Tumour Targeting Using Radiolabelled EGF Conjugates : Preclinical Studies

Sundberg, Åsa Liljegren

January 2004

<p>Tumour targeted radiotherapy is an appealing approach for treatment of disseminated tumour cells. A targeting agent that specifically binds to a structure on tumour cells is then used to transport therapeutically relevant radionuclides. The epidermal growth factor receptor, EGFR, is overexpressed on tumour cells in several malignancies, e.g. highly malignant gliomas. In this thesis, three types of radiolabelled EGF-conjugates, aimed for targeting to EGFR-expressing tumour cells, were developed and studied: EGF-dextran labelled with ¹²⁵I, EGF labelled with ²¹¹At, and two EGF-chelates, DTPA-EGF and Bz-DTPA-EGF, labelled with the radioactive metals ¹¹¹In and ¹⁷⁷Lu. </p><p>The targeting properties of radioiodinated EGF-dextran were first studied in cultured glioma cells. Radioiodine coupled to the dextran part of EGF-dextran was retained in cells appreciably longer than radioiodine coupled to EGF. This can give about 100 times increased radiation dose to tumour cells.</p><p>Targeting with ²¹¹At-EGF was investigated in combination with the tyrosine kinase inhibitor gefitinib (Iressa™, ZD1839). The uptake of ²¹¹At-EGF in EGFR-expressing tumour cells increased with increasing gefitinib concentrations. This was the case for both gefitinib-resistant and gefitinib-sensitive cell lines. The effect of the combined treatment on cell survival, however, differed between the cell lines in an unexpected way. In gefitinib resistant cells, combined treatment decreased cell survival approximately 3.5 times relative to ²¹¹At-EGF treatment alone. In gefitinib sensitive cells, however, combined treatment increased the cell survival (i.e. a protective effect).</p><p>The EGF-chelates studied ([¹¹¹In]DTPA-EGF, [¹¹¹In]Bz-DTPA-EGF and [¹⁷⁷Lu]Bz-DTPA-EGF) all bound specifically with high affinity (K_d≈2 nM) to EGFR on cultured glioma cells. They were internalised after binding, and the cellular retention of radionuclides was high (60% remained after 45 h). A biodistribution study in mice showed that liver and kidneys accumulated a majority of the radioactivity. The EGF-chelates bound EGFR specifically also <i>in vivo</i>. A tumour-to-blood ratio of 25 was achieved in a preliminary study.</p>

Radiation sciences

targeting

tumour

EGF

radionuclide

gefitinib

Iressa

ZD1839

glioma

therapy

diagnostics

Strålningsvetenskap

Radiation biology

Strålningsbiologi

Radioimmunotherapy in Experimental Head and Neck Squamous Cell Carcinoma : Tumour-targeting <i>in vitro</i> and <i>in vivo</i>

Cheng, Junping

January 2005

<p>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. </p><p>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.</p><p>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.</p><p>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.</p><p>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.</p>

Otorhinolaryngology

squamous cell carcinoma

radioimmunotherapy

cell line

tumour targeting

radionuclide

nude mice

Otorhinolaryngologi

Otorhinolaryngology

Otorhinolaryngologi

Antibody-Based Radionuclide Targeting for Diagnostics and Therapy : Preclinical Studies on Head and Neck Cancer

Nestor, Marika

January 2006

<p>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. </p><p>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.</p><p>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.</p>

