BACKGROUND AND PURPOSE: The studies described here are the first to evaluate the in vitro and in vivo properties of (111)In-CHX-A''-panitumumab for radioimmunotherapy (alpha- and beta(-)-emitters) and radioimmunoimaging (single photon emission computed tomography and positron emission tomography). EXPERIMENTAL APPROACH: Twenty-seven human carcinoma cell lines were analysed for expression of epidermal growth factor receptors by flow cytometry. Panitumumab was conjugated with CHX-A''-DTPA (diethylenetriamine-pentaacetic acid) and radiolabelled with (111)In. Immunoreactivity of the CHX-A''-DTPA-panitumumab and (111)In-CHX-A''-DTPA-panitumumab was evaluated by radioimmunoassays. Tumour targeting was determined in vivo by direct quantitation of tumour and normal tissues and by gamma-scintigraphy. KEY RESULTS: For 26 of 27 human tumour cell lines, 95% of the cells expressed epidermal growth factor receptors over a range of intensity. Immunoreactivity of panitumumab was retained after modification with CHX-A''-DTPA. Radiolabelling of the immunoconjugate with (111)In was efficient with a specific activity of 19.5 +/- 8.9 mCi.mg(-1) obtained. Immunoreactivity and specificity of binding of the (111)In-panitumumab was shown with A431 cells. Tumour targeting by (111)In-panitumumab was demonstrated in athymic mice bearing A431, HT-29, LS-174T, SHAW or SKOV-3 s.c. xenografts with little uptake observed in normal tissues. The (111)In-panitumumab was also evaluated in non-tumour-bearing mice. Pharmacokinetic studies compared the plasma retention time of the (111)In-panitumumab in both non-tumour-bearing and A431 tumour-bearing mice. Tumour targeting was also visualized by gamma-scintigraphy. CONCLUSIONS AND IMPLICATIONS: Panitumumab can be efficiently radiolabelled with (111)In with high labelling yields. Based on the efficiency in tumour targeting and low normal tissue uptake, panitumumab may be an effective targeting component for radioimmunodiagnostic and radioimmunotherapeutic applications.
BACKGROUND AND PURPOSE: The studies described here are the first to evaluate the in vitro and in vivo properties of (111)In-CHX-A''-panitumumab for radioimmunotherapy (alpha- and beta(-)-emitters) and radioimmunoimaging (single photon emission computed tomography and positron emission tomography). EXPERIMENTAL APPROACH: Twenty-seven humancarcinoma cell lines were analysed for expression of epidermal growth factor receptors by flow cytometry. Panitumumab was conjugated with CHX-A''-DTPA (diethylenetriamine-pentaacetic acid) and radiolabelled with (111)In. Immunoreactivity of the CHX-A''-DTPA-panitumumab and (111)In-CHX-A''-DTPA-panitumumab was evaluated by radioimmunoassays. Tumour targeting was determined in vivo by direct quantitation of tumour and normal tissues and by gamma-scintigraphy. KEY RESULTS: For 26 of 27 humantumour cell lines, 95% of the cells expressed epidermal growth factor receptors over a range of intensity. Immunoreactivity of panitumumab was retained after modification with CHX-A''-DTPA. Radiolabelling of the immunoconjugate with (111)In was efficient with a specific activity of 19.5 +/- 8.9 mCi.mg(-1) obtained. Immunoreactivity and specificity of binding of the (111)In-panitumumab was shown with A431 cells. Tumour targeting by (111)In-panitumumab was demonstrated in athymic mice bearing A431, HT-29, LS-174T, SHAW or SKOV-3 s.c. xenografts with little uptake observed in normal tissues. The (111)In-panitumumab was also evaluated in non-tumour-bearing mice. Pharmacokinetic studies compared the plasma retention time of the (111)In-panitumumab in both non-tumour-bearing and A431 tumour-bearing mice. Tumour targeting was also visualized by gamma-scintigraphy. CONCLUSIONS AND IMPLICATIONS: Panitumumab can be efficiently radiolabelled with (111)In with high labelling yields. Based on the efficiency in tumour targeting and low normal tissue uptake, panitumumab may be an effective targeting component for radioimmunodiagnostic and radioimmunotherapeutic applications.
Authors: Diane E Milenic; Kayhan Garmestani; Lara L Chappell; Ekaterina Dadachova; Alexander Yordanov; Dangshe Ma; Jeffrey Schlom; Martin W Brechbiel Journal: Nucl Med Biol Date: 2002-05 Impact factor: 2.408
Authors: Heng Xu; Kwamena Baidoo; Andrew J Gunn; C Andrew Boswell; Diane E Milenic; Peter L Choyke; Martin W Brechbiel Journal: J Med Chem Date: 2007-08-29 Impact factor: 7.446
Authors: Diane E Milenic; Karen J Wong; Kwamena E Baidoo; Tapan K Nayak; Celeste A S Regino; Kayhan Garmestani; Martin W Brechbiel Journal: MAbs Date: 2010-09-01 Impact factor: 5.857
Authors: Karen J Wong; Kwamena E Baidoo; Tapan K Nayak; Kayhan Garmestani; Martin W Brechbiel; Diane E Milenic Journal: EJNMMI Res Date: 2011-06-07 Impact factor: 3.138
Authors: Wenze Xi; Jurgen Seidel; John W Kakareka; Thomas J Pohida; Diane E Milenic; James Proffitt; Stan Majewski; Andrew G Weisenberger; Michael V Green; Peter L Choyke Journal: Nucl Med Biol Date: 2010-04 Impact factor: 2.408
Authors: Diane E Milenic; Young-Seung Kim; Kwamena E Baidoo; Karen J Wong; Rachel Barkley; Jose Delgado; Martin W Brechbiel Journal: Cancer Biother Radiopharm Date: 2018-06 Impact factor: 3.099
Authors: Sibaprasad Bhattacharyya; Karen Kurdziel; Ling Wei; Lisa Riffle; Gurmeet Kaur; G Craig Hill; Paula M Jacobs; James L Tatum; James H Doroshow; Joseph D Kalen Journal: Nucl Med Biol Date: 2013-02-27 Impact factor: 2.408
Authors: Tapan K Nayak; Marcelino Bernardo; Diane E Milenic; Peter L Choyke; Martin W Brechbiel Journal: Radiology Date: 2013-01-17 Impact factor: 11.105