured to the column and partially eluted by light. Further studies of the azobenzene-conjugated Z(C3) domain by surface plasmon resonance (SPR) confirmed the high affinity binding to IgG, and circular dichroism (CD) spectroscopy showed that the protein has a high alpha-helical secondary structure content.
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6.
  • Orlova, Anna, et al. (författare)
  • Site-specific radiometal labeling and improved biodistribution using ABY-027, a novel HER2-targeting affibody molecule-albumin-binding domain fusion protein
  • 2013
  • Ingår i: Journal of Nuclear Medicine. - : Society of Nuclear Medicine. - 0161-5505 .- 1535-5667 .- 2159-662X. ; 54:6, s. 961-968
  • Tidskriftsartikel (refereegranskat)abstract
    • Because of their better penetration, smaller targeting proteins may be superior to antibodies for radioimmunotherapy of solid tumors. Therefore, Affibody molecules (6.5 kDa) have a potential for being suitable as targeted moiety for radiolabeled therapeutic proteins. Previous studies have demonstrated that a fusion of an Affibody molecule with an albumin-binding domain (ABD) provides a strong noncovalent binding to albumin in vivo. This strong noncovalent binding can be used for reduction of the renal uptake of the Affibody molecule while maintaining a size smaller than that of an antibody, which is important when using residualizing radionuclide labels conjugated to Affibody molecules. The goal of this study was to design and evaluate a new targeting Affibody - ABD fusion protein with improved biodistribution properties for radionuclide therapy. Methods: A novel Affibody-based construct, Z HER2:2891-ABD035-DOTA (ABY-027), was created by fusion of the reengineered HER2-binding Affibody molecule ZHER2:2891 to the N terminus of the high-affinity ABD035, and a maleimido-derivative of DOTA was conjugated at the C terminus of the construct. Binding and processing of 177Lu-ABY-027 by HER2-expressing cells were evaluated in vitro. Targeting of HER2-expressing SKOV-3 xenografts was evaluated in BALB/C nu/nu mice and compared with targeting of previously reported ABD-(Z HER2:342)2. Results: The binding affinity (dissociation constant) of ABY-027 to HER2 (74 pM) was the same as for the parental Z HER2:2891 (76 pM). ABY-027 was stably labeled with 177Lu and 111In with preserved specific binding to HER2-expressing cells in vitro. In vivo receptor saturation experiments demonstrated that targeting of SKOV-3 xenografts in BALB/C nu/nu mice was HER2-specific. 177Lu-ABY- 027 demonstrated substantially (2- to 3-fold) lower renal and hepatic uptake than previously assessed HER2-specific Affibody-based albumin-binding agents. Tumor uptake of radiolabeled ABY-027 at 48 h after injection was 2-fold higher than that for previously reported ABD-(ZHER2:342)2. Conclusion: An optimized molecular design of an ABD fusion protein resulted in an Affibody molecule construct with better properties for therapy. Fully preserved in vivo targeting of the fusion protein was shown in xenografted mice. Site-specific coupling of DOTA provides a uniform conjugate and creates the potential for labeling with a broad range of therapeutic radionuclides. The biodistribution of 177Lu-ABY-027 in a murine model suggests it is more suitable for therapy than alternative approaches.
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7.
  • Rosik, Daniel, et al. (författare)
  • Direct comparison of In-111-labelled two-helix and three-helix Affibody molecules for in vivo molecular imaging
  • 2012
  • Ingår i: European Journal of Nuclear Medicine and Molecular Imaging. - : Springer Science and Business Media LLC. - 1619-7070 .- 1619-7089. ; 39:4, s. 693-702
  • Tidskriftsartikel (refereegranskat)abstract
    • Radiolabelled Affibody molecules have demonstrated a potential for visualization of tumour-associated molecular targets. Affibody molecules (7 kDa) are composed of three alpha-helices. Recently, a smaller two-helix variant of Affibody molecules (5.1 kDa) was developed. The aim of this study was to compare two- and three-helix HER2-targeting Affibody molecules directly in vivo. The three-helix Affibody molecule ABY-002 and the two-helix Affibody molecule PEP09239 were labelled with In-111 at the N-termini via DOTA chelator. Tumour-targeting properties were directly compared at 1 and 4 h after injection in mice bearing SKOV-3 xenografts with high HER2 expression and LS174T xenografts with low HER2 expression. The dissociation constants (K (D)) for HER2 binding were 78 pM for the three-helix Affibody molecule and 2.1 nM for the two-helix Affibody molecule. In-111-PEP09239 cleared more rapidly from the blood. In xenografts with high HER2 expression, the uptake of In-111-ABY-002 was significantly higher than that of In-111-PEP09239. The tumour-to-blood ratio was higher for In-111-PEP09239 at 4 h after injection, while there was no significant difference in other tumour-to-organ ratios. The tumour uptake of In-111-ABY-002 was eightfold higher than that of In-111-PEP09239 in xenografts with low expression. Tumour-to-blood ratios were equal in this case, but other tumour-to-organ ratios were appreciably higher for the three-helix variant. For tumours with high HER2 expression, two-helix HER2-targeting Affibody molecules can provide higher tumour-to-blood ratio at the cost of lower tumour uptake. In the case of low expression, both tumour uptake and tumour-to-organ ratios are appreciably higher for three-helix than for two-helix HER2-targeting Affibody molecules.
