| 1. |
- Ahlgren, Sara, 1979-
(författare)
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Molecular Radionuclide Imaging Using Site-specifically Labelled Recombinant Affibody Molecules : Preparation and Preclinical Evaluation
- 2010
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Radionuclide molecular imaging is an emerging multidisciplinary technique that is used in modern medicine to visualise diseases at cellular and molecular levels. This thesis is based on five papers (I-V) and focuses on the development of site-specific radiolabelled recombinant anti-HER2 Affibody molecules and preclinical evaluations in vitro and in vivo of the labelled conjugates. This work is part of a preclinical development of an Affibody molecule-based tracer for molecular imaging of HER2 expressing tumours. Papers I and II report the evaluation of the Affibody molecule ZHER2:2395-C, site-specifically labelled with the radiometals 111In (for SPECT) and 57Co (as a surrogate for 55Co, suitable for PET applications) using a thiol reactive DOTA derivative as a chelator. Both conjugates demonstrated very suitable biodistribution properties, enabling high contrast imaging just a few hours after injection. Papers III and IV report the development and optimization of a technique for site-specific labelling of ZHER2:2395-C with 99mTc using an N3S chelating peptide sequence. 99mTc-ZHER2:2395-C demonstrated high and specific tumour uptake and rapid clearance of non-bound tracer from the blood, resulting in high tumour-to-non-tumour ratios shortly after injection, enabling high contrast imaging. In addition, in the study described in paper IV, freeze-dried kits previously developed for 99mTc-labelling were optimised, resulting in the development of a kit in which all the reagents and protein needed for labelling of ZHER2:2395-C with 99mTc were contained in a single vial. Paper V reports the evaluation of an anti-HER2 Affibody molecule, ABY-025, with a fundamentally re-engineered scaffold. Despite the profound re-engineering, the biodistribution pattern of 111In-ABY-025 was very similar to that of two variants of the parental molecule. It seems reasonable to believe that these results will also be applicable to Affibody molecules towards other targets. Hopefully, this work will also be helpful in the development of other small proteinaceous tracers.
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| 2. |
- Almqvist, Ylva, 1974-
(författare)
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Targeted Therapy of Colorectal Cancer : Preclinical Evaluation of a Radiolabelled Antibody
- 2008
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Targeted radiotherapy (TRT) of cancer is a promising approach that enables selective treatment of tumour cells, while sparing normal tissue. The humanized monoclonal antibody A33 (huA33) is a potential targeting agent for TRT of colorectal cancer, since its antigen is expressed in more than 95 % of all colorectal carcinomas. The aim of this thesis was to evaluate the therapeutic potential of the two huA33-based TRT-conjugates, 177Lu-huA33, and 211At-huA33. The conjugates 177Lu-huA33, and 211At-huA33, bound specifically to colorectal cancer cells, both in vitro and in vivo. A dose dependent cytotoxic effect of 211At-huA33 was also demonstrated in vitro. From a therapeutic perspective, both conjugates had a favourable biodistribution in tumour-bearing nude mice, with high tumour uptake and a low uptake in normal organs (with the exception of an expected thyroid uptake of 211At). After injection of 211At-huA33, the blood absorbed a slightly higher dose than the tumour, but for 177Lu-huA33, the tumour received a 12 times higher dose than blood. Two days after intravenous injection of 177Lu-huA33 in tumour-bearing mice, the tumours could be clearly visualised by gamma camera imaging, with very low interference from normal tissue radioactivity. In an experimental therapy study, also performed in tumour-bearing mice, there was an excellent therapeutic effect of 177Lu-huA33. About 50 % of the treated animals were tumour free 140 days after injection of 177Lu-huA33, while none of the non-radioactive controls survived beyond 20 days after injection of treatment substances. In conclusion, this thesis demonstrates that the therapeutic conjugates 177Lu-huA33, and 211At-huA33, are promising targeting agents that might help improve therapy of colorectal cancer.
