BACKGROUND: Detection of glioma with MRI contrast agent is limited to cases in which the blood-brain barrier (BBB) is compromised as contrast agents cannot cross the BBB. Thus, an early-stage infiltrating tumor is not detectable. Interleukin-13 receptor alpha 2 (IL-13Rα2), which has been shown to be overexpressed in glioma, can be used as a target moiety. We hypothesized that liposomes conjugated with IL-13 and encapsulating MRI contrast agent are capable of passing through an intact BBB and producing MRI contrast with greater sensitivity. METHODS: The targeted MRI contrast agent was created by encapsulating Magnevist (Gd-DTPA) into liposomes conjugated with IL-13 and characterized by particle size distribution, cytotoxicity, and MRI relaxivity. MR image intensity was evaluated in the brain in normal mice post injection of Gd-DTPA and IL-13-liposome-Gd-DTPA one day apart. The specificity for glioma detection by IL-13-liposome-Gd-DTPA was demonstrated in an intracranial glioma mouse model and validated histologically. RESULTS: The average size of IL-13-liposome-Gd-DTPA was 137 ± 43 nm with relaxivity of 4.0 ± 0.4 L/mmole-s at 7 Tesla. No significant cytotoxicity was observed with MTS assay and serum chemistry in mice. The MRI signal intensity was enhanced up to 15% post injection of IL-13-liposome-Gd-DTPA in normal brain tissue following a similar time course as that for the pituitary gland outside of the BBB. MRI enhanced by IL-13-liposome-Gd-DTPA detected small tumor masses in addition to those seen with Magnevist-enhanced MRI. CONCLUSIONS: IL-13-liposome-Gd-DTPA is able to pass through the uncompromised BBB and detect an early stage glioma that cannot be seen with conventional contrast-enhanced MRI.
BACKGROUND: Detection of glioma with MRI contrast agent is limited to cases in which the blood-brain barrier (BBB) is compromised as contrast agents cannot cross the BBB. Thus, an early-stage infiltrating tumor is not detectable. Interleukin-13 receptor alpha 2 (IL-13Rα2), which has been shown to be overexpressed in glioma, can be used as a target moiety. We hypothesized that liposomes conjugated with IL-13 and encapsulating MRI contrast agent are capable of passing through an intact BBB and producing MRI contrast with greater sensitivity. METHODS: The targeted MRI contrast agent was created by encapsulating Magnevist (Gd-DTPA) into liposomes conjugated with IL-13 and characterized by particle size distribution, cytotoxicity, and MRI relaxivity. MR image intensity was evaluated in the brain in normal mice post injection of Gd-DTPA and IL-13-liposome-Gd-DTPA one day apart. The specificity for glioma detection by IL-13-liposome-Gd-DTPA was demonstrated in an intracranial gliomamouse model and validated histologically. RESULTS: The average size of IL-13-liposome-Gd-DTPA was 137 ± 43 nm with relaxivity of 4.0 ± 0.4 L/mmole-s at 7 Tesla. No significant cytotoxicity was observed with MTS assay and serum chemistry in mice. The MRI signal intensity was enhanced up to 15% post injection of IL-13-liposome-Gd-DTPA in normal brain tissue following a similar time course as that for the pituitary gland outside of the BBB. MRI enhanced by IL-13-liposome-Gd-DTPA detected small tumor masses in addition to those seen with Magnevist-enhanced MRI. CONCLUSIONS:IL-13-liposome-Gd-DTPA is able to pass through the uncompromised BBB and detect an early stage glioma that cannot be seen with conventional contrast-enhanced MRI.
Authors: Justin D Lathia; Joseph Gallagher; John M Heddleston; Jialiang Wang; Christine E Eyler; Jennifer Macswords; Qiulian Wu; Amit Vasanji; Roger E McLendon; Anita B Hjelmeland; Jeremy N Rich Journal: Cell Stem Cell Date: 2010-05-07 Impact factor: 24.633
Authors: Peter J Haar; William C Broaddus; Zhi-jian Chen; Panos P Fatouros; George T Gillies; Frank D Corwin Journal: Phys Med Biol Date: 2010-05-28 Impact factor: 3.609
Authors: Achuthamangalam B Madhankumar; Becky Slagle-Webb; Xinsheng Wang; Qing X Yang; David A Antonetti; Patti A Miller; Jonas M Sheehan; James R Connor Journal: Mol Cancer Ther Date: 2009-03-10 Impact factor: 6.261
Authors: Mohammad N Kayyali; Alexander C Wright; Andrew J Ramsey; Jason A Brant; Joel M Stein; Bert W O'Malley; Daqing Li Journal: Nanomedicine Date: 2017-10-24 Impact factor: 5.307
Authors: Christian E Anderson; Shannon B Donnola; Yun Jiang; Joshua Batesole; Rebecca Darrah; Mitchell L Drumm; Susann M Brady-Kalnay; Nicole F Steinmetz; Xin Yu; Mark A Griswold; Chris A Flask Journal: Sci Rep Date: 2017-08-16 Impact factor: 4.379
Authors: Vagisha Ravi; Achuthamangalam B Madhankumar; Thomas Abraham; Becky Slagle-Webb; James R Connor Journal: PLoS One Date: 2019-09-06 Impact factor: 3.240