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8.
  • Rosik, Daniel, et al. (författare)
  • Incorporation of a Triglutamyl Spacer Improves the Biodistribution of Synthetic Affibody Molecules Radiofluorinated at the N-Terminus via Oxime Formation with F-18-4-Fluorobenzaldehyde
  • 2014
  • Ingår i: Bioconjugate chemistry. - : American Chemical Society (ACS). - 1043-1802 .- 1520-4812. ; 25:1, s. 82-92
  • Tidskriftsartikel (refereegranskat)abstract
    • Affibody molecules are a class of affinity agents for molecular imaging based on a non-immunoglobulin protein scaffold. Previous studies have demonstrated high contrast for in vivo imaging of cancer-associated molecular abnormalities using Affibody molecules. Using the radionuclide F-18 for labeling and PET as the imaging modality, the sensitivity of molecular imaging using Affibody molecules can be further increased. The use of oxime formation between an aminooxy-functionalized peptide and F-18-fluorobenzaldehyde (F-18-FBA) is a promising way of radiolabeling of targeting peptides. However, previous studies demonstrated that application of this method to Affibody molecules is associated with high liver uptake. We hypothesized that incorporation of a triglutamyl spacer between the aminooxy moiety and the N-terminus of a synthetic Affibody molecule would decrease the hepatic uptake of the F-18-N-(4-fluorobenzylidine)oxime) (F-18-FBO)-labeled tracer. To verify this, we have produced two variants of the HER2-targeting Z(HER2:342) Affibody molecule by peptide synthesis: OA-PEP4313, where aminooxyacetic acid was conjugated directly to the N-terminal alanine, and OA-E-3-PEP4313, where a triglutamyl spacer was introduced between the aminooxy moiety and the N-terminus. We have found that the use of the spacer is associated with a minor decrease of affinity, from K-D = 49 pM to K-D = 180 pM. Radiolabeled F-18-FBO-E-3-PEP4313 demonstrated specific binding to HER2-expressing ovarian carcinoma SKOV-3 cells and slow internalization. Biodistribution studies in mice demonstrated that the use of a triglutamyl linker decreased uptake of radioactivity in liver 2.7-fold at 2 h after injection. Interestingly, radioactivity uptake in kidneys was also reduced (2.4-fold). Experiments in BALB/C nu/nu mice bearing SKOV-3 xenografts demonstrated HER2-specific uptake of F-18-FBO-E-3-PEP4313 in tumors. At 2 h pi, the tumor uptake (20 +/- 2% ID/g) exceeded uptake in liver 5-fold and uptake in kidneys 3.6-fold. The tumor-to-blood ratio was 21 +/- 3. The microPET/CT imaging experiment confirmed the biodistribution data. In conclusion, the use of a triglutamyl spacer is a convenient way to improve the biodistribution profile of Affibody molecules labeled at the N-terminus using F-18-FBA. It provides a tracer capable of producing high-contrast images of HER2-expressing tumors.
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9.