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| 3. |
- Altai, Mohamed
(författare)
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Tumour Targeting using Radiolabelled Affibody Molecules : Influence of Labelling Chemistry
- 2014
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Affibody molecules are promising candidates for targeted radionuclide-based imaging and therapy applications. Optimisation of targeting properties would permit the in vivo visualization of cancer-specific surface receptors with high contrast. In therapy, this may increase the ratio of radioactivity uptake between tumour and normal tissues. This thesis work is based on 5 original research articles (papers I-V) and focuses on optimisation of targeting properties of anti-HER2 affibody molecules by optimising the labelling chemistry.Paper I and II report the comparative evaluation of the anti-HER2 ZHER2:2395 affibody molecule site specifically labelled with 111In (suitable for SPECT imaging) and 68Ga (suitable for PET imaging) using the thiol reactive derivatives of DOTA and NODAGA as chelators. The incorporation of different macrocyclic chelators and labelling with different radionuclides modified the biodistribution properties of affibody molecules. This indicates that the labelling strategy may have a profound effect on the targeting properties of radiotracers and must be carefully optimized.Paper III reports the study of the mechanism of renal reabsorption of anti-HER2 ZHER2:2395 affibody molecule. An unknown receptor (not HER2) is suspected to be responsible for the high reabsorption of ZHER2:2395 molecules in the kidneys.Paper IV reports the optimization and development of in vivo targeting properties of 188Re-labelled anti-HER2 affibody molecules. By using an array of peptide based chelators, it was found that substitution of one amino acid by another or changing its position can have a dramatic effect on the biodistribution properties of 188Re-labelled affibody molecules. This permitted the selection of –GGGC chelator whichdemonstrated the lowest retention of radioactivity in kidneys compared to other variants and showed excellent tumour targeting properties.Paper V reports the preclinical evaluation of 188Re-ZHER2:V2 as a potential candidate for targeted radionuclide therapy of HER2-expressing tumours. In vivo experiments in mice along with dosimetry assessment in both murine and human models revealed that future human radiotherapy studies using 188Re-ZHER2:V2 may be feasible.It would be reasonable to believe that the results of optimisation of anti-HER2 affibody molecules summarized in this thesis can be of importance for the development of other scaffold protein-based targeting agents.
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| 4. |
- Cheng, Junping, 1965-
(författare)
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Radioimmunotherapy in Experimental Head and Neck Squamous Cell Carcinoma : Tumour-targeting in vitro and in vivo
- 2005
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Radioimmunotherapy (RIT) has been shown to be a practicable way to treat head and neck squamous cell carcinoma. A specific antibody recognizes the charasteristic structure of tumour cells when loaded with cytotoxic agents (toxins, drugs, radionuclides, etc). But RIT kills not only tumour cells with attached radionuclides but also adjacent tumour cells due to the “cross fire effect”. To be efficacious, RIT depends closely on suitable monoclonal antibody, on the properties of the chosen radionuclides, and on a suitable labelling method for attaching radionuclide to antibody. In this study we initially used radionuclide-labelled cMAB U36, via linker DABI in order to improve the retention of radio-conjugates in the tumour cells. Improved retention is important because the longer the radionuclide remains in tumour cells, the more effective will the tumour cells be eradicated. In the investigation, both normal mice and HNSCC-bearing nude mice were used to compare our form of treatment against other radio-iodination methods. In the biodistribution study, normal mice showed that radioactive uptake in organs diminished with time, irrespectively of whether the conjugate was directly or indirectly labelled. But in thyroid, there was a tenfold greater accumulation of direct-labelled than of indirectly labelled conjugate.In tumour-bearing nude mice, by contrast, the results showed promising uptake of radioactivity, but little uptake in direct-labelled conjugate in thyroid. Significant differences were observed on comparing tumour: organ ratios between 131I-cMAb U36 vs. 125I-DABI-cMAb U36.In the present study, cMAb U36 labelled with 211Astatine was initially used to treat HNSCC in nude mice. The biodistribution of 211At-cMAb U36 did not reveal any significant difference between an antibody-blocked group and a non-blocked group. But it did highlight the characteristics of a successful targeting conjugate in HNSCC-bearing nude mice.In the subcutaneous therapy experiment, most of the treated tumours (n=18) had disappeared by the 26th day, in both U36-blocked and non-blocked groups. Treatment in the intravenous therapy experiment had also proved effective. In the antibody non-blocked group, the smallest tumour volume was 25 mm3 (average 111 mm3) vis-á-vis 65 mm3 (average 145 mm3) in the blocked group. None of tumours grew again following treatment.
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| 5. |
- Garousi, Javad
(författare)
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Development of ADAPT-based tracers for radionuclide molecular imaging of cancer
- 2017
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- ABD-Derived Affinity Proteins (ADAPTs) is a novel class of small engineered scaffold proteins based on albumin-binding domain (ABD) of streptococcal protein G. High affinity ADAPT binders against various therapeutic targets can be selected. In this thesis, we report a development of ADAPT-based radionuclide imaging agents providing high sensitivity and specificity of molecular imaging of HER2 expression in disseminated cancers.We investigated the feasibility of the use of ADAPTs as imaging agents and influence of molecular design and radiolabeling chemistry on in vivo targeting and biodistribution properties of the tracers.In Paper I we demonstrated the feasibility of the use of anti-HER2 ADAPT6 molecule as a high contrast imaging agent;In Paper II we evaluated the influence of composition of histidine-containing tag on in vivo biodistribution of ADAPT-based tracers labeled with 99mTc using 99mTc(CO)3 binding to histidine-containing tags and 111In using DOTA chelator at N-terminus;In Paper III we evaluated the influence of different aspects of N-terminus leading sequence on targeting including effect of sequence size on clearance rate and effect of the composition of the sequence on biodistribution profile;In Paper IV, we evaluated the influence of residualizing properties and positioning of the label on biodistribution and targeting; andIn Paper V, we compared tumor-targeting properties of the ADAPT6 labeled at C-terminus with 99mTc using N3S chelator and 111In using DOTA chelator.In conclusion, ADAPTs constitute a very promising class of targeting probes for molecular imaging providing high contrast. Molecular design of the ADAPT proteins and chelators/linkers for labeling has an appreciable effect on their imaging properties.