Otorhinolaryngology

antibodies

radionuclide targeting

tumour targeting

therapy

diagnostics

immuno-PET

head and neck squamous cell carcinoma

Otorhinolaryngologi

Diagnosis and Radioimmunotherapy of Head and Neck Squamous Cell Carcinomas

Ekberg, Tomas

January 2008

<p>The diagnosis and treatment of patients with advanced tumors in the head and neck is an interesting challenge where there is a need for new approaches in diagnostics and adjuvant treatment. Differences in antigen expression between tumors and normal tissues provide a means for application of antibody-based targeting techniques. By targeting a structure that is abundant on tumor cells and limited on normal cells, radioactivity can be delivered.</p><p>The use of positron emission tomography (PET) in patients with head and neck tumors is evaluated in this thesis. PET using the tracer fluorodeoxyglucose (FDG) is found to play an important diagnostic role and often has a direct clinical impact on planned surgery or other treatment. Possible targeting structures are also investigated in this thesis, and it is concluded that the EGFR and CD44v6 stand out as possible antigens for targeting approaches of squamous cell carcinomas in the head and neck (HNSCC). A radioimmunoassay for quantification of EGFR and CD44v6 is validated and concluded to be a valuable complement to immunohistochemistry for the analysis of tumors and for the planning of radioimmunotherapy. Finally, promising results of radioimmunotherapy in tumor bearing mice with the monoclonal antibody U36 labeled with the alpha emitter astatine-211 are presented.</p><p>These results demonstrate how differences between tumors and normal tissues can be used to improve diagnostic outcomes and indicate that radioimmunotherapy can be a future adjuvant therapy or treatment of residual disease in HNSCC.</p>

Otorhinolaryngology

head and neck squamous cell carcinoma

tumor targeting

radionuclide targeting

PET

therapy

diagnistics

antibodies

Otorhinolaryngologi

Experimental Diagnostics and Therapeutics of Invasive Urinary Bladder Cancer

Sherif, Amir

January 2003

The two purposes of this thesis were to evaluate new diagnostic techniques of lymphnode staging in invasive bladder cancer and to evaluate the results of neoadjuvant chemotherapy in invasive bladder cancer. Sentinel node detection was performed in 13 patients in preparation for radical cystectomy. The method showed to be feasible, and the results displayed the occurrence of metastatic nodes outside the traditional area of diagnostic dissection in a majority of patients. Four patients were metastasized, each one with one metastatic node detected with the help of the sentinel node procedure. Four randomly selected sentinel nodes from four different unmetastasized patients were compared to the four metastatic sentinel nodes from the first series. After microdissection, p53 genomic structure, immunohistochemical expression and MVD (microvessel density) were assessed in the primary tumors and corresponding sentinel nodes. The results suggested that invasive bladder cancer mainly involved monoclonal proliferation with predominantly homogenous biomarker profile, but there were also signs of clonal evolution. The Nordic Cystectomy Trial 2 (NCT2), is a randomized prospective trial investigating the possible benefit of neoadjuvant chemotherapy versus cystectomy only, in 311 eligible patients with urinary bladder cancer T2-T4aNXM0.Evaluation of overall survival did not show any statistically significant benefit in the experimental arm. This probably due to lack of statistical power. To increase the statistical power we performed a combined analysis of randomized patients from both the Nordic Cystectomy Trial 1 (NCT1) and NCT2, n = 620. Eligible patients from NCT1 had T1G3, T2-T4a NXM0 urinary bladder cancer. Standard meta-analysis methods were used. The only end-point analysed was overall survival. Neoadjuvant platinum based combination therapy was associated with a 20 % reduction in the relative hazard in probability of death.