  • Rosik, Daniel, 1978- (författare)
  • On the Design of Affibody Molecules for Radiolabeling and In Vivo Molecular Imaging
  • 2013
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • Affibody molecules have lately shown great potential as tools for in vivo molecular imaging. These small, 3-helical bundles, with their highly stable protein scaffold, are well suited for the often harsh conditions of radiolabeling. Their small size allows for rapid clearance from the blood circulation which permits the collection of images already within hours after injection. This thesis includes four papers aimed at engineering different variants of a HER2-binding Affibody molecule to enable effective  and  flexible  radiolabeling  and  enhancing  the  molecular  imaging  in  terms  of  imaging contrast and resolution.In paper I an Affibody molecule was engineered to function as a multifunctional platform for site-specific labeling with different nuclides for radionuclide imaging. This was done using only natural amino  acids,  thereby  allowing  for  both  synthetic  and  recombinant  production.  By  grafting  the amino acid sequence -GSECG to the C-terminal of our model-protein, a HER2-binding Affibody molecule, we enabled site specific labeling with both trivalent radiometals and with  99m Tc. Maleim-ide-DOTA was conjugated to the cysteine residue for labeling with  111 In, while the peptide sequence was able to chelate  99m Tc directly. This approach can also be used for site-specific labeling with other probes available for thiol-chemistry, and is applicable also to other protein scaffolds.In paper II we investigated the impact of size and affinity of radiolabeled Affibody molecules on tumor targeting and image contrast. Two HER2-targeting Affibody molecules, a two-helix (~5 kDa) and a three-helix (~7 kDa) counterpart, were synthetically produced, labeled with  111 In via chelation by  DOTA  and  directly  compared  in  terms  of  biodistribution  and  targeting  properties.  Results showed  that  the  smaller  variant  can  provide  higher  contrast  images,  at  the  cost  of  lower  tumor uptake,  in  high-expressing  HER2-tumors.  However,  neither  the  tumor  uptake  nor  the  contrast of the two-helix variant is sufficient to compete with the three-helix molecule in tumors with low expression of HER2.In paper III and IV we were aiming to find methods to improve the labeling of Affibody molecules with  18 F for PET imaging. Current methods are either complex, time-consuming or generate heavily lipophilic conjugates. This results in low yields of radiolabeled tracer, low specific activity left for imaging, undesirable biodistribution or a combination thereof. In paper III we demonstrate a swift and efficient 2-step, 1-pot method for labeling HER2-binding Affibody molecules by the formation of aluminum  18 F-fluoride (Al 18 F) and its chelation by NOTA, all in 30 min. The results show that the  18 F-NOTA-approach is a very promising method of labeling Affibody molecules with  18 F and further investigation of this scheme is highly motivated. In the last paper we pursued the possibility of decreasing the high kidney retention that is common among small radiotracers with residual-izing radiometabolites. In this work  18 F-4-fluorobenzaldehyde (FBA) was conjugated to a synthetic HER2-targeting Affibody molecule via oxime ligation. However, to avoid elevated liver retention, as seen in previous studies with this kind of label, a hydrophilic triglutamyl spacer between the aminooxy moiety and the N-terminal was introduced. A comparison of the two constructs (with and without the triglutamyl spacer) showed a clear reduction of retention in both kidney and liver in NMRI mice at 2 h p.i. when the spacer was included. In the light of these promising results, further studies including tumor-bearing mice, are in preparation.
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10.
  • Tolmachev, Vladimir, et al. (författare)
  • Affibody molecules for epidermal growth factor receptor targeting in vivo : aspects of dimerization and labeling chemistry
  • 2009
  • Ingår i: Journal of Nuclear Medicine. - : Society of Nuclear Medicine. - 0161-5505 .- 1535-5667 .- 2159-662X. ; 50:2, s. 274-283
  • Tidskriftsartikel (refereegranskat)abstract
    • Noninvasive detection of epidermal growth factor receptor (EGFR) expression in malignant tumors by radionuclide molecular imaging may provide diagnostic information influencing patient management. The aim of this study was to evaluate a novel EGFR-targeting protein, the ZEGFR:1907 Affibody molecule, for radionuclide imaging of EGFR expression, to determine a suitable tracer format (dimer or monomer) and optimal label. METHODS: An EGFR-specific Affibody molecule, ZEGFR:1907, and its dimeric form, (ZEGFR:1907)2, were labeled with 111In using benzyl-diethylenetriaminepentaacetic acid and with 125I using p-iodobenzoate. Affinity and cellular retention of conjugates were evaluated in vitro. Biodistribution of radiolabeled Affibody molecules was compared in mice bearing EGFR-expressing A431 xenografts. Specificity of EGFR targeting was confirmed by comparison with biodistribution of non-EGFR-specific counterparts. RESULTS: Head-to-tail dimerization of the Affibody molecule improved the dissociation rate. In vitro, dimeric forms demonstrated superior cellular retention of radioactivity. For both molecular set-ups, retention was better for the 111In-labeled tracer than for the radioiodinated counterpart. In vivo, all conjugates accumulated specifically in xenografts and in EGFR-expressing tissues. The retention of radioactivity in tumors was better in vivo for dimeric forms; however, the absolute uptake values were higher for monomeric tracers. The best tracer, 111In-labeled ZEGFR:1907, provided a tumor-to-blood ratio of 100 (24 h after injection). CONCLUSION: The radiometal-labeled monomeric Affibody molecule ZEGFR:1907 has a potential for radionuclide molecular imaging of EGFR expression in malignant tumors.
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