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| 6. |
- Honarvar, Hadis, 1984-
(författare)
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Development of Affibody molecules for radionuclide molecular imaging and therapy of cancer
- 2016
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Affibody molecules are a promising class of scaffold-based targeting proteins for radionuclide-based imaging and therapy of cancer. This thesis work is based on 5 original research articles (papers I-V), which focus on optimization of molecular design of HER2-binding Affibody variants for high contrast imaging of this predictive biomarker as well as development of Affibody molecules suitable for radionuclide-based targeted therapies. Papers I and II were dedicated to evaluation of the influence of the macrocyclic chelator DOTA positioning at N-terminus, in the middle of helix-3 and at C terminus of a synthetic Affibody molecule, ZHER2:S1. These synthetic variants were labelled with different radionuclides i.e. 111In and 68Ga to study also the effect of different labels on their biodistribution properties.In paper III a 2-helix variant, Z342min, was developed using native ligation cyclization to cross-link helices one and two resulting in a stable 2-helix scaffold and characterized in vivo. This study was performed with the aim to obtain structure-properties relationship for development of smaller Affibody molecules. Papers IV and V were devoted to development of therapeutic strategies. In paper IV, a series of peptide based chelators was investigated for labelling of Affibody molecules with 188Re to provide low renal retention. In paper V, a pretargeting approach using peptide nucleic acid was investigated. These studies were performed with the aim to overcome the high renal retention of Affibody molecules when labelled with residualizing therapeutic radionuclides. Otherwise, the particle emitting radiometals could damage the kidneys more than the tumours.The results obtained for anti-HER2 Affibody molecules summarized in this thesis might be of importance for the development of other scaffold protein based targeting agents.
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| 7. |
- Nestor, Marika, 1976-
(författare)
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Antibody-Based Radionuclide Targeting for Diagnostics and Therapy : Preclinical Studies on Head and Neck Cancer
- 2006
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Antibody-based targeting techniques play an increasingly important role in cancer research. By targeting a structure that is abundant in tumour cells, but rare in healthy tissues, an antibody can mediate the delivery of radioactivity specifically to tumour cells in the body. This idea is particularly appealing for head and neck squamous cell carcinoma (HNSCC), as the advanced stages have a large fraction of spread disease that is difficult to treat with procedures available today. In this thesis, we have investigated possible radioimmunotargeting structures for HNSCC, and found that CD44v6 is a suitable target for antibody-based radiotherapy and diagnostics in this patient group. We have identified radiohalogens as attractive nuclides for such use, and have investigated the possibility of radiohalogenating the anti CD44v6 chimeric monoclonal antibody (cMAb) U36. Several feasible labelling methods were identified, using both direct and indirect labelling. The cMAb U36 was then successfully labelled with 211At and 131I, and preclinically evaluated for therapeutic use. Results proved the astatinated conjugate to be most efficient in this context, demonstrating a specific and dose-dependent cytotoxicity. The cMAb U36 was then evaluated for diagnostic use in thyroid anaplastic carcinoma, using 124I as the diagnostic nuclide. Results in tumour-bearing mice were promising, with all of the tumours identified in micro-PET studies. These results demonstrate how antibody-based radionuclide targeting can provide more sensitive and specific methods for identifying and treating head and neck cancer, and hopefully help improve long-term survival rates for this patient group in the future.