Surgery

Bladder cancer

Cystectomy

Neoadjuvant chemotherapy

Kirurgi

Lymph node excision

Radionuclide imaging

Gene expression

Surgery

Kirurgi

Tumour Targeting Using Radiolabelled EGF Conjugates : Preclinical Studies

Sundberg, Åsa Liljegren

January 2004

Tumour targeted radiotherapy is an appealing approach for treatment of disseminated tumour cells. A targeting agent that specifically binds to a structure on tumour cells is then used to transport therapeutically relevant radionuclides. The epidermal growth factor receptor, EGFR, is overexpressed on tumour cells in several malignancies, e.g. highly malignant gliomas. In this thesis, three types of radiolabelled EGF-conjugates, aimed for targeting to EGFR-expressing tumour cells, were developed and studied: EGF-dextran labelled with 125I, EGF labelled with 211At, and two EGF-chelates, DTPA-EGF and Bz-DTPA-EGF, labelled with the radioactive metals 111In and 177Lu. The targeting properties of radioiodinated EGF-dextran were first studied in cultured glioma cells. Radioiodine coupled to the dextran part of EGF-dextran was retained in cells appreciably longer than radioiodine coupled to EGF. This can give about 100 times increased radiation dose to tumour cells. Targeting with 211At-EGF was investigated in combination with the tyrosine kinase inhibitor gefitinib (Iressa™, ZD1839). The uptake of 211At-EGF in EGFR-expressing tumour cells increased with increasing gefitinib concentrations. This was the case for both gefitinib-resistant and gefitinib-sensitive cell lines. The effect of the combined treatment on cell survival, however, differed between the cell lines in an unexpected way. In gefitinib resistant cells, combined treatment decreased cell survival approximately 3.5 times relative to 211At-EGF treatment alone. In gefitinib sensitive cells, however, combined treatment increased the cell survival (i.e. a protective effect). The EGF-chelates studied ([111In]DTPA-EGF, [111In]Bz-DTPA-EGF and [177Lu]Bz-DTPA-EGF) all bound specifically with high affinity (Kd≈2 nM) to EGFR on cultured glioma cells. They were internalised after binding, and the cellular retention of radionuclides was high (60% remained after 45 h). A biodistribution study in mice showed that liver and kidneys accumulated a majority of the radioactivity. The EGF-chelates bound EGFR specifically also in vivo. A tumour-to-blood ratio of 25 was achieved in a preliminary study.

Radiation sciences

targeting

tumour

EGF

radionuclide

gefitinib

Iressa

ZD1839

glioma

therapy

diagnostics

Strålningsvetenskap

Radiation biology

Strålningsbiologi

Radioimmunotherapy in Experimental Head and Neck Squamous Cell Carcinoma : Tumour-targeting in vitro and in vivo

Cheng, Junping

January 2005

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.

Otorhinolaryngology

squamous cell carcinoma

radioimmunotherapy

cell line

tumour targeting

radionuclide

nude mice

Otorhinolaryngologi

Otorhinolaryngology

Otorhinolaryngologi

Diagnosis and Radioimmunotherapy of Head and Neck Squamous Cell Carcinomas

Ekberg, Tomas

January 2008

The diagnosis and treatment of patients with advanced tumors in the head and neck is an interesting challenge where there is a need for new approaches in diagnostics and adjuvant treatment. Differences in antigen expression between tumors and normal tissues provide a means for application of antibody-based targeting techniques. By targeting a structure that is abundant on tumor cells and limited on normal cells, radioactivity can be delivered. The use of positron emission tomography (PET) in patients with head and neck tumors is evaluated in this thesis. PET using the tracer fluorodeoxyglucose (FDG) is found to play an important diagnostic role and often has a direct clinical impact on planned surgery or other treatment. Possible targeting structures are also investigated in this thesis, and it is concluded that the EGFR and CD44v6 stand out as possible antigens for targeting approaches of squamous cell carcinomas in the head and neck (HNSCC). A radioimmunoassay for quantification of EGFR and CD44v6 is validated and concluded to be a valuable complement to immunohistochemistry for the analysis of tumors and for the planning of radioimmunotherapy. Finally, promising results of radioimmunotherapy in tumor bearing mice with the monoclonal antibody U36 labeled with the alpha emitter astatine-211 are presented. These results demonstrate how differences between tumors and normal tissues can be used to improve diagnostic outcomes and indicate that radioimmunotherapy can be a future adjuvant therapy or treatment of residual disease in HNSCC.

Otorhinolaryngology

head and neck squamous cell carcinoma

tumor targeting

radionuclide targeting

PET

therapy

diagnistics

antibodies

Otorhinolaryngologi

Antibody-Based Radionuclide Targeting for Diagnostics and Therapy : Preclinical Studies on Head and Neck Cancer

Nestor, Marika

January 2006

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.

Otorhinolaryngology

antibodies

radionuclide targeting

tumour targeting

therapy

diagnostics

immuno-PET

head and neck squamous cell carcinoma

Otorhinolaryngologi

Targeted Therapy of Colorectal Cancer : Preclinical Evaluation of a Radiolabelled Antibody

Almqvist, Ylva

January 2008

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.

Molecular medicine

tumour targeting

antibody

A33

radionuclide

colorectal cancer

therapy

Molekylärmedicin