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| 8. |
- Nordberg, Erika, 1980-
(författare)
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EGFR and HER2 Targeting for Radionuclide-Based Imaging and Therapy : Preclinical Studies
- 2008
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- The optimal way to detect and treat cancer is to target cancer cells exclusively without affecting the surrounding tissue. One promising approach is to use radiolabelled molecules to target receptors that are overexpressed in cancer cells. Since the epidermal growth factor receptor (EGFR) family is overexpressed in many types of cancer, it is an attractive target for both diagnostic and therapeutic applications. This thesis can be divided into two parts. In part one (paper I), studies were conducted to modulate radionuclide uptake in tumour cells. The results showed that it was possible to modulate the cellular uptake of 125I delivered by trastuzumab (targeting HER2) by adding EGF (targeting EGFR). In part two (papers II-V) a high affinity EGFR-targeting affibody molecule (ZEGFR:955)2 was selected and analysed both in vitro and in vivo. In papers II, III and V, the results obtained when using (ZEGFR:955)2 were compared with those obtained with the two EGFR-binding molecules, EGF and cetuximab. These studies demonstrated that the affibody molecule bound specifically to EGFR (probably to subdomain III) with high affinity (~50 nM in biosensor analysis and ~1 nM in cellular studies) and produced intracellular signalling changes similar to those with cetuximab. In paper IV, in vivo studies were made, demonstrating that [111In](ZEGFR:955)2 gave a tumour-specific 111In uptake of 3.8±1.4% of injected dose per gram tumour tissue, 4 h post-injection. The tumours could be easily visualized with a gamma camera at this time-point. The results of these studies indicated that the affibody molecule (ZEGFR:955)2 is a possible candidate for radionuclide-based imaging of EGFR-expressing tumours. The biological effects of (ZEGFR:955)2 might be of interest for therapy applications.
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| 9. |
- Persson, Mikael, 1975-
(författare)
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Antibody Mediated Radionuclide Targeting of HER-2 for Cancer Diagnostics and Therapy : Preclinical Studies
- 2006
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Targeted radionuclide therapy (TRT) holds great promise for the treatment of cancer. In TRT, radioactive nuclides are delivered specifically to tumours by molecules that recognise and bind to structures overexpressed by, or specific to, cancer cells. Human epidermal growth factor receptor like protein 2 (HER-2) is an oncogene product overexpressed in e.g. urological, breast, or ovarian cancers that have been correlated to poor prognosis and resistance to hormonal therapy. There is also evidence that tumour cells retain their HER-2 overexpression in metastases. Trastuzumab and pertuzumab are two humanised monoclonal antibodies targeting different parts of HER-2. This thesis describes the radiolabelling of these antibodies for use in TRT and diagnostics. The thesis also investigates possible methods for modifying uptake and retention of radioactivity delivered with antibodies binding to HER-2. Modification of the cellular retention of 125I by using polyhedral boron anion based linker molecules (DABI and NBI) is investigated, and it is shown that linking 125I to trastuzumab using DABI increases cellular accumulation of radioactivity by 33%. It is also shown that trastuzumab can be efficiently coupled to the positron emitter 76Br by using NBI. Furthermore, it is shown that cellular uptake of 125I can be modified by stimulating EGFR (HER-1) with EGF. When labelled with the alpha emitter 211At, trastuzumab could specifically kill cells in vitro. This cell killing effect could be prevented by saturating the receptors of the target cells with non-radiolabelled trastuzumab. Pertuzumab was radiolabelled with the low energy beta emitter 177Lu without losing affinity or immunocompetence. [177Lu]pertuzumab was specific to HER-2 in vitro and in vivo. This targeting conjugate was shown to increase median time to tumour progression in mice bearing xenografts of the radioresistant SKOV-3 cell line. In conclusion, antibodies against HER-2, especially pertuzumab radiolabelled with 177Lu, show promise as TRT agents.
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| 10. |
- Steffen, Ann-Charlott, 1977-
(författare)
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Radiolabeled HER-2 Binding Affibody Molecules for Tumor Targeting : Preclinical Studies
- 2006
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Conventional cancer treatment based on radiotherapy or chemotherapy affects all dividing cells. By directing the therapy specifically to the tumor cells, normal cells can be spared. Tumor targeting molecules carrying a cytotoxic moiety is then an attractive approach.In this thesis, an affibody molecule with high affinity for the protein HER-2, that is strongly associated with aggressive forms of breast cancer, was selected. After radiolabeling with 125I, the affibody molecule, in monovalent and bivalent form, was tested in vitro in HER-2 overexpressing tumor cells and in transplanted tumors in mice.It was shown that the HER-2 targeting affibody molecule bound its target in a specific manner, both in vitro and in vivo. The small size of the affibody molecule resulted in fast clearance through the kidneys. An impressive tumor-to-blood ratio of 10 eight hours post injection was achieved and the tumors could easily be visualized in a gamma camera.The biologic effects of the bivalent affibody molecule and a monovalent affinity maturated version was measured and compared with the effects of the monoclonal antibody trastuzumab. It was found that although all molecules target the same protein, the effects differed greatly.The affibody molecule was also labeled with the alpha-emitting radionuclide 211At. Specific decrease in survival was seen in HER-2 overexpressing cells receiving the 211At labeled affibody molecule. The sensitivity to the treatment differed between cell lines, probably as a result of differences between the cell lines in internalization and nuclear size. The 211At labeled affibody molecules were also tested in vivo, where stability of the 211At label was a problem. To circumvent this problem, more stable conjugation chemistry was tested, as well as strategies to prevent uptake of released 211At by normal organs.This thesis describes the selection and optimization of affibody molecules for medical use for the first time.
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